Rapid <em>growth</em> of residual tumor after partial hepatectomy has been observed during the period of liver regeneration in children with malignant embryonal hepatoblastoma. The aim of this study was to elucidate the role of hepatocyte <em>growth</em>-<em>factor</em>-scatter <em>factor</em> (HGF-SF) in this phenomenon. Markedly increased serum levels of HGF-SF up to <em>15</em> ng/ml were found in 13/18 patients after liver resection and in 6/16 patients with regressive tumors after chemotherapy, in comparison with <em>15</em> patients with non-pre-treated hepatoblastoma and 20 healthy children of the same age group. In the tumors, epithelial tumor cells highly expressed the HGF-SF receptor c-met, as shown by immunohistochemistry and m-RNA RT-PCR. The hepatoblastoma cell lines HepT1, HepT3 and HUH6 reacted with significantly increased proliferation to rhHGF-SF in these concentrations (1-<em>15</em> ng/ml). In the tumors, HGF-SF was found to be expressed in the stromal <em>fibroblasts</em>. In culture, hepatoblastoma cells (HepT3, HUH6) stimulated secretion of the <em>factor</em> by human <em>fibroblasts</em>, indicating the paracrine fashion of intratumoral HGF-SF production. Cultured hepatoblastoma cells ceased to proliferate at 20-50 ng/ml HGF-SF, and they underwent cell death at>>/=100 ng/ml. In contrast, the hepatocellular-carcinoma cell line HepG2 decreased <em>growth</em> under HGF-SF in a dose-dependent manner. We conclude that post-operatively secreted and intratumorally produced HGF-SF can function as a <em>growth</em> <em>factor</em> for hepatoblastoma, while the same agent has a cytostatic effect in unphysiologically high concentrations.

Microelectromechanical system (MEMS) technology not only provides the possibility of integration of multiple functions but also enables more precise control of dosing of therapeutic agents when the therapeutic window is very limited. Local delivery of basic <em>fibroblast</em> <em>growth</em> <em>factor</em> (bFGF) over a specific dose and time course is critical for mesenchymal tissue regeneration. However, bFGF is degraded quickly in vivo and difficulty of controlling the dose level impedes its effective use in angiogenesis and tissue regeneration. We constructed biodegradable micro-osmotic pumps based on MEMS technology for long-term controlled release of bFGF. The devices were constructed by micro-molding and thermal assembly of 85/<em>15</em> poly(L-lactide-co-glycolide) sheets. The release of bFGF was regulated at 40 ng/day for four weeks; bioactivity was assessed by monitoring the <em>growth</em> of 3T3 <em>fibroblasts</em>. The proposed devices can be further miniaturized and used for the delivery of multiple therapeutic agents at the individual releasing schedules.

The mitogenic activity of endothelin and its ability to stimulate PtdIns(4,5)P2 and phosphatidylcholine turnover in Rat-1 <em>fibroblasts</em> was studied. Stimulated incorporation of [3H]thymidine occurred in the absence of any other added <em>growth</em> <em>factors</em>. The endothelins stimulated rapid generation of both Ins(1,4,5)P3 and choline. Endothelin-1 and endothelin-2 were equipotent in stimulating both responses, but endothelin-3 was less potent. Endothelin-1-stimulated Ins(1,4,5)P3 generation reached a maximum at 5 s and then declined; however, the response was long-lived, with a 4.5-fold elevation over basal still observed after <em>15</em> min. Endothelin-stimulated choline generation was observed with no increase in choline phosphate; indeed, the apparent level of this metabolite fell after 30 min of stimulation, presumably due to the observed stimulation of phosphatidylcholine synthesis. The endothelin-stimulated increase in choline generation was abolished in cells where protein kinase C was down-regulated. However, endothelin-stimulated choline generation was greater than that observed in response to a protein kinase C-activating phorbol ester, raising the possibility that the peptide activates phospholipase D by both protein kinase C-dependent and -independent mechanisms.

The acidic pH-sensitive controlled release of <em>fibroblast</em> <em>growth</em> <em>factor</em>-2 (FGF-2) from a biodegradable hydrogel without any denaturation of the FGF-2 was successfully performed by a combination of FGF-2 activity and acidic pH-sensitivity. We prepared semi-interpenetrating polymer network like hetero-gels (S72-netgels) composed of poly(gamma-glutamic acid) (gamma-PGA) and 72% sulfonated gamma-PGA (gamma-PGA-S72). S72-netgels including 36 mol % sulfonic acid (S72-netgel-36) showed wide acidic pH-sensitive deswelling properties at pH = 2.0-6.0, corresponding to the isoelectric point of carboxylic acid, because of the concentration of protons due to the neighboring sulfonic acids from the carboxylic acids. The S72-netgel-36 (the volume of hydrogel is 7.85 x 10(-2) cm3) can incorporate 280 ng of FGF-2 after 24 h immersion in Tris-HCl buffer (pH = 7.4), including 1.0 microg of FGF-2. The S72-netgel-36 still retained about 60% of the FGF-2 even after <em>15</em> days of incubation in fresh Tris-HCl buffer at 37 degrees C because of the stable interaction of FGF-2 with gamma-PGA-S72 in S72-netgel-36. The release of FGF-2 from the S72-netgel-36 was successfully controlled by alternating immersion in pH = 7.4 and acidic pH buffers. Furthermore, the FGF-2 released from the S72-netgel-36 retained its activity without denaturation because the gamma-PGA-S72 in S72-netgel-36 has a protective activity. The acidic pH-sensitive FGF-2 release property of the S72-netgel-36 without denaturation of the FGF-2 may be useful for tissue engineering fields such as neovascular treatment for ischemia and inflammation.

OBJECTIVE

Identification of molecular characteristics that are useful to define subgroups of patients fitting into differential treatment schemes is considered a most promising approach in cancer research. In this first study of such type, we therefore investigated the potential of multiplexed sandwich immunoassays to define protein expression profiles indicative of clinically relevant properties of malignant tumors.

METHODS

Lysates prepared from large core needle biopsies of 113 invasive breast carcinomas were analyzed with bead-based miniaturized sandwich immunoassays specific for 54 preselected proteins.

RESULTS

Five protein concentrations [<em>fibroblast</em> <em>growth</em> <em>factor</em>-2 (FGF-2), Fas, Fas ligand, tissue inhibitor of metalloproteinase-1, and RANTES] were significantly different in the groups of patients with or without axillary lymph node metastasis. All <em>15</em> protein parameters that resulted in P values <0.2 and other diagnostic information [estrogen receptor (ER) status, tumor size, and histologic grading] were analyzed together by multivariate logistic regression. This yielded sets of five (FGF-2, Fas, Fas ligand, IP10, and PDGF-AB/BB) or six (ER staining intensity, FGF-2, Fas ligand, matrix metalloproteinase-13, PDGF-AB/BB, and IP10) parameters for which receiver-operator characteristic analyses revealed high sensitivities and specificities [area under curve (AUC) = 0.75 and AUC = 0.83] to predict the nodal status. A similar analysis including all identified parameters of potential value (<em>15</em> proteins, ER staining intensity, T) without selection resulted in a receiver-operator characteristic curve with an AUC of 0.87.

CONCLUSIONS

We clearly showed that this approach can be used to quantify numerous proteins from breast biopsies accurately in parallel and define sets of proteins whose combined analyses allow the prediction of nodal involvement with high specificity and sensitivity.

Our laboratory previously described the independent isolation of the <em>fibroblast</em> <em>growth</em> <em>factor</em> 4 (FGF-4) gene by NIH3T3 transformation assay using DNA from a patient with CML leukemia (Lucas et al., 1994). The FGF-4 gene was truncated by DNA rearrangement with a novel gene named GRS. In this manuscript we describe isolation of GRS cDNA and show by sequence comparison that GRS is a novel member of the Bcl-2 gene family. Northern analysis shows expression of the gene in normal human tissue to be largely restricted to the hematopoietic compartment. Analysis of the pattern of gene expression in cancer cell lines demonstrates GRS is expressed in hematopoietic malignancies and in melanoma. The chromosomal location of GRS has also been determined. The gene is positioned on chromosome <em>15</em> within bands q24-25.

<em>Fibroblast</em> <em>growth</em> <em>factor</em> 8 isoform b (FGF8b), a mitogenic and transforming polypeptide, was demonstrated to be naturally up-regulated in prostatic premalignant and malignant lesions in men. We generated four independent lines of transgenic mice with targeted overexpression of FGF8b in the prostatic epithelium using an improved rat probasin promoter, ARR(2)PB. Transgene expression in the prostate tissue was readily demonstrated by reverse transcription-PCR and localized to the prostatic epithelium by in situ hybridization. The histopathology of the prostate tissues was followed in different age groups of the various lines but most extensively in one line (line 3), starting from 1 month of age up to 24 months. Prostatic hyperplasia appeared in the lateral and ventral prostates in some animals as early as 2-3 months and in other lobes between 6 and 16 months. Beginning at 5-7 months, dysplasia, akin to what may be considered low-grade prostatic intraepithelial neoplasia (LGPIN) in humans, was detected. During the first 14 months, 100% of animals exhibited multifocal epithelial hyperplasia; 35% also had areas of LGPIN. This profile changed in subsequent months (<em>15</em>-24 months) to a higher incidence of LGPIN (66%) along with high-grade PIN (HGPIN) lesions (51%). Similar to HGPIN, stromal proliferation and appearance of papillary hyperplasia with atypia displayed a delayed pattern. The affected stroma consisted primarily of the smooth muscle cell component. The incidence of chronic inflammation, mostly involving T cells, was higher in the prostate of the transgenic mice relative to controls; however, the presence of a direct correlation between inflammation and hyperplasia or preneoplastic lesions was not identified. These transgenic mice represent a "natural" animal model for investigating the mechanism of development and progression of prostatic diseases, such as prostatic hyperplasia and preneoplastic lesions.

Natural human interleukin-6 (IL-6) characterized under completely denaturing conditions consists of a set of differentially modified phosphoglycoproteins of molecular mass in the range from 23 to 30 kDa ("25-kDa" O-glycosylated species and "30-kDa" O- and N-glycosylated species). The 25-kDa O-glycosylated IL-6 (which contains only Ser- or Thr-GalNAc-Gal-NeuNAc and thus should not bind wheat germ or lentil lectins) bound to and was eluted from a wheat germ lectin affinity column by GlcNAc and from a lentil lectin affinity column by methyl-alpha-D-Man suggesting that the 25-kDa IL-6 species formed heteromeric complexes with the N-glycosylated 30-kDa IL-6. In non-denaturing gels (0.2% Nonidet P-40-polyacrylamide gel electrophoresis (PAGE)), even under reducing conditions (<em>15</em> mM dithiothreitol or 1 M beta-mercaptoethanol and heating), <em>fibroblast</em>-derived IL-6 migrated as a predominant complex of mass approximately 85 kDa and additional minor 45-65-kDa complexes. Little IL-6 was detected in the size range 23-30 kDa. Elution of the major 85-kDa complex and re-electrophoresis through sodium dodecyl sulfate-PAGE revealed that it represented a heteromeric aggregate of the 25- and 30-kDa IL-6 species; the 45-65-kDa complexes were largely composed of the 25-kDa protein. The bulk of <em>fibroblast</em>-derived IL-6 eluted in the size range 45-85 kDa from a Sephadex G-200 gel filtration column further indicating that <em>fibroblast</em>-derived IL-6 was largely multimeric even in dilute solutions. Functionally, the high molecular mass IL-6 fractions from the G-200 column were less active in the B9 hybridoma <em>growth</em> <em>factor</em> assay than the lower molecular mass fractions but appeared to be equally active in the Hep3B hepatocyte-stimulating <em>factor</em> assay. Taken together, the data indicate that natural human IL-6 exists as a multimeric aggregate with varying biological activity.

Treatment of mouse <em>fibroblasts</em>, prelabeled at 4 degrees C with 125I-labeled epidermal <em>growth</em> <em>factor</em> (EGF), with the lectin concanavalin A (Con A) stabilized the 125I-labeled EGF-receptor complex to dissociation and prevented receptor-mediated endocytosis; after 5 hr at 37 degrees C, approximately 50% of the 125I-labeled EGF initially bound at 4 degrees C remained cell associated, compared to less than <em>15</em>% in control cells. The radioactivity lost from the Con A-treated cells was found as intact hormone in the medium, with almost no hormone degradation evident, whereas in control cells most of the medium radioactivity was in the form of low molecular weight degradation products. The trimolecular complex Con A-EGF-receptor was capable of stimulating RNA synthesis to levels greater than control (untreated) or EGF alone and maintained this stimulation for prolonged periods of time. However, there was no effect of Con A treatment on the stimulation of DNA synthesis induced by EGF prebound at 4 degrees C. Thus, maintaining the EGF-receptor complex at the cell surface allows enhanced stimulation of an acute biological response to EGF (RNA synthesis) but not stimulation of DNA synthesis. These data support the idea that processing subsequent to receptor binding is necessary to produce the mitogenic signal.

BACKGROUND

Decidualization, the differentiation of endometrial stromal cells is a crucial step for successful implantation of an embryo, development of the placenta and completion of pregnancy to term. Epigenetic mechanisms are thought to be strongly involved in the regulation of processes controlling implantation, placentation, organ formation and foetal growth. Recent studies suggest that decreased DNA methylation facilitates a receptive endometrium. Hence, the aim of this project was to compare the transcriptional profile changes induced by the inhibitor of DNA methylation, 5-Aza-2'-deoxycytidine (AZA) to the transcriptional changes that happen during decidualization.

RESULTS

When DNA methylation was inhibited in a human endometrial stromal cell (HESC) line with AZA, it resulted in the fibroblast-like stromal cells being transformed into decidual-like morphology after 9 days. Expression of both prolactin and insulin-like growth factor binding protein-1, the two established decidualization marker genes, were minimally up-regulated by AZA after 10 days of treatment. In a microarray of a three-way experiment between AZA-treated and oestradiol/progestin/cAMP-treated [medroxy-progesterone acetate (MPA)-mix] HESC and the untreated controls, we detected more than 1000 common genes that had a significant difference of expression compared with the controls. AZA-treated cells in the microarray significantly expressed 76 genes in common with the MPA-mix treated cells, and AZA treatment also differentially regulated 148 genes independently to that of MPA-mix treatment. The MPA-mix regulated at least 36 genes in the cell adhesion, extracellular matrix remodelling and RhoGTPase cytoskeletal reorganization pathway; AZA regulated 19 of these genes in common and 15 other RhoGTPase pathway genes.

CONCLUSIONS

AZA induced some decidualization-like responses of endometrial stromal cells independently of progestins or cAMP, possibly via the cytoskeletal reorganization pathway of the RhoGTPase family.

Peroxisome Proliferator Activated Receptor (PPAR)- δ agonists may serve for treating metabolic diseases. However, the effects of PPAR- δ agonism within the skeletal muscle, which plays a key role in whole-body glucose metabolism, remain unclear. This study aimed to investigate the signaling pathways activated in the gastrocnemius muscle by chronic administration of the selective PPAR- δ agonist, GW0742 (1 mg/kg/day for 16 weeks), in male C57Bl6/J mice treated for 30 weeks with high-fructose corn syrup (HFCS), the major sweetener in foods and soft-drinks (<em>15</em>% wt/vol in drinking water). Mice fed with the HFCS diet exhibited hyperlipidemia, hyperinsulinemia, hyperleptinemia, and hypoadiponectinemia. In the gastrocnemius muscle, HFCS impaired insulin and AMP-activated protein kinase signaling pathways and reduced GLUT-4 and GLUT-5 expression and membrane translocation. GW0742 administration induced PPAR- δ upregulation and improvement in glucose and lipid metabolism. Diet-induced activation of nuclear <em>factor</em>-κB and expression of inducible-nitric-oxide-synthase and intercellular-adhesion-molecule-1 were attenuated by drug treatment. These effects were accompanied by reduction in the serum concentration of interleukin-6 and increase in muscular expression of <em>fibroblast</em> <em>growth</em> <em>factor</em>-21. Overall, here we show that PPAR- δ activation protects the skeletal muscle against the metabolic abnormalities caused by chronic HFCS exposure by affecting multiple levels of the insulin and inflammatory cascades.

Capsicum-derived ingredients function as skin-conditioning agents--miscellaneous, external analgesics, flavoring agents, or fragrance components in cosmetics. These ingredients are used in 19 cosmetic products at concentrations as high as 5%. Cosmetic-grade material may be extracted using hexane, ethanol, or vegetable oil and contain the full range of phytocompounds that are found in the Capsicum annuum or Capsicum frutescens plant (aka red chiles), including Capsaicin. Aflatoxin and N-nitroso compounds (N-nitrosodimethylamine and N-nitrosopyrrolidine) have been detected as contaminants. The ultraviolet (UV) absorption spectrum for Capsicum Annuum Fruit Extract indicates a small peak at approximately 275 nm, and a gradual increase in absorbance, beginning at approximately 400 nm. Capsicum and paprika are generally recognized as safe by the U.S. Food and Drug Administration for use in food. Hexane, chloroform, and ethyl acetate extracts of Capsicum Frutescens Fruit at 200 mg/kg resulted in death of all mice. In a short-term inhalation toxicity study using rats, no difference was found between vehicle control and a 7% Capsicum Oleoresin solution. In a 4-week feeding study, red chilli (Capsicum annuum) in the diet at concentrations up to 10% was relatively nontoxic in groups of male mice. In an 8-week feeding study using rats, intestinal exfoliation, cytoplasmic fatty vacuolation and centrilobular necrosis of hepatocytes, and aggregation of lymphocytes in the portal areas were seen at 10% Capsicum Frutescens Fruit, but not 2%. Rats fed 0.5 g/kg day-1 crude Capsicum Fruit Extract for 60 days exhibited no significant gross pathology at necropsy, but slight hyperemia of the liver and reddening of the gastric mucosa were observed. Weanling rats fed basal diets supplemented with whole red pepper at concentrations up to 5.0% for up to 8 weeks had no pathology of the large intestines, livers, and kidneys, but destruction of the taste buds and keratinization and erosion of the gastrointestinal (GI) tract were noted in groups fed 0.5% to 5.0% red pepper. The results of 9-and 12-month extension of this study showed normal large intestines and kidneys. In rabbits fed Capsicum Annuum Powder at 5 mg/kg day-1 in the diet daily for 12 months damage to the liver and spleen was noted. A rabbit skin irritation test of Capsicum Annuum Fruit Extract at concentrations ranging from 0.1% to 1.0% produced no irritation, but Capsicum Frutescens Fruit Extract induced concentration-dependent (at 25 to 500 microg/ml) cytotoxicity in a human buccal mucosa <em>fibroblast</em> cell line. An ethanol extract of red chili was mutagenic in Salmonella typhimurium TA98, but not in TA100, or in Escherichia coli. Other genotoxicity assays gave a similar pattern of mixed results. Adenocarcinoma of the abdomen was observed in 7/20 mice fed 100 mg red chilies per day for 12 months; no tumors were seen in control animals. Neoplastic changes in the liver and intestinal tumors were observed in rats fed red chili powder at 80 mg/kg day-1 for 30 days, intestinal and colon tumors were seen in rats fed red chili powder and 1,2-dimethyl hydrazine, but no tumors were observed in controls. In another study in rats, however, red chile pepper in the diet at the same dose decreased the number of tumors seen with 1,2-dimethylhydrazine. Other feeding studies evaluated the effect of red chili peppers on the incidence of stomach tumors produced by N-methyl-N'-nitro-N-nitrosoguanidine, finding that red pepper had a promoting effect. Capsicum Frutescens Fruit Extract promoted the carcinogenic effect of methyl(acetoxymethyl)nitrosamine (carcinogen) or benzene hexachloride (hepatocarcinogen) in inbred male and female Balb/c mice dosed orally (tongue application). Clinical findings include symptoms of cough, sneezing, and runny nose in chili <em>factor</em>y workers. Human respiratory responses to Capsicum Oleoresin spray include burning of the throat, wheezing, dry cough, shortness of breath, gagging, gasping, inability to breathe or speak, and, rarely, cyanosis, apnea, and respiratory arrest. A trade name mixture containing 1% to 5% Capsicum Frutescens Fruit Extract induced very slight erythema in 1 of 10 volunteers patch tested for 48 h. Capsicum Frutescens Fruit Extract at 0.025% in a repeated-insult patch test using 103 subjects resulted in no clinically meaningful irritation or allergic contact dermatitis. One epidemiological study indicated that chili pepper consumption may be a strong risk <em>factor</em> for gastric cancer in populations with high intakes of chili pepper; however, other studies did not find this association. Capsaicin functions as an external analgesic, a fragrance ingredient, and as a skin-conditioning agent--miscellaneous in cosmetic products, but is not in current use. Capsaicin is not generally recognized as safe and effective by the U.S. Food and Drug Administration for fever blister and cold sore treatment, but is considered to be safe and effective as an external analgesic counterirritant. Ingested Capsaicin is rapidly absorbed from the stomach and small intestine in animal studies. Subcutaneous injection of Capsaicin in rats resulted in a rise in the blood concentration, reaching a maximum at 5 h; the highest tissue concentrations were in the kidney and lowest in the liver. In vitro percutaneous absorption of Capsaicin has been demonstrated in human, rat, mouse, rabbit, and pig skin. Enhancement of the skin permeation of naproxen (nonsteroidal anti-inflammatory agent) in the presence of Capsaicin has also been demonstrated. Pharmacological and physiological studies demonstrated that Capsaicin, which contains a vanillyl moiety, produces its sensory effects by activating a Ca2 +-permeable ion channel on sensory neurons. Capsaicin is a known activator of vanilloid receptor 1. Capsaicin-induced stimulation of prostaglandin biosynthesis has been shown using bull seminal vesicles and rheumatoid arthritis synoviocytes. Capsaicin inhibits protein synthesis in Vero kidney cells and human neuroblastoma SHSY-5Y cells in vitro, and inhibits <em>growth</em> of E. coli, Pseudomonas solanacearum, and Bacillus subtilis bacterial cultures, but not Saccharomyces cerevisiae. Oral LD50 values as low as 161.2 mg/kg (rats) and 118.8 mg/kg (mice) have been reported for Capsaicin in acute oral toxicity studies, with hemorrhage of the gastric fundus observed in some of the animals that died. Intravenous, intraperitoneal, and subcutaneous LD50 values were lower. In subchronic oral toxicity studies using mice, Capsaicin produced statistically significant differences in the <em>growth</em> rate and liver/body weight increases. Capsaicin is an ocular irritant in mice, rats, and rabbits. Dose-related edema was observed in animals receiving Capsaicin injections into the hindpaw (rats) or application to the ear (mice). In guinea pigs, dinitrochlorobenzene contact dermatitis was enhanced in the presence of Capsaicin, injected subcutaneously, whereas dermal application inhibited sensitization in mice. Immune system effects have been observed in neonatal rats injected subcutaneously with Capsaicin. Capsaicin produced mixed results in S. typhimurium micronucleus and sister-chromatid exchange genotoxicity assays. Positive results for Capsaicin were reported in DNA damage assays. Carcinogenic, cocarcinogenic, anticarcinogenic, antitumorigenic, tumor promotion, and anti-tumor promotion effects of Capsaicin have been reported in animal studies. Except for a significant reduction in crown-rump length in day 18 rats injected subcutaneously with Capsaicin (50 mg/kg) on gestation days 14, 16, 18, or 20, no reproductive or developmental toxicity was noted. In pregnant mice dosed subcutaneously with Capsaicin, depletion of substance P in the spinal cord and peripheral nerves of pregnant females and fetuses was noted. In clinical tests, nerve degeneration of intracutaneous nerve fibers and a decrease in pain sensation induced by heat and mechanical stimuli were evident in subjects injected intradermally with Capsaicin. An increase in mean inspiratory flow was reported for eight normal subjects who inhaled nebulized 10(-7) M Capsaicin. The results of provocative and predictive tests involving human subjects indicated that Capsaicin is a skin irritant. Overall, studies suggested that these ingredients can be irritating at low concentrations. Although the genotoxicity, carcinogenicity, and tumor promotion potential of Capsaicin have been demonstrated, so have opposite effects. Skin irritation and other tumor-promoting effects of Capsaicin appear to be mediated through interaction with the same vanilloid receptor. Given this mechanism of action and the observation that many tumor promoters are irritating to the skin, the Panel considered it likely that a potent tumor promoter may also be a moderate to severe skin irritant. Thus, a limitation on Capsaicin content that would significantly reduce its skin irritation potential is expected to, in effect, lessen any concerns relating to tumor promotion potential. Because Capsaicin enhanced the penetration of an anti-inflammatory agent through human skin, the Panel recommends that care should be exercised in using ingredients that contain Capsaicin in cosmetic products. The Panel advised industry that the total polychlorinated biphenyl (PCB)/pesticide contamination should be limited to not more than 40 ppm, with not more than 10 ppm for any specific residue, and agreed on the following limitations for other impurities: arsenic (3 mg/kg max), heavy metals (0.002% max), and lead (5 mg/kg max). Industry was also advised that aflatoxin should not be present in these ingredients (the Panel adopted < or =<em>15</em> ppb as corresponding to "negative" aflatoxin content), and that ingredients derived from Capsicum annuum and Capsicum Frutescens Plant species should not be used in products where N-nitroso compounds may be formed. (ABSTRACT TRUNCATED)

Malignant gliomas are highly angiogenic and aggressive tumors. IFN-beta has been used for the treatment of patients with malignant glioma; however, its antitumor mechanism in vivo remains unclear. To understand the in vivo antitumor effect and mechanism of recombinant human IFN-beta (rhIFN-beta) depending on the stages of tumor development or progression, we used orthotopic xenograft brain tumors generated by stereotactic intracerebral implantation of U-87 human glioma cells in nude mice. Mice bearing tumors 7 days (group 1) and 21 days (group 2) postimplant were treated with 2 x 10(5) IU/day of rhIFN-beta or saline i.p. for <em>15</em> days, respectively. Tumor <em>growth</em> was suppressed by 69.6% in group 1 and 10.8% in group 2 compared with tumors of each control group treated with saline. rhIFN-beta-treated group 1 animals showed 38% reduction in vascularization along with a 2.5-fold increase of the apoptotic index and no change in the proliferative index as compared with untreated tumors. The expression level of vascular endothelial cell <em>growth</em> <em>factor</em> and basic <em>fibroblast</em> <em>growth</em> <em>factor</em> was not affected by rhIFN-beta treatment. rhIFN-beta showed inhibitory activity on proliferation of U-87 cells, human umbilical vein endothelial cells, and PAM 212 murine keratinocytes in vitro. Our results indicate that the in vivo antitumor effect of rhIFN-beta on malignant gliomas may be mediated, at least in part, via angiogenesis inhibition rather than antiproliferative activity and that rhIFN-beta may be more effective for the treatment of malignant glioma patients at an early stage with minimal or microscopic tumor burdens rather than at an advanced stage of tumor development.

OBJECTIVE

To identify changes in growth factor expression in miniature pig retinas following retinal laser photocoagulation.

METHODS

Pigs were sacrificed at different times (15 minutes to 42 days) post-laser and the retinas were immunolabelled for basic fibroblast growth factor, insulin-like growth factor I, transforming growth factor beta, epidermal growth factor, transforming growth factor alpha, platelet derived growth factor, vascular endothelial growth factor, and epidermal growth factor receptor. Total mRNA levels were also determined.

RESULTS

With the exception of vascular endothelial growth factor, immunoreactivity for all other growth factors studied and epidermal growth factor receptor was observed throughout normal non-lasered control retina, generally being high in the retinal pigment epithelium and low in the neural retina. Changes in growth factor expression following laser photocoagulation were observed only in burn areas and changes were mainly confined to the retinal pigment epithelium and outer nuclear layer. The immunoreactivity within retinal pigment epithelial cells in burn areas was either absent or decreased following laser treatment but returned to normal by 21 days. The immunoreactivity was increased within the outer nuclear layer of burn areas during the healing process but returned to normal by 42 days. Vascular endothelial growth factor immunoreactivity was weak/absent in the normal retina and remained unchanged following laser photocoagulation. Change of total mRNA levels in burn areas during time post-laser was confined to retinal pigment epithelial cells, being low immediately following photocoagulation and returning to normal by 42 days.

CONCLUSIONS

These results demonstrate a temporal alteration in growth factor expression and transcriptional activity in the retina following laser photocoagulation.

BACKGROUND

chronic obstructive pulmonary disease (COPD) is characterized by chronic inflammation and structural alterations (ie, tissue remodeling) throughout the conducting airways, parenchyma, and pulmonary vasculature. Matrix metalloproteinases (MMPs) are extracellular degrading enzymes that play a critical role in inflammatory cell infiltration and tissue remodeling, but the influence of the agents that are used for the treatment of COPD on the production of MMPs is not well understood.

OBJECTIVE

the present study aimed to examine the influence of tiotropium bromide hydrate (TBH) on the production of MMPs from lung fibroblasts (LFs) induced by transforming growth factor (TGF)-β in vitro.

METHODS

LFs, at a concentration of 5 × 10(5) cells·mL(-1), were stimulated with TGF-β in the presence of various concentrations of TBH. MMP-1 and MMP-2 levels in culture supernatants were examined by enzyme-linked immunosorbent assay (ELISA), and MMP messenger ribonucleic acid (mRNA) expression was examined by real-time polymerase chain reaction (RT-PCR). The influence of TBH on TGF-β signaling pathways was also analyzed by examining Smad activation and signaling protein phosphorylation by ELISA.

RESULTS

TBH at more than 15 pg·mL(-1) inhibited the production of MMP-1 and MMP-2, but not tissue inhibitor of matrix metalloproteinase (TIMP)-1 and TIMP-2, from LFs, after TGF-β stimulation. TBH also suppressed MMP mRNA expression through the inhibition of Smad activation and signaling protein, extracellular-signal-regulated kinase (ERK) 1 and 2, and c-Jun N-terminal kinase (JNK), phosphorylation.

CONCLUSIONS

These results may suggest that TBH suppresses MMP production from LFs, through interference of TGF-β-mediated signaling pathways and results in favorable modification of the clinical status of COPD.

Vascular endothelial <em>growth</em> <em>factors</em> (VEGFs) have a leading role among variety of angiogenic <em>factors</em>. Together with their receptors, they play an important role in endothelial cell proliferation and/or elongation, migration and vascular morphogenesis. In order to determine their possible role in malignant melanoma progression, VEGF (representing VEGFA), VEGF-C and VEGFR-1, -2, -3 immunohistochemical expression on formalin-fixed, paraffin-embedded tissue sections were evaluated. A total of 196 tissue samples consisting of 130 malignant melanomas (MM) with various vertical depth of invasion, <em>15</em> metastatic melanomas, and 66 nevi including dysplastic nevi and melanocytic nevi were analysed. Production of both VEGFs were common in benign melanocytic tumors while MM exhibited significant upregulation of VEGF (p<0.0027) and VEGF-C (p<0.0001). The proteins were also detected within stromal cells surrounding tumors, particularly in fibrocytes/ <em>fibroblasts</em>, macrophages and endothelial cells. They also exhibited significant increase in malignant lesions (p<0.0001). VEGFRs were localized in tumor, as well in stromal cells. Although expression of VEGF receptors was significantly higher in MM versus nevi (p<0.002 for VEGFR-1, p<0.004 for VEGFR-2 and p<0.0001 for VEGFR-3), a considerable percentage of MM were negative. There were no correlations between sentinel node positivity and all investigated proteins. When clinical outcome was evaluated, progression of the disease positively correlated with VEGF (p<0,007) and VEGF-C (p<0,008) expression VEGF (p<0.001) and VEGF-C (p<0.0001) positively correlated with nestin expression in the capillary endothelium, which was used for angiogenesis detection. Our work demonstrated that upregulation of VEGFs is associated with progression of malignant melanomas. The protein expression in the tumor microenvironment highlights their importance in malignant stromal phenotype which may serve as a potential target for the anticancer therapy.

<AbstractText>Better risk stratification strategies are needed to enhance clinical care and trial design in heart failure with preserved ejection fraction (HFpEF).</AbstractText><AbstractText>The purpose of this study was to assess the value of a targeted plasma multi-marker approach to enhance our phenotypic characterization and risk prediction in HFpEF.</AbstractText><AbstractText>In this study, the authors measured 49 plasma biomarkers from TOPCAT (Treatment of Preserved Cardiac Function Heart Failure With an Aldosterone Antagonist) trial participants (n = 379) using a Multiplex assay. The relationship between biomarkers and the risk of all-cause death or heart failure-related hospital admission (DHFA) was assessed. A tree-based pipeline optimizer platform was used to generate a multimarker predictive model for DHFA. We validated the model in an independent cohort of HFpEF patients enrolled in the PHFS (Penn Heart Failure Study) (n = <em>15</em>6).</AbstractText><AbstractText>Two large, tightly related dominant biomarker clusters were found, which included biomarkers of fibrosis/tissue remodeling, inflammation, renal injury/dysfunction, and liver fibrosis. Other clusters were composed of neurohormonal regulators of mineral metabolism, intermediary metabolism, and biomarkers of myocardial injury. Multiple biomarkers predicted incident DHFA, including 2 biomarkers related to mineral metabolism/calcification (<em>fibroblast</em> <em>growth</em> <em>factor</em>-23 and OPG [osteoprotegerin]), 3 inflammatory biomarkers (tumor necrosis <em>factor</em>-alpha, sTNFRI [soluble tumor necrosis <em>factor</em>-receptor I], and interleukin-6), YKL-40 (related to liver injury and inflammation), 2 biomarkers related to intermediary metabolism and adipocyte biology (fatty acid binding protein-4 and <em>growth</em> differentiation <em>factor</em>-<em>15</em>), angiopoietin-2 (related to angiogenesis), matrix metalloproteinase-7 (related to extracellular matrix turnover), ST-2, and N-terminal pro-B-type natriuretic peptide. A machine-learning-derived model using a combination of biomarkers was strongly predictive of the risk of DHFA (standardized hazard ratio: 2.85; 95% confidence interval: 2.03 to 4.02; p < 0.0001) and markedly improved the risk prediction when added to the MAGGIC (Meta-Analysis Global Group in Chronic Heart Failure Risk Score) risk score. In an independent cohort (PHFS), the model strongly predicted the risk of DHFA (standardized hazard ratio: 2.74; 95% confidence interval: 1.93 to 3.90; p < 0.0001), which was also independent of the MAGGIC risk score.</AbstractText><AbstractText>Various novel circulating biomarkers in key pathophysiological domains are predictive of outcomes in HFpEF, and a multimarker approach coupled with machine-learning represents a promising strategy for enhancing risk stratification in HFpEF.</AbstractText>

Transforming <em>growth</em> <em>factor</em>-beta (TGF-beta) is a multifunctional <em>growth</em> <em>factor</em> that plays a critical role in tissue repair and fibrosis. Sphingolipid signaling has been shown to regulate a variety of cellular processes and has been implicated in collagen gene regulation. The present study was undertaken to determine whether endogenous sphingolipids are involved in the TGF-beta signaling pathway. TGF-beta treatment induced endogenous ceramide levels in a time-dependent manner within 5-<em>15</em> min of cell stimulation. Using human <em>fibroblasts</em> transfected with a alpha2(I) collagen promoter/reporter gene construct (COL1A2), C(6)-ceramide (10 microm) exerted a stimulatory effect on basal and TGF-beta-induced activity of this promoter. Next, to define the effects of endogenous sphingolipids on TGF-beta signaling we employed ectopic expression of enzymes involved in sphingolipid metabolism. Sphingosine 1-phosphate phosphatase (YSR2) stimulated basal COL1A2 promoter activity and cooperated with TGF-beta in activation of this promoter. Furthermore, overexpression of YSR2 resulted in the pronounced increase of COL1A1 and COL1A2 mRNA levels. Conversely, overexpression of sphingosine kinase (SPHK1) inhibited basal and TGF-beta-stimulated COL1A2 promoter activity. These results suggest that endogenous ceramide, but not sphingosine or sphingosine 1-phosphate, is a positive regulator of collagen gene expression. Mechanistically, we demonstrate that Smad3 is a target of YSR2. TGF-beta-induced Smad3 phosphorylation was elevated in the presence of YSR2. Cotransfection of YSR2 with wild-type Smad3, but not with the phosphorylation-deficient mutant of Smad3 (Smad3A), resulted in a dramatic increase of COL1A2 promoter activity. In conclusion, this study demonstrates a direct role for the endogenous sphingolipid mediators in regulating the TGF-beta signaling pathway.

The X-linked hypophosphatemic (Hyp) mouse carries a loss-of-function mutation in the phex gene and is characterized by hypophosphatemia due to renal phosphate (Pi) wasting, inappropriately suppressed 1,25-dihydroxyvitamin D [1,25(OH)₂D] production, and rachitic bone disease. Increased serum <em>fibroblast</em> <em>growth</em> <em>factor</em>-23 concentration is responsible for the disordered metabolism of Pi and 1,25(OH)₂D. In the present study, we tested the hypothesis that chronic inhibition of <em>fibroblast</em> <em>growth</em> <em>factor</em>-23-induced activation of MAPK signaling in Hyp mice can reverse their metabolic derangements and rachitic bone disease. Hyp mice were administered the MAPK inhibitor, PD0325901 orally for 4 wk. PD0325901 induced a <em>15</em>-fold and 2-fold increase in renal 1α-hydroxylase mRNA and protein abundance, respectively, and thereby higher serum 1,25(OH)₂D concentrations (1<em>15</em> ± 13 vs. 70 ± 16 pg/ml, P < 0.05), compared with values in vehicle-treated Hyp mice. With PD0325901, serum Pi levels were higher (5.1 ± 0.5 vs. 3 ± 0.2 mg/dl, P < 0.05), and the protein abundance of sodium-dependent phosphate cotransporter Npt2a, was greater than in vehicle-treated mice. The rachitic bone disease in Hyp mice is characterized by abundant unmineralized osteoid bone volume, widened epiphyses, and disorganized <em>growth</em> plates. In PD0325901-treated Hyp mice, mineralization of cortical and trabecular bone increased significantly, accompanied by a decrease in unmineralized osteoid volume and thickness, as determined by histomorphometric analysis. The improvement in mineralization in PD0325901-treated Hyp mice was confirmed by microcomputed tomography analysis, which showed an increase in cortical bone volume and thickness. These findings provide evidence that in Hyp mice, chronic MAPK inhibition improves disordered Pi and 1,25(OH)₂D metabolism and bone mineralization.

Diets deficient in protein often increase food consumption, body weight and fat mass; however, the underlying mechanisms remain poorly understood. We compared the effects of diets varying in protein concentrations on energy balance in obesity-prone rats. We demonstrate that protein-free (0% protein calories) diets decreased energy intake and increased energy expenditure, very low protein (5% protein) diets increased energy intake and expenditure, whereas moderately low protein (10% protein) diets increased energy intake without altering expenditure, relative to control diet (<em>15</em>% protein). These diet-induced alterations in energy expenditure are in part mediated through enhanced serotonergic and β-adrenergic signaling coupled with upregulation of key thermogenic markers in brown fat and skeletal muscle. The protein-free and very low protein diets decreased plasma concentrations of multiple essential amino acids, anorexigenic and metabolic hormones, but these diets increased the tissue expression and plasma concentrations of <em>fibroblast</em> <em>growth</em> <em>factor</em>-21. Protein-free and very low protein diets induced fatty liver, reduced energy digestibility, and decreased lean mass and body weight that persisted beyond the restriction period. In contrast, moderately low protein diets promoted gain in body weight and adiposity following the period of protein restriction. Together, our findings demonstrate that low protein diets produce divergent effects on energy balance.

Matrix metalloproteinases (MMPs) degrade extracellular matrix components, and overexpression of these enzymes contributes to tissue destruction in arthritis. Of particular importance are the collagenases, MMP-1 and MMP-13, which have high activity against the interstitial collagens in cartilage. In this study, we address the mechanisms of two inhibitors of collagenase gene expression, the synthetic triterpenoid 2-cyano-3,12-dioxooleana-1,9-dien-28-oic acid (CDDO) and <em>15</em>-deoxy-delta(12,14)-prostaglandin J2 (<em>15</em>-dPGJ2). Although both inhibitors are ligands for the nuclear hormone receptor peroxisome proliferator-activated receptor-gamma (PPAR-gamma), a connection between PPAR-gamma and collagenase gene expression has yet to be established. Here, we test the hypothesis that CDDO and <em>15</em>-dPGJ2 use PPAR-gamma to repress MMP gene expression. Our findings with the PPAR-gamma antagonist 2-[4-[2-[3-(2,4-difluorophenyl)-1-heptylureido]ethyl]rsqb]-phenylsulfanyl]-2-methylpropionic acid (GW9662) and mouse embryonic <em>fibroblasts</em> lacking PPAR-gamma demonstrate that CDDO and <em>15</em>-dPGJ2 use PPAR-gamma-independent mechanisms to inhibit collagenase gene expression. To address a potential PPAR-gamma-independent mechanism leading to the repression of MMPs by CDDO, we tested the effect of CDDO on the transforming <em>growth</em> <em>factor</em>-beta (TGF-beta) signaling pathway. We found that CDDO requires Smads (transcription <em>factors</em> activated by TGF-beta) for the repression of MMP-1. Specifically, MMP-1 is inhibited neither by CDDO in the absence of TGF-beta receptor-activated Smad3 nor when a negative regulator, Smad7, attenuates TGF-beta signaling. We conclude that CDDO represses MMP gene expression through a novel PPAR-gamma-independent mechanism that requires Smad signaling.

BACKGROUND

This study aims to quantify changes in fibroblast growth factor 19 (FGF19) and bile acids (BAs) in patients with uncontrolled type 2 diabetes randomized to Roux-en-Y gastric bypass (RYGB) vs intensive medical management (IMM) and matched for similar reduction in HbA1c after 1 year of treatment.

METHODS

Blood samples were drawn from patients who underwent a test meal challenge before and 1 year after IMM (n = 15) or RYGB (n = 15).

RESULTS

Mean HbA1c decreased from 9.7 to 6.4% after RYGB and from 9.1 to 6.1% in the IMM group. At 12 months, the number of diabetes medications used per subject in the RYGB group (2.5 ± 0.5) was less than in the IMM group (4.6 ± 0.3). After RYGB, FGF19 increased in the fasted (93 ± 15 to 152 ± 19 pg/ml; P = 0.008) and postprandial states (area under the curve (AUC), 10.8 ± 1.9 to 23.4 ± 4.1 pg × h/ml × 10(3); P = 0.006) but remained unchanged following IMM. BAs increased after RYGB (AUC ×10(3), 6.63 ± 1.3 to 15.16 ± 2.56 μM × h; P = 0.003) and decreased after IMM (AUC ×10(3), 8.22 ± 1.24 to 5.70 ± 0.70; P = 0.01). No changes were observed in the ratio of 12α-hydroxylated/non-12α-hyroxylated BAs. Following RYGB, FGF19 AUC correlated with BAs (r = 0.54, P = 0.04) and trended negatively with HbA1c (r = -0.44; P = 0.09); these associations were not observed after IMM.

CONCLUSIONS

BA and FGF19 levels increased after RYGB but not after IMM in subjects who achieved similar improvement in glycemic control. Further studies are necessary to determine whether these hormonal changes facilitate improved glucose homeostasis.

OBJECTIVE

Recent efforts by the scientific community to characterize the complex interplay between different cell types involved in the development of tumors have led us to investigate the roles of vascular endothelial growth factor (VEGF) and fibroblast growth factor 2 (FGF2) in the development of breast cancer.

METHODS

Using modified Boyden chamber assays, we measured the in vitro migration effect on murine mesenchymal stem cells (MSCs). Additionally, we assayed for the presence of receptors for these growth factors on MSCs, and for the presence of VEGF and FGF2 in breast cancer-conditioned media. We measured the change in migration of MSCs toward breast cancer when we depleted these growth factors from breast cancer-conditioned media. Further, we conducted a series of standard curve migration assays for basal media supplemented with physiologic concentrations of VEGF and FGF2.

RESULTS

Analysis of gene expression and protein analysis demonstrated the expression of FGF2 and VEGF by the breast cancer cells, and the presence of VEGF (FLK1) and FGF2 receptors on the MSCs. We also demonstrated a reduction in migration when we antibody-depleted VEGF and FGF2 from breast cancer-conditioned media. Additionally, we found the physiologic concentrations of VEGF and FGF2 at 12 and 15 ng/mL, respectively.

CONCLUSIONS

We demonstrate that VEGF and FGF2 induce migration of MSCs are secreted by breast cancer cells, their receptors are present on MSCs, and depletion of these growth factors reduces migration, and are therefore 2 relevant growth factors for MSC migration toward breast cancer cells.

OBJECTIVE

Do platelets have any role in the development of adenomyosis?

CONCLUSIONS

Activated platelets coincide with the release of transforming growth factor (TGF)-β1 and induction of the TGF-β/Smad signaling pathway as well as evidence of epithelial-mesenchymal transition (EMT) and fibroblast-to-myofibroblast transdifferentiation (FMT) in a mouse model of adenomyosis, resulting ultimately in fibrosis, as in adenomyosis.

BACKGROUND

Both EMT and FMT are known to play vital roles in fibrogenesis in general and in endometriosis in particular. EMT has been implicated in the development of adenomyosis, but this was based primarily on cross-sectional observation. It is unclear as to whether adenomyotic lesions and their microenvironment have the machinery to promote EMT and FMT, resulting ultimately in fibrosis. There has not been any published study on the role of platelets in the development of adenomyosis, even though adenomyotic lesions undergo repeated cycles of tissue injury and repair, which implicates the involvement of platelets and constitutes an environment conducive for fibrogenesis.

METHODS

Adenomyosis was induced in 28 female ICR mice by neonatal dosing of tamoxifen. Another 32 were neonatally dosed without tamoxifen. These mice were sacrificed serially and their tissue samples were subsequently evaluated.

METHODS

Female ICR mice with and without induced adenomyosis were sacrificed in batch at 5, 10, 15, 42 and 60 days of age. The depth of myometrial infiltration of endometrial tissues was assessed and immunohistochemistry analysis of biomarkers of EMT and FMT, as well as TGF-β1, phosphorylated Smad3 (p-Smad3) and markers of proliferation, angiogenesis and extracellular matrix (ECM) deposits was performed in ectopic (for adenomyotic mice) and eutopic (controls) endometrial tissue samples. Masson trichrome and Van Gieson stainings were performed to quantify the extent of fibrosis in lesions. Progesterone receptor isoform B (PR-B) staining also was performed.

RESULTS

While TGF-β1 immunoreactivity was consistently low in control endometrium, its level was increased dramatically starting from Day 10, along with the extent of platelet aggregation. Staining for TGF-β1 and p-Smad3 increased progressively as adenomyosis progressed, along with markers for proliferation, angiogenesis and ECM deposits. Consistently, staining of vimentin (a marker for stromal or mesenchymal cells) was also increased while that of E-cadherin (a marker for epithelial cells) was reduced. PR-B staining also decreased progressively. Starting from Day 42, α-SMA staining, a marker for myofibroblasts, was elevated in lesions, while in control endometrium, it was negative. Concomitantly, the extent of fibrosis also was increased.

CONCLUSIONS

This study is limited by the use of histochemistry and immunohistochemistry analyses only and the lack of intervention.

CONCLUSIONS

Like their endometriotic counterpart, adenomyotic lesions and their microenvironment may contain all the necessary molecular machinery to promote fibrogenesis. Platelet-induced activation of the TGF-β/Smad signaling pathway may be a driving force in EMT and FMT in the development of adenomyosis, leading to fibrosis. This study provides the first piece of evidence that adenomyotic lesions are wounds that undergo repeated injury and healing, and as such, platelets play critical roles in the development of adenomyosis. It suggests the potential for the use of anti-platelet therapy in the treatment of adenomyosis, and also opens a new venue for developing novel biomarkers for diagnostic or prognostic purposes.

BACKGROUND

Support for data collection and analysis was provided by grants from the National Science Foundation of China. None of the authors has anything to disclose.