Circulating endothelial cells (CECs) have been studied in cardiovascular disorders and as a marker of angiogenetic activity; clinical applications are limited by a lack of consensus on their phenotypic identification and quantification. We determined CECs in essential thrombocythemia (ET) patients, to investigate their possible pathogenetic role. We considered CECs as CD146⁺/CD45⁻ nucleated cells, detected in peripheral blood from 21 healthy controls and 39 ET patients, performing a combination of pre-enrichment of CD146⁺ circulating cells and multiparametric flow cytometry measurement (FCM). Levels of CECs in ET patients were higher with respect to controls (median 2844 CECs/mL vs. 121.3 CECs/mL, P < 0.0001). Apparently hydroxyurea treatment did not influence the levels of CECs. As another established marker of endothelial activation, we also assessed soluble E-selectin (sE-selectin) levels in 31 of the ET patients and compared with 39 healthy volunteers: median sE-selectin level in ET patients was 35.3 ng/mL, higher with respect to controls (24.48 ng/mL), P = 0.0369. Our data suggest that endothelium in ET is activated, reflecting a significant role of angiogenesis in this disorder and suggesting an important endothelial contribution in the hypercoagulable state of ET patients.

Vascular injury and destruction of endothelial cells (ECs) are the early events in scleroderma (SSc) patients. This study aims to investigate the therapeutic potential of human-induced pluripotent stem cell-derived ECs (hiPSC-ECs) to treat SSc. We have assessed the functional differentiation of hiPSC-ECs and compared them with human embryonic stem cell-derived ECs (hESC-ECs) by a variety of in vitro experimental approaches. Additionally, we evaluated the therapeutic potential of hiPSC-ECs in a bleomycin-induced SSc mouse model. Our results demonstrated that hiPSC-ECs and hESC-ECs showed similar maximum expressions of FLK1 (early EC marker) at day five during differentiation. After sorting and culturing, the FLK1-positive cells exhibited spindle and subsequent endothelial cobblestone morphology in EGM2 medium. The hESC-ECs and hiPSC-ECs also expressed late EC markers CD31 (68% and 75%), CD144 (50% and 61%), CD146 (46% and 61%), and DiI-labeled acetylated low-density lipoprotein (DiI-ac-LDL) uptake (55% and 63%), respectively. They additionally formed capillary-like structures on Matrigel. Analyses of the transplantation of sorted CD31-positive hiPSC-ECs into the bleomycin-induced SSc mouse model demonstrated that these cells participate in recovery of the damaged vessels. There was a reduction in collagen content; the number of total and degranulated mast cells returned to their normal state, and bleomycin-induced wounds as well as skin fibrosis improved four weeks after transplantation of hiPSC-ECs. Our findings have shown that the differentiation process from hESCs and hiPSCs to vascular cell components is similar. Additionally, this is the first study to determine the therapeutic potential of vascular cells from hiPSCs in the treatment of an SSc model. In the future, with further validation, these may be used as an appropriate source for the treatment of SSc patients.

Alterations in the development of the placental vasculature can lead to pregnancy complications, such as preeclampsia. Currently, the cause of preeclampsia is unknown, and there are no specific prevention or treatment strategies. Further insight into the placental vasculature may aid in identifying causal factors. Endothelial colony-forming cells (ECFCs) are a subset of endothelial progenitor cells capable of self-renewal and de novo vessel formation in vitro. We hypothesized that ECFCs exist in the micro- and macrovasculature of the normal, term human placenta. Human placentas were collected from term pregnancies delivered by cesarean section (n = 16). Placental micro- and macrovasculature was collected from the maternal and fetal side of the placenta, respectively, and ECFCs were isolated and characterized. ECFCs were CD31(+), CD105(+), CD144(+), CD146(+), CD14(-), and CD45(-), took up 1,1'-dioctadecyl-3,3,3',3'-tetramethyl-indocarbocyanine perchlorate-labeled acetylated low-density lipoprotein, and bound Ulex europaeus agglutinin 1. In vitro, macrovascular ECFCs had a greater potential to generate high-proliferative colonies and formed more complex capillary-like networks on Matrigel compared with microvascular ECFCs. In contrast, in vivo assessment demonstrated that microvascular ECFCs had a greater potential to form vessels. Macrovascular ECFCs were of fetal origin, whereas microvascular ECFCs were of maternal origin. ECFCs exist in the micro- and macrovasculature of the normal, term human placenta. Although macrovascular ECFCs demonstrated greater vessel and colony-forming potency in vitro, this did not translate in vivo, where microvascular ECFCs exhibited a greater vessel-forming ability. These important findings contribute to the current understanding of normal placental vascular development and may aid in identifying factors involved in preeclampsia and other pregnancy complications.

The use of highly specific and highly sensitive quantum dots immunofluorescent label is a promising approach for biomedical imaging in cancer cells. Human melanoma cell adhesion molecule CD146, overexpressed on the surface of melanoma cells, is an important target for melanoma diagnostics. We synthesized PEG-COOH capped highly fluorescent CdSe/ZnS QDs and conjugated them with streptavidin to prepare QD-SA label. Then, we used QD-SA to link with biotinylated goat anti-mouse IgG and mouse anti-human CD146 to label CD146 overexpressed on live and fixed cells by FACS and Confocal microscopy. Labeling of target cells was shown to have high brightness, photostability, and specificity. Advantages of QD conjugates over FITC conjugates are discussed. The results indicate that construction based on QD-SA label, biotinylated IgG and CD146 antibody can be successfully used for detection of melanoma cells for biomedical applications.

Our previous studies revealed that the level of activated circulating endothelial cells (aCECs) was correlated with the progression-free survival (PFS) in antiangiogenesis therapy. Anlotinib displayed affirmatory efficacies in several clinical trials of non-small-cell lung cancer (NSCLC). To find a marker predicting the efficacy of anlotinib treatment, we investigated the correlations of aCECs with PFS and overall survival (OS) in patients with NSCLC treated with anlotinib and the impact of anlotinib on human umbilical vascular endothelial cells (HUVECs). The blood samples of 78 patients with NSCLC were collected. aCECs were identified by flow cytometry as CD45- /CD146+ /CD31+ cells and CD45- /CD146+ /CD105+ cells. The mean value of baseline aCECs counts was defined as the cutoff value, according to which patients were divided into high and low baseline groups. Statistical correlation between high baseline CD31-labeled aCECs counts and number of metastatic lesions (>3) (χ2 = 4.905, P = .027) was analyzed. The 49 patients treated with anlotinib were stratified according to the ratio of minimal aCECs counts at any time points to baseline (aCECs min/baseline) as <1 or ≥1. Interestingly, the patients with aCECs (CD31) min/baseline <1 displayed longer PFS [HR = 0.439, 95%CI (0.211-0.912), P = .023]. The biological effect of anlotinib on HUVECs was investigated using MTT assays. Western blot analysis was conducted to evaluate the expression levels of CD31 and CD105 under anlotinib treatment and the underlying mechanisms. In vitro experiment data demonstrated that CD31 exhibited more sensitive changes than CD105 under anlotinib treatment through PI3K-AKT pathway. Thus, our finding provides new insights into the mechanism by which the CD31-labeled aCECs are a more sensitive marker for predicting the efficiency of anlotinib treatment.

Embryologic and genetic evidence suggest a common origin of haematopoietic and endothelial lineages. In the murine embryo, recent studies indicate the presence of haemogenic endothelium and of a common haemato-endothelial precursor, the haemangioblast. Conversely, so far, little evidence supports the presence of haemogenic endothelium and haemangioblasts in later stages of development. Our studies indicate that human cord blood haematopoietic progenitors (CD34+45+144-), triggered by murine hepatocyte conditioned medium, differentiate into adherent proliferating endothelial precursors (CD144+CD105+CD146+CD31+CD45-) capable of functioning as haemogenic endothelium. These cells, proven to give rise to functional vasculature in vivo, if further instructed by haematopoietic growth factors, first switch to transitional CD144+45+ cells and then to haematopoietic cells. These results highlight the plasticity of haemato-endhothelial precursors in human post-natal life. Furthermore, these studies may provide highly enriched populations of human post-fetal haemogenic endothelium, paving the way for innovative projects at a basic and possibly clinical level.

OBJECTIVE

Strategies to promote intervertebral disc (IVD) regeneration have been hindered by the lack of knowledge of IVD fundamental cellular/molecular components. One of the key points to be addressed is the characterization of nucleus pulposus (NP) cell population(s). This study establishes an improved method for bovine NP (bNP) cell isolation, whose procedure is still not consensual among the literature, allowing a thorough characterization of cell (sub)populations that exist in the young NP.

METHODS

bNP was digested with distinct enzymes (collagenase-type-I, collagenase-type-II, and collagenase-type-XI) at different concentrations (0.5, 1.0, and 2.0 mg/mL), for 4 and 19 h. Cell yield, viability/apoptosis, and morphology were analyzed by flow cytometry and imaging flow cytometry. Identification of cell subpopulations within NP and its phenotype was investigated by assessing expression of CD29, CD44, CD45, CD34, CD146, and Brachyury.

RESULTS

It was found that bNP cells present a similar morphology independently of the digestive enzyme used. However, cell yield was greatly improved by Coll-XI (2 mg/mL) treatment for a short digestion period. Interestingly, three subpopulations, with different sizes and auto-fluorescence, were consistently identified by flow cytometry. And crucially, differential expression of cell markers was found among these subpopulations.

CONCLUSIONS

This study demonstrated that collagenase-type-XI is an efficient enzyme that is used for digesting bNP. And most importantly, three phenotypically distinct subpopulations of cells where identified within the bNP. Such knowledge is key for a better understanding of NP cell biology and its potential endogenous regenerative capacity.

Adenoid cystic carcinoma (AdCC) of the salivary gland in the head and neck is characterized by indolent yet persistent growth, multiple local recurrences and early hematogenous metastasis. Considering the possible association between the epidermal growth factor receptor (EGFR) signaling pathway and angiogenesis in various types of cancer and the overexpression of EGFR in AdCC, it is reasonable to examine the correlation between angiogenesis and the EGFR signaling pathway in this carcinoma. In the present study, the expression of EGFR, CD31, CD146 and hypoxia‑inducible factor‑1α (HIF‑1α) were evaluated by immunohistochemical staining with tissue microarray containing normal salivary gland (NSG), pleomorphic adenoma (PMA) and AdCC tissues. Pearson's correlation coefficient was conducted to demonstrate the correlation between EGFR, CD31, CD146 and HIF‑1α. To determine their similarity and intimacy, hierarchical analysis was performed with Cluster 3.0 and then visualized using TreeView software. Immunohistochemical results of tissue microarrays were quantified, revealing that the expression of EGFR, CD146 and HIF‑1α increased in AdCC compared with in PMA and NSG tissues. The association between the expression of EGFR and CD31 was significant and positive. The expression of CD146 and HIF‑1α was positively correlated with EGFR and CD31, respectively. These findings suggest that the EGFR signaling pathway has a vital role in AdCC progression and may be associated with HIF‑1α‑mediated angiogenesis. These results may enhance our understanding of the mechanism underlying AdCC progression and provide potential clinical therapeutic strategies based on the inhibition of EGFR.

Deer antlers are the only mammalian appendage to display an annual cycle of full regeneration. The growth phase in antler involves the rapid proliferation of several tissues types, including epidermis, dermis, cartilage, bone, blood vessels, and nerves. Antlers thus provide an excellent model to study the developmental regulation of these tissues. We describe here the identification of two genes, pigment epithelium-derived factor (PEDF) and cyclin-dependent kinase inhibitor 1C (CDKN1C), both of which are known to be involved in cell proliferation and differentiation. These genes were identified as the result of screening an expressed sequence tag database derived from a cDNA library enriched for sequences from the growing antler tip. PEDF mRNA was detected in developing skin, cartilage, and bone during endochondral ossification. PEDF mRNA was not detected within endothelial cells that exhibited positive immunoreactivity to a CD146 antibody. CDKN1C mRNA was expressed by only the immature chondrocytes within the precartilage region. These results suggested that PEDF and CDKN1C are important genes involved in cell proliferation and differentiation during antler growth.

Placenta creta (accreta, increta, or percreta) is a clinically symptomatic condition, usually diagnosed histologically on hysterectomy specimens. At a minimum, focal absence of decidua is the histological finding for this condition; however, excessive amounts of extravillous trophoblasts were recently documented on hysterectomy specimens. The histological finding of basal plate myometrial fibers (BPMF) without intervening decidua in spontaneously delivered placentas, which we term occult placenta accreta (OPA), is not infrequent, even in clinically asymptomatic cases. To prove that OPA is a missing link between normal placental implantation and clinical placenta accreta, CD146 immunohistochemical stains were performed on 25 sections of OPA (study group) and 25 placental sections without BPMF (control group). Implantation-site intermediate trophoblast (ISIT) cell number, thickness, and density were compared between the study and control groups. The ISIT micrometry thickness and cell number at BPMF sites were statistically significantly higher in OPA than in control group and same OPA placentas away from BPMF. There were no statistically significant differences in ISIT density. Therefore, although asymptomatic, OPA features the same histopathology as clinical placenta accreta and may share same pathogenesis, which may include decidual deficiency, abnormal trophoblast/decidua interaction, and/or hypoxia.

BACKGROUND

Recombinant human endostatin (rh-endostatin, Endostar) has been proved to be an inhibitor of angiogenesis. Docetaxel has been also considered as a common chemotherapeutic agent with inhibition of angiogenesis of malignancies. However, their function has been seldom compared and a best synergism protocol is not determined. This study aimed to compare the effects of two drugs, investigate their combined impact on human umbilical vein endothelial cells (HUVECs), a molecular basis and find ideal protocols to inhibit endothelial cell proliferation.

METHODS

HUVECs on confluent growth or activated by vascular endothelial growth factor (VEGF) were treated by rh-endostatin or/and docetaxel at respective gradient concentration in following operations as cell proliferation determined by MTT assay, cell cycle distribution, apoptosis and markers of CD146, CD62E and CD105 detected by flow cytometery, the structure of the channel formed by HUVECs measured by tube formation count.

RESULTS

Rh-endostatin exhibited time dependent inhibition of proliferation while docetaxel showed both time and dose dependent inhibition. HUVECs accumulated in G(0)-G(1) with decreased numbers of cells in G(2) after a single treatment of rh-endostatin or that followed by docetaxel treatment. Cells accumulated in G(2) after both a single docetaxel and simultaneous administration. Both the number of cells in G(0)-G(1) and apoptotic cells were increased by docetaxel followed by rh-endostatin treatment. The number of non-apoptotic cells at G(0)-G(1) was increased by first administering rh-endostatin then docetaxel. Sequential treatment of docetaxel followed by rh-endostatin resulted in the greatest increase in apoptosis (34.7%) and the second highest apoptosis was seen with simultaneous administration (18.2%). Expression of CD146 and CD105 on confluent HUVECs was reduced at certain doses of rh-endostatin and/or docetaxel. However, rh-endostatin reduced CD105 without any apparent impact on either CD146 or CD62E expression, whereas these markers were down-regulated by docetaxel after pre-activation by VEGF. Rh-endostatin treatment maintained tube-like structures for a limited time. In contrast, docetaxel swiftly reduced tube formation. Simultaneous treatment, or docetaxel followed by rh-endostatin, exhibited a stronger inhibition on tube formation than either agent alone.

CONCLUSIONS

Both rh-endostatin and docetaxel can inhibit HUVEC proliferation while the high apoptotic rate after combined administration was probably owing to different sequent administration by docetaxel followed by rh-endostatin or simultaneous treatment. Both proliferation and adhesion molecules on HUVECs of confluent growth are down-regulated by the two drugs. The rh-endostatin decreased proliferation markers, but only slightly modified adhesion molecules, while both markers were down-regulated by docetaxel on HUVECs activated by VEGF. Rh-endostatin could maintain adhesion of HUVECs at first then induce cells apoptosis to damage tube formation. We hypothesize that it could lead to vascular normalization in short time. In contrast, docetaxel can suppress HUVEC proliferation, adhesion, and reduced tube formation swiftly due to its cytotoxicity. Combined treatments can induce a synergistic inhibition of tube formation.

Solid tumours need to induce their own vascular supply, and microvessel density (MVD) has emerged as a prognostic factor in several tumours. We hypothesized that mRNA levels of some endothelial factors in prostate cancer tissue would correlate with histologically measured MVD, or other pathological parameters. Expression levels of the endothelial factors CD31, CD34, CD105, CD144, CD146, CAV1 and VEGFR2 were assessed by RT-qPCR in matched freshly frozen normal and tumour tissues from 69 patients that underwent radical prostatectomy. The results were compared to pathological parameters and the MVD in the corresponding paraffin-embedded material, as determined by immunohistochemistry against CD31 and CD34. Comparing mRNA expression in matched normal and tumour samples, only CAV1 showed relevant differences, being down-regulated in tumour tissues (fold change=-1.89, P<0.0001). CAV1 down-regulation correlated with pT category (P=0.006) and the Gleason score (P=0.041). In a univariate analysis, lower CAV1 mRNA expression was associated with biochemical recurrence (P=0.019). By immunohistochemistry, CAV1 was mainly localized in endothelial and stromal cells and showed a weaker staining pattern in the tumour compared to normal tissue. Furthermore, MVD significantly correlated with tumour grade and pT category. There was no significant association between endothelial mRNA expression and histologically determined MVD in tumour tissues, but only a trend for CD31 mRNA (P=0.074) and an inverse trend for CAV1 mRNA (P=0.056). In conclusion, there is only a weak correlation between the mRNA expression of endothelial factors and MVD in prostatic tumour tissue. However, loss of CAV1 mRNA expression may play a role in prostate cancer progression.

The objective of this study is to evaluate the clinicopathological features and immunohistochemical characteristics of epithelioid trophoblastic tumor (ETT). Seven cases of epithelioid trophoblastic tumor treated in the Women's Hospital of Zhejiang University from 2004 September to 2008 December were retrospectively analyzed. Immunohistochemical study was performed. The most common presenting symptom was vaginal bleeding. Four patients had prior evidence of molar pregnancy and three patients presented with metastases. Mean age at diagnosis was 34.7 years. Mean pregnancy interval was 3.39 years. Human chorionic gonadotropin levels were 33.25-174315.5 IU/l. One case died from metastasis in lungs. The remaining six patients survived without recurrence. Immunohistochemistry revealed diffusely positive for CK18, and focally positive for β-hCG, HPL, Mel-CAM (CD146) and inhibin-alpha. Nuclear staining of Ki67 and p63 were seen. The confirmation of epithelioid trophoblastic tumor diagnosis is difficult before surgery. Surgical intervention is the recommended primary treatment.

Cells designated by the CellSearch assay as circulating endothelial cells (CEC) (CD146 (+)/CD105 (+)/ CD45(-) nuclear cells) are thought to derive from damaged vasculature. As CD105 has been suggested to be expressed by endothelial cells from malignant vasculature particularly, it is currently unknown whether this assay is suitable to determine CECs in non-malignant diseases. Also, more insight is needed whether CECs as detected by this assay predominantly measures CECs or also endothelial progenitor cells (EPCs), which originate from the bone marrow and reflect angiogenesis rather than vascular damage. CEC counts were determined in nine patients treated with isolated limb perfusion with tumour necrosis factor (TNF) a and melphalan, and in 10 healthy donors. Given the severe vascular damage caused by venesection and cannulation of the main vessels, we expected a significant increase in CEC counts in case CEC were of vascular rather than of bone marrow origin. Additionally, this finding, as well as the presence of CD105 (+) CEC in the blood of healthy controls, would confirm that healthy endothelial cells express CD105. Numbers of CD146 (+)/CD105 (+)/CD45(-) nuclear CEC increased significantly after venesection and cannulation. After administration of TNF, a large fraction of non-intact, possibly apoptotic CEC appeared. This study shows that the Cell-Search assay detects CECs originating from damaged vasculature. Furthermore, CD105 expression is found on CEC from damaged normal vasculature rendering further exploration of the value of CEC determined by this assay worthwhile not only in malignant diseases but also in non malignant disorders characterised by vascular damage.

Malignant melanoma is a life-threatening skin cancer increasingly diagnosed in the western world. In advanced disease the prognosis is grave. Growth and metastasis formation in melanomas are regulated by a network of cytokines, cytokine-receptors, and adhesion molecules. However, little is known about surface antigens and target expression profiles in human melanomas. We examined the cell surface antigen profile of human skin melanoma cells by multicolor flow cytometry, and compared their phenotype with 4 melanoma cell lines (A375, 607B, Mel-Juso, SK-Mel28). Melanoma cells were defined as CD45-/CD31- cells co-expressing one or more melanoma-related antigens (CD63, CD146, CD166). In most patients, melanoma cells exhibited ErbB3/Her3, CD44/Pgp-1, ICAM-1/CD54 and IGF-1-R/CD221, but did not express CD20, ErbB2/Her2, KIT/CD117, AC133/CD133 or MDR-1/CD243. Melanoma cell lines were found to display a similar phenotype. In most patients, a distinct subpopulation of melanoma cells (4-40%) expressed the erythropoietin receptor (EPO-R) and ErbB4 together with PD-1 and NGF-R/CD271. Both the EPO-R+ and EPO-R- subpopulations produced melanoma lesions in NOD/SCID IL-2Rgamma(null) (NSG) mice in first and secondary recipients. Normal skin melanocytes did not express ErbB4 or EPO-R, but expressed a functional KIT receptor (CD117) as well as NGF-R, ErbB3/Her3, IGF-1-R and CD44. In conclusion, melanoma cells display a unique composition of surface target antigens and cytokine receptors. Malignant transformation of melanomas is accompanied by loss of KIT and acquisition of EPO-R and ErbB4, both of which are co-expressed with NGF-R and PD-1 in distinct subfractions of melanoma cells. However, expression of EPO-R/ErbB4/PD-1 is not indicative of a selective melanoma-initiating potential.

BACKGROUND

The gold standard for bone grafting remains the autograft. However, the attractiveness of autograft is counterbalanced by donor site morbidity. To mimic autograft-and its fundamental properties of osteoconductivity, osteoinductivity, and osteogenicity-novel bone grafting materials such as cellular allograft (Osteocel Plus) are composed of allograft in which the progenitor cells are preserved. However, the true identity of these cells remains obscure largely due to the lack of specific bona fide antigenic markers for stem versus progenitor cells.

OBJECTIVE

To characterize the stem and progenitor population in cellular allograft, Osteocel Plus.

METHODS

To determine whether cells endogenous to a cellular allograft undergo extensive self-renewal (a functional hallmark of stem cells), we employed a novel use of lineage mapping using a modern and refined replication incompetent lentiviral library with high complexity to uniquely label single cells with indelible genetic tags faithfully passed on to all progeny, allowing identification of highly proliferative clones. We used genetic and proteomic profiling as well as functional assays to show that these cells are capable of multipotential differentiation (the second functional hallmark of stem cells). Use of these two functional hallmarks enabled us to establish the existence of a stem and progenitor cell population in cellular allografts.

METHODS

Specifically, we employed (1) cellular dissociation and (2) in vitro expansion and differentiation capacity of cells released from cellular allograft. We determined differential gene expression profiling of a bona fide human mesenchymal stem cell line and cells from cellular allograft using focused PCR arrays mesenchymal stem cell (MSC) and osteogenesis associated. Proteomic profiling of cells from cellular allograft was performed using (1) immunofluorescence for BMP-2, Runx2 SMADs, CD44, Stro-1, Collagen, RANKL, Osterix Osteocalcin, and Ki67; (2) flow cytometry for Ki67, CD44, Stro-1, Thy1, CD146, and Osteocalcin; and (3) enzyme-linked immunosorbent assays (ELISA) for BMP-2, Osteocalcin, RANKL, Osteoprotegrin, and Osteocalcin. Clonal analysis of cells from cellular allograft was performed utilizing advance lentivirus lineage mapping techniques and massive parallel sequencing. Alizarin Red, Alcian Blue, and Oil red O staining assessed tripotential differentiation capacity.

RESULTS

Serial trypsinization of allograft cellular bone matrix yielded approximately 1×105 cells per mL with viability greater than 90%. Cells expressed a panel of 84 MSC-associated genes in a pattern similar to but not identical to pure MSCs; specifically, 59 of 84 genes showed less than a 2.5-fold change in both cell types. Protein analysis showed that cellular allograft -derived cells maintained in nondifferentiation media expressed the early osteo-progenitor markers BMP-2, SMADs, and Runx2. Corresponding flow cytometry data for MSC markers revealed the presence of Stro-1 (49%), CD44 (99%), CD90 (42%), and CD146 (97%). Lineage mapping indicated that 62% of clones persisted and generated progeny through 10 passages, strongly suggesting the presence of bona fide stem cells. Passage 10 clones also exhibited tri-lineage differentiation capacity into osteogenic (Alizarin Red with H&E counterstain), chondrogenic (Alcian Blue), and adipogenic (Oil red O). Cells that did not proliferate through 10 passages presumably differentiated along an osteo-progenitor lineage.

CONCLUSIONS

These data indicate that cellular allograft (Osteocel Plus) contains a heterogeneous population of cells with most cells demonstrating the capacity for extensive self-renewal and multipotential differentiation, which are hallmarks of stem cells. Whether stem cell-enriched allografts function comparably to autograft will require further studies, and their efficacy in facilitating arthrodesis will depend on randomized clinical studies.

Cutaneous melanoma is an extremely heterogenous human cancer. The most aggressive melanoma may contain deregulated cells with undifferentiated/stem cell-like phenotype. A critical mechanism by which melanoma cells enhance their invasive capacity is the dissolution of the intercellular adhesion and the acquisition of mesenchymal features as a part of an epithelial-to-mesenchymal transition. The aim of this study was to clarify the role of a stem cell-like population in human melanomas by means of melanocytic cell culture analysis obtained from distinct histotypes of primary and metastatic malignant melanoma. Patients with advanced melanoma >2 cm in diameter and/or >300 mm surface were enrolled. The melanoma cells were isolated from skin biopsies of lentigo maligna melanoma, superficial spreading melanoma, nodular melanoma, and metastatic melanoma. The colony forming unit assay and alkaline phosphatase stain were evaluated. Cells were subsequently cultured and maintained in different media to evaluate their ability to differentiate into osteogenic and adipogenic lineages. Immunohistochemistry and flow cytometry analysis were performed to evaluate antigenic markers CD90, CD73, CD105, CD146, CD20, CD166, and Nestin. This study confirms that melanoma can include heterogenous cell populations with the ability both to self-renew and to a give rise to differentiated progeny. Melanoma cells displayed intratumoral heterogeneity and dynamic antigen phenotypes. Histologically, transitions from normal skin to melanoma were associated with a gradual increase in the expression of CD146, CD20, CD133, Nestin, and CD73. These molecular profiles could be further analyzed and, in the future, used for the development of novel biomolecular targeted-therapy approaches.

Approximately half a century has passed since asbestos was first reported to be the main cause of malignant mesothelioma; yet the incidence of this disease continues to increase worldwide. Twenty percent of cases occur without prior asbestos exposure, and in these patients, malignant peritoneal mesothelioma is more common than malignant pleural mesothelioma. Here, we report the cytomorphologic and immunohistochemical features of 2 cases of malignant peritoneal mesothelioma where there was no history of asbestos exposure. Ascitic cytology showed that most cells were isolated and that clusters were rarely observed, but the findings were consistent with malignant mesothelioma in both cases. Immunohistochemical analysis for epithelial membrane antigen, calretinin, vimentin, β-catenin, melan-A, glucose transporter-1, cytokeratin CAM5.2, Wilms tumor antigen-1, D2-40, CD146, progesterone receptor, estrogen receptor, and cytokeratin 5/6 was indicative of malignant mesothelioma. In malignant mesothelioma without prior asbestos exposure, the etiology and prognostic significance is still unclear. Further study is needed to clarify this point.

Late outgrowth endothelial cells (OECs) that originate from peripheral blood mononuclear cells ex vivo have phenotypic and functional properties of mature endothelial cells. Given the potential therapeutic applications of OECs, understanding their biology is crucial. We have identified two distinct OEC populations based on differential expression of the cell surface marker CD34. OEC colonies lacked CD34 expression (CD34-), expressed CD34 in the majority of cells (CD34+), or showed a mixed expression pattern within a colony (CD34+/-). CD34+ and CD34- OECs were negative for hematopoietic cell marker CD45 and expressed the endothelial cell surface markers CD31, CD146, CD105, and VEGFR-2. Functionally CD34- and CD34+ OECs exhibited strikingly distinct behaviors. CD34- OECs, unlike CD34+ OECs, were capable of sprouting, formed tubes, and responded to angiogenic growth factors in vitro. In vivo, CD34- OECs formed endothelial tubes, while CD34+ OECs, despite being unable to form tubes, promoted infiltration of murine vasculature. Global gene expression profiling in CD34- and CD34+ OECs identified functional importance of the MMP-1/PAR-1 pathway in CD34- OECs. MMP-1 stimulated the expression of VEGFR-2, neuropilin-1, neuropilin-2, and CXCR4 and activated ERK1/2, whereas down-regulation of PAR-1 in CD34- OECs resulted in impaired angiogenic responses in vitro and reduced VEGFR-2 levels. In contrast, the CD34+ OEC colonies expressed high levels of the progenitor cell marker ALDH, which was absent in CD34- OECs. In summary, we show that OECs can be classified into functionally mature endothelial cells (CD34- OECs) that depend on the MMP-1/PAR-1 pathway and progenitor-like angiogenesis-promoting cells (CD34+ OECs).

Hepatocellular carcinomas are well-vascularized tumors; the endothelial cells in these tumors have a specific phenotype. Our aim was to develop a new approach for tumor-specific drug delivery with monoclonal antibody targeting of endothelial ligands. CD146, a molecule expressed on the endothelial surface of hepatocellular carcinoma, was identified as a promising candidate for targeting. In the present study, endothelial cells immediately captured circulating anti-CD146 (ME-9F1) antibody, while antibody binding in tumors was significantly higher than in hepatic endothelium. Macroscopically, after intravenous injection, there were no differences in the mean accumulation of anti-CD146 antibody in tumor compared to liver tissue , due to a compensating higher blood vessel density in the liver tissue. Additional blockade of nontumoral epitopes and intra-arterial administration, improved selective antibody capture in the tumor microvasculature and largely prevented antibody distribution in the lung and liver. The potential practical use of this approach was demonstrated by imaging of radionuclide-labeled ME-9F1 antibody, which showed excellent tumor-selective uptake. Our results provide a promising principle for the use of endothelial markers for intratumoral drug delivery. Tumor endothelium-based access might offer new opportunities for the imaging and therapy of hepatocellular carcinoma and other liver malignancies.

BACKGROUND

To investigate the expression levels of importin13 (IPO13), c-kit, CD146, telomerase, caspase-3, bcl-2 and bax in endometrial polyps (EPs).

METHODS

We detected the mRNA expression levels of IPO13, c-kit, bcl-2 and bax in endometrial polyps (EPs) using real-time PCR. We detected the protein expression levels of IPO13, telomerase, CD146, caspase-3, bcl-2 and bax in EPs using S-P (Streptavidin-Peroxidase) immunohistochemistry. Western blotting was performed to determine the levels of importin13 and bcl-2 proteins in EPs.

RESULTS

The expression levels of IPO13, c-kit, telomerase, caspase3, and bax were lower in the EP tissue compared to normal endometrial tissue during the proliferation and secretion phases of the menstrual cycle (p<0.05). The expression of CD146 was decreased in the EP tissue compared to the normal endometrial tissue during the proliferation phase of the menstrual cycle (p<0.05). The expression of bcl-2 was increased in the EP tissue compared to the normal endometrial tissue during the proliferation and secretion phases of the menstrual cycle (p<0.05).

CONCLUSIONS

The expression levels of IPO13, c-kit, telomerase, caspase3, and bax were decreased; however, the expression of bcl-2 was increased in the EP tissue compared to the normal endometrial tissue. These findings suggest that the development of EPs is associated with the deregulated activities of the endometrial stem/progenitor cells and the decreased apoptosis of endometrial cells, with the latter being the major factor involved in the development of EPs.

CD146, also known as melanoma cell adhesion molecule, was initially identified as a marker of melanoma progression and metastasis. Recently many clinical studies investigated overexpression of CD146 predict poor prognosis of solid tumor, however, the results was inconclusive, partly due to small numbers of patients included. This present meta-analysis was therefore performed utilizing the results of all clinical studies concerned to determine the prognostic value of CD146 expression in solid tumors. Relevant articles were identified through searching the PubMed, Web of Science and Embase database. In this meta-analysis, 12 studies involving 2,694 participants were included, and we drew the conclusion that strong significant associations between CD146 expression and all endpoints: overall survival (OS) [hazard ratio (HR) = 2.496, 95% confidence interval (95% CI) 2.115-2.946], time to progression (TTP) (HR = 2.445, 95% CI 1.975-3.027). Furthermore, the subgroup analysis revealed that the associations between CD146 overexpression and the outcome endpoints (OS or TTP) were significant in Mongoloid patients and Caucasian patients, as well in patients with lung cancer and digestive system cancer. In conclusion, these results showed that high CD146 was associated with poor survival in human solid tumors. CD146 may be a valuable prognosis predictive biomarker; nevertheless, whether CD146 could be a potential therapeutic target in human solid tumors needs to be further studied.

The human endometrium is a highly dynamic tissue with the ability to cyclically regenerate during the reproductive life. Endometrial mesenchymal stem-like cells (eMSCs) located throughout the endometrium have shown to functionally contribute to endometrial regeneration. In this study we examine whether the menstrual cycle stage and the location in the endometrial bilayer (superficial and deep portions of the endometrium) has an effect on stem cell activities of eMSCs (CD140b+CD146+ cells). Here we show the percentage and clonogenic ability of eMSCs were constant in the various stages of the menstrual cycle (menstrual, proliferative and secretory). However, eMSCs from the menstrual endometrium underwent significantly more rounds of self-renewal and enabled a greater total cell output than those from the secretory phase. Significantly more eMSCs were detected in the deeper portion of the endometrium compared to the superficial layer but their clonogenic and self-renewal activities remained similar. Our findings suggest that eMSCs are activated in the menstrual phase for the cyclical regeneration of the endometrium.

Tissue resident adult stem cells are known to participate in tissue regeneration and repair that follows cell turnover, or injury. It has been well established that aging impedes the regeneration capabilities at the cellular level, but it is not clear if the different onset of stem cell aging between individuals can be predicted or prevented at an earlier stage. Here we studied the dental pulp stem cells (DPSCs), a population of adult stem cells that is known to participate in the repair of an injured tooth, and its properties can be affected by aging. The dental pulp from third molars of a diverse patient group were surgically extracted, generating cells that had a high percentage of mesenchymal stem cell markers CD29, CD44, CD146 and Stro1 and had the ability to differentiate into osteo/odontogenic and adipogenic lineages. Through RNA seq and qPCR analysis we identified homeobox protein, Barx1, as a marker for DPSCs. Furthermore, using high throughput transcriptomic and proteomic analysis we identified markers for DPSC populations with accelerated replicative senescence. In particular, we show that the transforming growth factor-beta (TGF-β) pathway and the cytoskeletal proteins are upregulated in rapid aging DPSCs, indicating a loss of stem cell characteristics and spontaneous initiation of terminal differentiation. Importantly, using metabolic flux analysis, we identified a metabolic signature for the rapid aging DPSCs, prior to manifestation of senescence phenotypes. This metabolic signature therefore can be used to predict the onset of replicative senescence. Hence, the present study identifies Barx1 as a DPSCs marker and dissects the first predictive metabolic signature for DPSCs aging.