1. The electrical properties of chemoreceptor cells from neonatal rat and adult rabbit carotid bodies (CBs) are strikingly different. These differences have been suggested to be developmental and/or species related. To distinguish between the two possibilities, the whole-cell configuration of the patch-clamp technique was used to characterize the ionic currents present in isolated chemoreceptor cells from adult rat CBs. Since hypoxia-induced inhibition of O2-sensitive K+ currents is considered a crucial step in O2 chemoreception, the effect of hypoxia on the adult rat chemoreceptor cell currents was also studied. 2. Outward currents were carried mainly by K+, and two different components could be distinguished: a Ca(2+)-dependent K+ current (IK(Ca)) sensitive to Cd2+ and charybdotoxin (CTX), and a Ca(2+)-insensitive, voltage-dependent K+ current (IK(V)). IK(V) showed a slow voltage-dependent activation (time constant (tau) of 87.4 ms at -20 mV and 8.8 ms at +60 mV) and a very slow inactivation, described by the sum of two exponentials (tau 1 = 684 +/- 150 ms and tau 2 = 4.96 +/- 0.76 s at + 30 mV), that was almost voltage insensitive. The kinetic and pharmacological properties of IK(V) are typical of a delayed rectifier K+ channel. 3. Voltage-dependent Ca2+ currents (ICa) were present in nineteen of twenty-seven cells. TTX-sensitive Na+ currents were also observed in about 10% of the cells. 4. Low PO2 (< 10 mmHg) reduced the whole outward current amplitude by 22.17 +/- 1.96% (n = 27) at +20 mV. This effect was absent in the presence of Cd2+. Since low PO2 did not affect ICa, we conclude that hypoxia selectively blocks IK(Ca). 5. The properties of the currents recorded in adult rat chemoreceptor cells, including the specific inhibition of IK(Ca) by hypoxia, are similar to those reported in neonatal rat CB cells, implying that the differences between rat and rabbit chemoreceptor cells are species related.

To elucidate the mechanisms of estrogens-induced relaxation effects on vascular smooth muscle cells, the effects of estrogens and the related hormones were examined in cultured rat thoracic aortic smooth muscle cell lines (A7r5), using the whole-cell voltage clamp technique. The patch pipette was filled with 140 mM CsCl- or KCl-containing internal solution. With CsCl-internal solution, 17beta-estradiol and synthetic estrogens, ethynylestradiol and diethylstilbestrol (0.1-30 mu M) inhibited the Ba2+ inward current (IBa) through the voltage-dependent L-type Ca2+ channel in a concentration-dependent and reversible manner. The potency of the inhibitory effects on IBa was 17beta-estradiol < ethynylestradiol < diethylstilbestrol. 17beta-Estradiol (10 mu M) appeared to reduce the maximal conductance of IBa with only a slight shift of voltage-dependency of inactivation and to affect IBa in a use-independent fashion. On the other hand, testosterone and progesterone (30 mu M) failed to affect IBa. At a holding potential of -40 mV, both vasopressin and endothelin-1 (100 nM) activated a long-lasting inward current. After endothelin-1 (100 nM) activated the current, the additional application of vasopressin (100 nM) could not induce it furthermore, suggesting that each agonist activates the same population of the channels. The reversal potential of the current was about 0 mV and was not significantly altered by replacement of [Cl-]i or [Cl-]0 and the inward current was also observed even when extracellular cations are Ca2+, proposing that it was a Ca2+-permeable non-selective cation channel (IN.S.). La3+ or Cd2+ (1 nM) completely abolished IN.S., however, nifedipine (10 mu M) failed to inhibit it at all. Diethylstilbestrol (1-30 mu M) suppressed the IN.S. evoked by both endothelin-1 and vasopressin in a concentration-dependent manner, while 17beta-estradiol, ethynylestradiol, progesterone and testosterone (30 mu M) failed to inhibit it significantly. In addition, at a holding potential of +0 mV, 17beta-estradiol by itself did not affect the holding currents, and did not inhibit K+ currents evoked by endothelin-1 or vasopressin, possibly due to the Ca2+ release from the storage sites. These results suggest that 17beta-estradiol may play a role in regulating vascular tone, selectively by inhibiting the voltage-dependent L-type Ca2+ current in vascular smooth muscle cells.

We have determined the degree of binding of divalent cations to several kinds of phosphatidylcholine (PC) bilayers. This has been done by measuring the electrostatic interbilayer repuslive force that results when multilamellar lattices are exposed to Me2+Cl2 solutions. Divalent cations bind to dipalmitoylphosphatidylcholine in the sequence Ca2+ approximately equal to Cd2+ approximately equal to Mn2+ greater than Ca2+ approximately equal to Mg2+ greater than Ba2+. Among the different synthetic lipids, preference for Ca2+ is in the sequence DOPC less than DLPC less than DMPC approximately equal to DPPC approximately equal to DSPC. The density of bound charge is proportional to the density of polar groups on the bilayer surface. Phosphatidylcholines with mixed hydrocarbon chains, such as egg PC or 1:1 mixtures of synthetic PC's, form two distinct lamellar phases in CaCl2 solutions. In all cases the electrostatic force between bilayers decays exponentially with their separation but more slowly than expected from ionic double-layer theory. We suggest that the electric fields from opposing surfaces perturb the zwitterionic charge-binding polar groups and continuously modify their ion binding affinities as the bilayers approach.

Two different subsets of CD8+, CD57+ cells have been defined, one expressing high levels (CD8high+(CD57+)), the other expressing low levels of surface CD8 (CD8low+(CD57+)). Increased numbers of CD8high+(CD57+) cells correlated with previous HCMV infection. By three-colour fluorescence analysis, the CD8high+(CD57+) population expressed T cell markers such as CD3 and CD5, and most were alpha beta T cell receptor (alpha beta TCR)-positive. A significant proportion also expressed CD71 (transferrin receptor) and MHC class I, although little if any CD2> or = 40%) co-expressed CD45RA and CD45RO. The CD8low+(CD57+) population expressed classical natural killer (NK) cell markers--CD2, CD16 and CD56. The two subsets were also functionally distinct; CD8high+(CD57+) cells suppressed pokeweed mitogen (PWM)-driven, but not phytohaemagglutinin (PHA)-driven proliferation and immunoglobulin production; CD8low+(CD57+) cells exhibited NK cytotoxic activity which was not increased by interferon-alpha (IFN-alpha). Supernatant from cultured CD8high+(CD57+) cells suppressed PWM-driven immunoglobulin production, but not proliferation, and this effect was abrogated by physical separation with tissue culture inserts. Thus, a T cell subset expressing activation and memory T cell markers with direct non-specific suppressor activity was present in peripheral blood mononuclear cells (PBMC) of healthy subjects with asymptomatic HCMV infection.

Phosphatase and tensin homolog deleted on chromosome 10 (Pten) is a tumor suppressor protein whose loss of lipid phosphatase activity is associated with lymphomagenesis. We made use of the Cre-loxP system to delete Pten expression in Lck- or CD4-expressing T-lineage cells. Mice initially showed modest thymic hyperplasia and subsequently developed expanding and infiltrating T-cell lymphomas, leading to a premature death within 5 to 23 weeks. Frequently, all thymocyte and peripheral T-cell populations displayed phenotypes characteristic for immature developing thymocyte precursors and shared elevated levels of clonally rearranged T-cell receptor (TCR) beta chains. In concert, CD2, CD5, CD3epsilon and CD44, proteins associated with increased expression and signaling capacity of both the immature pre-TCR and the mature alphabetaTCR, were more abundantly expressed, reflecting a constitutive state of activation. Although most T-cell lymphomas had acquired the capability to infiltrate the periphery, not all populations left the thymus and expanded clonally exclusively in the thymus. In line with this, only transplantation of thymocytes with infiltrating capacity gave rise to T-cell lymphoma in immunodeficient recipients. These results indicate that T-cell-specific Pten deletion during various stages of thymocyte development gives rise to clonally expanding T-cell lymphomas that frequently infiltrate the periphery, but originate in the thymus.

MRL lpr/lpr (lymphoproliferative, lpr) mice demonstrate an age-dependent lymphoproliferation and development of autoimmunity. Characteristic of the lymphoproliferation in these mice is the accumulation of large numbers of CD4-CD8-(CD4-8-),CD3+ T lymphocytes in their lymph nodes. The development of the CD4-8- cells, which also aberrantly express B220 and CD44 (Pgp-1) but are CD2-, has been shown to be thymus dependent. An unusual feature of lpr CD4-8-T lymphocytes is that although they appear unresponsive to stimulation, as defined by proliferation and IL-2 production, they have undergone thymic negative selection. As thymic deletion normally occurs at the CD4+CD8+ (CD4+8+) stage, this raises the dilemma that lpr CD4-8- T lymphocytes have either previously been CD4+8+, or they are able to undergo thymic selection as CD4-8- cells. We have addressed this question by examining the methylation status of the CD8 gene in MRL lpr CD4-8- lymph node cells. Demethylation of the CD8 gene has been shown to be an indicator of previous CD8 expression. We find that the CD8 gene in lpr CD4-8- lymph node cells, as well as in the abnormal B220+ CD4-8- lpr thymocytes, is demethylated, suggesting that these cells have previously expressed CD8. In addition, we find that the lpr CD4+8+ thymocyte population contains an increased percentage of atypical B220+, CD44+ cells that are virtually all CD2+. Taken together, these data are consistent with the lpr CD2-CD4-8- population of LNC having arisen from a CD2+ CD4+8+ thymic stage of differentiation.

Hepatitis C virus (HCV) is remarkably efficient in establishing persistent infection, possibly mediated by an impaired immune response to HCV infection. There is compelling evidence that HCV can infect immune cells, such as macrophages, B cells, and T cells. It has been previously reported that HCV core, the first protein expressed during the early phase of viral infection, contains the immunomodulatory function of suppressing host immune responses. This altered function of immune cells caused by HCV infection may explain the ineffective immune response to HCV. To further characterize the immunomodulatory role of HCV core in vivo, we generated transgenic (TG) mice by directing the expression of core protein to T lymphocytes by using the CD2 promoter. T-lymphocyte responses, including the production of gamma interferon and interleukin-2, were significantly diminished in these mice compared to their non-TG littermates. The inhibition of T-lymphocyte responsiveness may be due to the increased susceptibility of peripheral T lymphocytes to Fas-mediated apoptosis. Surprisingly, significant lymphocyte infiltration was observed in the portal tracts of livers isolated from core TG mice, associated with increasing serum alanine aminotransferase levels. Moreover, no intrahepatic lymphocytes or liver damage was found in non-TG littermates and core TG mice bred to Fas-deficient lpr mice. These results suggest that HCV core drives liver injury by increasing Fas-mediated apoptosis and liver infiltration of peripheral T cells.

Hyperpolarization-activated cation (HCN) channels regulate pacemaking activity in cardiac cells and neurons. Like the related depolarization-activated K+ channels (Kv channels), HCN channels use an intracellular activation gate to regulate access to an inner cavity, lined by the S6 transmembrane regions, which leads to the selectivity filter near the extracellular surface. Here we describe two types of metal interactions with substituted cysteines in the S6, which alter the voltage-controlled movements of the gate. At one position (L466), substitution of cysteine in all four subunits allows Cd2+ ions at nanomolar concentration to stabilize the open state (a "lock-open" effect). This effect depends on native histidines at a nearby position (H462); the lock-open effect can be abolished by changing the histidines to tyrosines, or enhanced by changing them to cysteines. Unlike a similar effect in Kv channels, this effect depends on a Cd2+ bridge between 462 and 466 in the same subunit. Cysteine substitution at another position (Q468) produces two effects of Cd2+: both a lock-open effect and a dramatic slowing of channel activation-a "lock-closed" effect. The two effects can be separated, because the lock-open effect depends on the histidine at position 462. The novel lock-closed effect results from stabilization of the closed state by the binding of up to four Cd2+ ions. During the opening conformational change, the S6 apparently moves from one position in which the 468C cysteines can bind four Cd2+ ions, possibly as a cluster of cysteines and cadmium ions near the central axis of the pore, to another position (or flexible range of positions) where either 466C or 468C can bind Cd2+ in association with the histidine at 462.

The effects of pharmacological agents on the T-type Ca2+ current were studied in dissociated spermatogenic cells from the mouse. Ca2+ currents were elicited by depolarization in 10 mM Ca2+ and recorded in the whole-cell configuration of the patch clamp technique. The T-type current was inhibited by the following compounds: PN200-110 (IC50 = 4 x 10(-8) M)>> nifedipine (IC50 = 4 x 10(-7) M)>> pimozide (IC50 = 4.6 x 10(-7) M)>> mibefradil (IC50 = 5 x 10(-6) M)>> Ni2+ (IC50 = 3.4 x 10(-5) M)>> verapamil (IC50 = 7 x 10(-5) M)>> amiloride (IC50 = 2.4 x 10(-4) M)>> Cd2+ (IC50 = 2.8 x 10(-4) M). However, the agents differed in the reversibility and the use dependence of their effects. Currents recovered rapidly and completely after removal of Ni2+, Cd2+, amiloride, or mibefradil, whereas recovery from verapamil block was rapid but incomplete. In contrast, we observed little recovery after the removal of pimozide and of the dihydropyridines (PN200-110, nifedipine). Moreover, mibefradil and pimozide exhibit a strongly use-dependent inhibition of current that is due to selective interaction of these drugs with the open state and the inactivated state of the channel, respectively, rather than with the resting state. These properties of the spermatogenic T-type Ca2+ channel differ from those of somatic cell T channels and suggest a molecular diversity of low voltage-activated Ca2+ channels.

Eosinophilic esophagitis (EoE) is an emerging chronic esophageal disease. Despite the increasing diagnosis of EoE globally, the causes of EoE and other esophageal eosinophilic disorders are not clearly understood. EoE pathology includes accumulation of inflammatory cells (e.g., eosinophils, mast cells), characteristic endoscopic features (e.g., furrows, the formation of fine concentric mucosal rings, exudates), and functional impairments (e.g., esophageal stricture, dysmotility). We hypothesized that the esophageal structural pathology and functional impairments of EoE develop as a consequence of the effector functions of the accumulated inflammatory cells. We analyzed eosinophils (anti-major basic protein immunostaining), esophageal stricture (X-ray barium swallowing), and esophageal motility (isometric force) in two established transgenic murine models of EoE (CD2-IL-5 and rtTA-CC10-IL-13) and a novel eosinophil-deficient model (ΔdblGATA/CD2-IL-5). Herein, we show the following: 1) CD2-IL-5 and doxycycline (DOX)-induced rtTA-CC10-IL-13 mice have chronic eosinophilic and mast cell esophageal inflammation; 2) eosinophilic esophageal inflammation promotes esophageal stricture in both transgenic murine models; 3) the eosinophil-deficient ΔdblGATA/CD-2-IL-5 mice were protected from the induction of stricture, whereas the eosinophil-competent CD2-IL-5 mice develop esophageal stricture; 4) esophageal stricture is not reversible in DOX-induced rtTA-CC10-IL-13 mice (8 wk DOX followed by 8 wk no-DOX); and 5) IL-5 transgene-induced (CD2-IL-5) EoE evidences esophageal dysmotility (relaxation and contraction) that is independent of the eosinophilic esophageal inflammation: CD2-IL-5 and ΔdblGATA/CD2-IL-5 mice have comparable esophageal dysmotility. Collectively, our present study directly implicates chronic eosinophilic inflammation in the development of the esophageal structural impairments of experimental EoE.

Resting T lymphocytes that have recognized antigen bound to a major histocompatibility complex molecule with the T-cell receptor require costimulatory signals through accessory receptors, including <em>CD2</em>, CD4, CD8, and <em>CD2</em>8, for their clonal growth and expression of their functional repertoires. Absence of costimulation, in contrast, can induce clonal anergy in vitro and selective tolerance in vivo. Here we have defined a potential intracellular messenger for T-cell activation which is strictly regulated by costimulatory signals mediated through accessory receptors: pp19/cofilin, a small actin-binding protein, undergoes dephosphorylation and subsequent translocation from the cytosol into the nucleus. In untransformed T cells this process correlates with functional responses essential for the induction of T-cell proliferation (i.e., production of interleukin 2). Moreover, spontaneous dephosphorylation as well as nuclear translocation of pp19/cofilin occur in the autonomously proliferating T-lymphoma cell line Jurkat.

LGL leukemia results from a chronic, clonal proliferation of LGL. Chronic neutropenia with recurrent bacterial infection and splenomegaly are common clinical manifestations. Rheumatoid arthritis coexists in some of these patients, who thus resemble patients with Felty syndrome. Other hematologic abnormalities that may occur include pure red-cell aplasia and adult-onset cyclic neutropenia. Lymphoid infiltration of bone marrow, splenic red pulp cords, and hepatic sinusoids is characteristic; lymph node and skin involvement are rare. Multiple serologic abnormalities are frequently present, including positive tests for rheumatoid factor and/or antinuclear antibody, polyclonal hypergammaglobulinemia, and circulating immune complexes. Antineutrophil and antiplatelet antibodies are often present. Leukemic LGL exhibit phenotypic heterogeneity; the most common phenotype in our patients is CD2+, CD3+, CD8+, HNK-1+, CD16-. Despite markedly increased numbers of LGL, functional activity of the cells is usually decreased. The mechanism of cytopenias is uncertain: in pure red-cell aplasia, it appears to be due to suppressive effect on erythropoiesis by abnormal LGL, but in patients with chronic neutropenia it may be antibody-mediated. Although most patients appear to have a relatively benign clinical course, mortality from infections and progressive lymphoproliferation is substantial. Optimal therapy remains undefined. Some preliminary evidence suggests that LGL leukemia may be associated with infection with a retrovirus similar to HTLV-I. Although relatively rare, LGL leukemia is of interest because a better understanding of this disease process may contribute to our knowledge of autoimmune diseases, the immunoregulatory functions of LGL, and the mechanisms controlling normal hematopoiesis.

The diphtheria toxin repressor (DtxR) is an Fe(2+)-activated protein with sequence-specific DNA-binding activity for the diphtheria toxin (tox) operator. Under high-iron conditions in Corynebacterium diphtheriae, DtxR represses toxin and siderophore biosynthesis as well as iron uptake. DtxR and a mutant repressor with His-47 substituted for Arg-47, designated DtxR-R47H, were purified and compared. Six different divalent cations (Cd2+, Co2+, Fe2+, Mn2+, Ni2+, and Zn2+) activated the sequence-specific DNA-binding activity of DtxR and enabled it to protect the tox operator from DNase I digestion, but Cu2+ failed to activate DtxR. Hydroxyl radical footprinting experiments indicated that DtxR binds symmetrically about the dyad axis of the tox operator. Methylation protection experiments demonstrated that DtxR binding alters the susceptibility to methylation of three G residues within the AT-rich tox operator. These findings suggest that two or more monomers of DtxR are involved in binding to the tox operator, with symmetrical DNA-protein interactions occurring at each end of the palindromic operator. In this regard, DtxR resembles several other well-characterized prokaryotic repressor proteins but differs dramatically from the Fe(2+)-activated ferric uptake repressor protein (Fur) of Escherichia coli. The concentration of Co2+ required to activate DtxR-R47H was at least 10-fold greater than that needed to activate DtxR, but the sequence-specific DNA binding of activated DtxR-R47H was indistinguishable from that of wild-type DtxR. The markedly deficient repressor activity of DtxR-R47H is consistent with a significant decrease in its binding activity for divalent cations.

Activity of the Met4 transcription factor is antagonized by the SCF(Met30) ubiquitin ligase by degradation-dependent and degradation-independent mechanisms, in minimal and rich nutrient conditions, respectively. In this study, we show that the heavy metal Cd2+ over-rides both mechanisms to enable rapid Met4-dependent induction of metabolic networks needed for production of the antioxidant and Cd2+-chelating agent glutathione. Cd2+ inhibits SCF(Met30) activity through rapid dissociation of the F-box protein Met30 from the holocomplex. In minimal medium, dissociation of SCF(Met30) complex is sufficient to impair the methionine-induced degradation of Met4. In rich medium, dissociation of the SCF(Met30) complex is accompanied by a deubiquitylation mechanism that rapidly removes inhibitory ubiquitin moieties from Met4. Post-translational control of SCF(Met30) assembly by a physiological stress to allow rapid induction of a protective gene expression program represents a novel mode of regulation in the ubiquitin system.

T cell activation through the CD2 cell surface receptor is transmitted by proline-rich sequences within its cytoplasmic tail. A membrane-proximal proline-rich tandem repeat, involved in cytokine production, is recognized by the intracellular CD2 binding protein CD2BP2. We solved the solution structure of the CD2 binding domain of CD2BP2, which we name the glycine-tyrosine-phenylalanine (GYF) domain. The GYF sequence is part of a structurally unique bulge-helix-bulge motif that constitutes the major binding site for the CD2 tail. A hydrophobic surface patch is created by motif residues that are highly conserved among a variety of proteins from diverse eukaryotic species. Thus, the architecture of the GYF domain may be widely used in protein-protein associations.

1. The effects of blocking gamma-aminobutyric acid- and glycine-mediated synaptic transmission by bicuculline and strychnine on the neonatal rat isolated spinal cord were investigated by intracellular recording from motoneurons with the use of current-clamp and voltage-clamp techniques and by extracellular recording from homologous ventral roots of the L5 segment. 2. Bicuculline per se evoked irregular bursts of motoneuron membrane potential, often comprising individual events fused together. Strychnine alone did not elicit spontaneous bursting in the large majority of preparations. Simultaneous application of bicuculline and strychnine consistently induced regular rhythmic bursts (frequency approximately 2 per min, duration approximately 7 s), comprising a rapid depolarization followed by large-amplitude oscillations. 3. Burst frequency, duration, and intraburst oscillation time course were independent of motoneuron membrane potential. Burst and oscillation amplitude decreased with membrane depolarization and, under voltage-clamp conditions, inverted polarity near 0 mV. 4. The regular bursts produced by bicuculline and strychnine were blocked by 6-cyano-7-nitroquinoxaline-2,3-dione, tetrodotoxin, or Cd2+. 5. N-methyl-D-aspartate antagonists [R-5-aminophosphonovalerate or 3-((RS)-2-carboxypiperazine-4-yl)-propyl-1-phosphonate (CPP)] reversibly blocked or slowed down bursting induced by bicuculline and strychnine. Addition of cyclothiazide to the bicuculline and strychnine solution increased bursting frequency while preserving the regular burst structure; under these conditions bursts became insensitive to CPP. 6. In the presence of bicuculline and strychnine, 5-hydroxytryptamine (5-HT) increased burst frequency and decreased burst duration in a dose-dependent fashion. 7. In the presence of bicuculline and strychnine, L5 ventral roots developed synchronous rhythmic activity with a time course similar to that recorded from individual motoneurons. The rhythmic activity was accelerated by 5-HT on both roots, in accordance with observations on single motoneurons. 8. Rhythmic bursts thus appear to result from large, synchronous synaptic events generated by a network modulated by 5-HT and highly sensitive to variations in efficacy of glutamatergic synaptic transmission. These results show that in the rat spinal cord highly patterned motor output can occur despite block of inhibition.

Involution of the thymus is a feature of age and precedes inefficient functioning of the immune system. C57BL/10 mice show an 83% reduction in number of thymocytes between 3 and 20 mo of age, with a significant decline in each of the thymic subsets defined by their expression of CD4 and CD8. The similar percentage contribution of each subset to the whole at 3, 12, and 20 mo suggests a lesion in the T cell developmental pathway within an early subset. The CD3- CD4- CD8- subset showed a significant decline in number by 20 mo of age, but despite this reduction, no significant difference was noted in the number of CD44+ CD2CD2CD2CD2CD2 minigene cassette on a C57BL/10 background, showed no age-associated thymic atrophy in any of the defined thymic subsets over the same period as the normal C57BL/10 mice. Similar results were noted with mice carrying the same transgene but which in addition were also RAG-1-. The results indicate that age-associated thymic involution was associated with problems with rearrangement of the TCR beta-chain genes affecting the production of thymocytes.

1. An inward current carried by Ca2+ was recorded from single smooth muscle cells of rabbit oesophageal muscularis mucosae using a whole-cell gigaseal technique with physiological (2 mM) external calcium concentration ([Ca2+]o) in the presence of intracellular Cs+ ([Cs+]i 130 mM). Only one type of Ca2+ current could be identified. The threshold for its activation was approximately -30 mV and maximum inward current (approximately 300 pA) was recorded at 0 mV. 2. This inward current was blocked by Co2+ (4 mM), Cd2+ (0.5 mM) and nifedipine (1 microM) and was enhanced by Bay K 8644 (5 microM). We therefore classify it as a L-type Ca2+ current and denote it ICa. 3. Steady-state inactivation data were well-fitted by a Boltzmann distribution, indicating that inactivation of the Ca2+ current is strongly modulated by membrane potential. However, the inactivation of ICa slowed significantly and became less complete when BaCl2 replaced CaCl2 in the Tyrode solution suggesting that the inactivation of ICa may also be dependent on [Ca2+]i. The steady-state activation and inactivation curves for ICa overlap between -40 and 0 mV indicating that there may be a Ca2+ window current in this range of potentials. 4. When EGTA was omitted from the pipette-filling solution, depolarizations positive to -10 mV resulted in a transient as opposed to a maintained inward Ca2+ current which was followed by a relatively large outward current. Under these conditions, slowly decaying inward tail currents were also recorded upon repolarization to the holding potential, -60 mV. However, when EGTA was omitted from the pipette, marked 'run-down' of the Ca2+ current occurred within 10 min after starting the whole-cell recording. 5. This run-down of ICa was reduced significantly when the nystatin perforated patch technique was used. Under these conditions stable ICa records could be obtained for over 1 h. Outward currents and slow decaying inward tail currents similar to those recorded with no EGTA in the pipette were also obtained consistently using the nystatin recording technique. 6. In nystatin perforated patch recordings, CoCl2 (2 mM) completely abolished the Ca2+ current, the outward currents and the slow inward tails. These findings suggest that the outward currents and slow inward tails are activated by a transmembrane influx of Ca2+. 7. Ion replacement and pharmacological tests provided evidence that both the outward currents and the slow inward tails are due to Ca(2+)-activated Cl- current (ICl(Ca)).(ABSTRACT TRUNCATED AT 400 WORDS)

The Wiskott-Aldrich syndrome (WAS) is a severe immunodeficiency and platelet deficiency disease arising from an X-linked defect. The disease is correctable by transplantation of hematopoietic stem cells, but the product of the defective gene is unidentified and the number of defects in patient blood cells is large. The current hurdle is the need to identify the early pathogenic event(s) that are the cause of other defects. As a step toward this goal, we have generated and examined a panel of interleukin 2-dependent allospecific T cell lines from peripheral lymphocytes of seven WAS patients and five normal individuals. WAS cell lines, like normal lines, undergo vigorous proliferation when challenged with specific allostimulant or with phorbol myristate acetate and ionomycin. Both normal and WAS T cell lines express cell surface molecules CD2, CD3, T cell receptor-alpha/beta, human histocompatibility leukocyte antigen class I, CD45 and CD11a, and varying ratios of CD4 and CD8, and are negative for natural killer cell and monocyte surface molecules. WAS T cell lines express CD43 (sialophorin/leukosialin) with molecular weight and in an amount comparable with normal T cell lines. WAS T cell lines thus do not express defects in CD43 (decreased amount, abnormal molecular weight), previously documented in WAS circulating lymphocytes. On the other hand, as detected by scanning electron microscopy, WAS cell lines exhibit severe morphological abnormalities, including decreased size and density of the microvillus surface projections. The morphological abnormalities of WAS T cell lines are similar to, or more extensive than, those previously reported for WAS peripheral lymphocytes, indicating that the generation of morphological (cytoarchitectural) defects is an early pathogenic event in this disease. The findings suggest that the gene that is defective in the WAS encodes a protein that normally functions to maintain or regulate the cytoskeletal structure of blood cells.

BACKGROUND

The authors have previously demonstrated nasal T-cell lymphoma (NTL) associated with Epstein-Barr virus (EBV). The detailed clinical, phenotypic, and genotypic features and the role of EBV in lymphomagenesis remain to be clarified.

METHODS

The study group consisted of 18 patients with NTL. The phenotype was determined by immunoperoxidase staining with various monoclonal antibodies. Genotypic study was done using Southern blot hybridization. The presence of EBV-encoded small nuclear early region (EBER) RNA and EBV DNA were determined by in situ hybridization. The expression of EBV-encoded nuclear antigen (EBNA) and latent membrane protein (LMP1) were identified by immunohistologic methods. Clonotypic analysis of EBV genomes was performed by Southern blot hybridization with EBV termini fragment probe.

RESULTS

The clinical features of NTL were characterized as prolonged fever (16 patients), widespread dissemination into distant sites (13 patients), and poor prognosis with a median survival of only 6 months. EBER transcripts were identified in 16 of 18 patients. Monoclonal EBV genomes EBNA1 and LMP1 were also detected in all EBER-positive cases tested. All 18 patients expressed pan-T antigens such as MT1, CD45RO, and/or CD2. The rearrangements of T-cell receptor (TCR)-beta, -gamma, and/or -delta genes were shown in all 11 patients tested. The natural killer (NK) cell phenotype CD56 was expressed in all EBV-positive cases tested, and was not detected in EBV-negative cases. Seven EBV-positive cases expressed a TCR-delta chain with rearranged TCR-gamma or -delta genes whereas both EBV-negative cases corresponded to alpha beta T-cell lymphoma, which expressed a TCR-beta chain with a rearranged TCR-beta gene.

CONCLUSIONS

These data suggest that EBV-positive NTL may be derived from the lineage of NK-like T-cells or gamma delta T-cells, and that EBV may play a role in lymphomagenesis. Therefore, we propose that NTL which has peculiar clinical and histologic features could be classified as a new lymphoma entity.

Elevated levels of zinc2+ and copper2+ are found chelated to the amyloid-beta-peptide (Abeta) in isolated senile plaque cores of Alzheimer's disease (AD) patients. However, the precise residues involved in Zn2+ ligation are yet to be established. We have used 1H NMR and CD to probe the binding of Zn2+ to Abeta(1-28). Zinc binding to Abeta causes a number of 1H NMR resonances to exhibit intermediate exchange broadening upon Zn2+ addition, signals in slow and fast exchange are also observed. In addition, there is a general loss of signal for all resonances with Zn2+ addition, suggestive of the formation of high molecular weight polymeric species. Perturbations in specific 1H NMR resonances between residues 6 and 14, and analysis of various Abeta analogues in which each of the three His residues have been replaced by alanine, indicates that His6, His13 and His14 residues are implicated in Zn-Abeta binding. Complementary studies with Cd2+ ions cause perturbations to 1H NMR spectra that are strikingly similar to that observed for Zn2+. Binding monitored at Val12 indicates a 1:1 stoichiometry with Abeta for both Zn2+ and Cd2+ ions. Circular Dichroism (CD) studies in the far-UV indicate quite minimal ordering of the main-chain with Zn2+ or Cd2+ addition. Changes in the far-UV are quite different from that obtained with Cu2+ additions indicating that Zn2+ coordination is distinct from that of Cu2+ ions. Taken together, these observations seem to suggest that Zn2+ coordination is dominated by inter-molecular coordination and the formation of polymeric species.

Class 3 semaphorins are guidance proteins that play crucial roles during development. Semaphorins 3A (sema 3A) and 3F are expressed by podocytes in vivo throughout ontogeny and their function is unknown. Here we examined the expression of class 3 semaphorins (3A, 3B, 3C, 3D, 3E, and 3F) and their receptors (neuropilins 1 and 2, plexins A1, A2, A3, B2, and D1) in undifferentiated and differentiated mouse podocytes using reverse transcriptase-polymerase chain reaction (RT-PCR). All class 3 semaphorins, neuropilins 1 and 2 are expressed by undifferentiated and differentiated podocytes at similar levels. Differentiated podocytes expressed 2-4-fold higher plexin A1, A2, and A3 mRNA levels than undifferentiated podocytes. To examine semaphorin regulation, we exposed podocytes to recombinant sema 3A. Sema 3A decreased semaphorin 3B, plexin A1, A3, and D1>>/=50% and reduced plexin A2 mRNA to undetectable levels. To identify sema 3A function in podocytes, we examined whether sema 3A regulates slit diaphragm proteins and podocyte survival. Sema 3A induced a dose-response podocin downregulation and decreased its interaction with CD2-associated protein and nephrin, as determined by Western analysis and co-immunoprecipitation. To evaluate sema 3A role in podocyte survival, we quantified podocyte apoptosis using a caspase 3 activity marker. Sema 3A induced a 10-fold increase in podocyte apoptosis and significantly decreased the activity of the Akt survival pathway. Our data indicate that (1) immortalized podocytes in culture have a functional autocrine semaphorin system that is regulated by differentiation and ligand availability; (2) sema 3A signaling regulates the expression and interactions of slit-diaphragm proteins and decreases podocyte survival.

Here we describe targeting of the mouse metallothionein I (MT) protein to the cell surface of the heavy metal-tolerant Ralstonia eutropha (formerly Alcaligenes eutrophus) CH34 strain, which is adapted to thrive in soils highly polluted with metal ions. DNA sequences encoding MT were fused to the autotransporter beta-domain of the IgA protease of Neisseria gonorrhoeae, which targeted the hybrid protein toward the bacterial outer membrane. The translocation, surface display, and functionality of the chimeric MTbeta protein was initially demonstrated in Escherichia coli before the transfer of its encoding gene (mtb) to R. eutropha. The resulting bacterial strain, named R. eutropha MTB, was found to have an enhanced ability for immobilizing Cd2+ ions from the external media. Furthermore, the inoculation of Cd2+-polluted soil with R. eutropha MTB decreased significantly the toxic effects of the heavy metal on the growth of tobacco plants (Nicotiana bentamiana).

2B4 belongs to the CD2 subset of the IgG family of receptors. Members in this family have been shown to function as coreceptors via homophilic or heterophilic interactions. Both 2B4 and CD2 bind to CD48, another member of this family. Because all 3 molecules are expressed on natural killer (NK) cells, it raises a possibility that the binding of 2B4 and CD2 to CD48 among NK cells may have functional consequences. Using specific monoclonal antibodies and gene-deficient NK cells, we found that 2B4/CD48, but not CD2/CD48, interaction is essential for IL-2-driven expansion and activation of murine NK cells. In the absence of 2B4/CD48 interaction, NK cytotoxicity and IFN-gamma secretion on tumor target exposure is severely impaired. Impaired activation of NK cells in 2B4-deficient mice was also demonstrated by poor NK-mediated clearance of syngeneic tumor cells in these mice. Functional impairment of NK cells in the absence of 2B4/CD48 interactions was accompanied by defective calcium signaling, suggesting that the early signaling pathway of NK receptors is inhibited. Finally, homotypic interactions among NK cells through 2B4/CD48 was visualized by specific localization of GFP-tagged 2B4 onto NK-NK conjugation sites. Thus, these data identify a novel mechanism whereby NK effector function is regulated via homotypic 2B4/CD48 interactions.