The purified calcium antagonist receptor of the voltage-sensitive calcium channel from skeletal muscle transverse tubule membrane consists of three subunits: alpha with Mr 135 000, beta with Mr 50 000, and gamma with Mr 33 000. Purified receptor preparations were incorporated into phosphatidylcholine (PC) vesicles by addition of PC in 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate and removal of detergent by molecular sieve chromatography. Forty-five percent of the alpha, beta, and gamma polypeptides and the [3H]dihydropyridine/receptor complex were recovered in association with PC vesicles. The rate of dissociation of the purified and reconstituted dihydropyridine/receptor complex was identical with that in T-tubule membranes, and allosteric modulation by verapamil and diltiazem was retained. The reconstituted calcium antagonist receptor, when occupied by the calcium channel activator BAY K 8644, mediated specific 45Ca2+ and 133Ba2+ transport into the reconstituted vesicles. 45Ca2+ influx was blocked by the organic calcium antagonists PN200-110 (K0.5 = 0.2 microM), D600 (K0.5 = 1.0 microM), and verapamil (K0.5 = 1.5 microM) and by inorganic calcium channel antagonists (La3+ greater than Cd2+ greater than Ni2+ greater than Mg2+) as in intact T-tubules. A close quantitative correlation was observed between the presence of the alpha, beta, and gamma subunits of the calcium antagonist receptor and the ability to mediate 45Ca2+ or 133Ba2+ flux into reconstituted vesicles. Comparison of the number of reconstituted calcium antagonist receptors and functional channels supports the conclusion that only a few percent of the purified calcium antagonist receptor polypeptides are capable of mediating calcium transport as previously demonstrated for calcium antagonist receptors in intact T-tubules.

Co-stimulation mediated by the <em>CD2</em>8 molecule is considered critical in the activation of CD4+ T cells. In patients with rheumatoid arthritis and infrequently in normal individuals, CD4+ T cells lacking <em>CD2</em>8 expression are expanded and contain clonogenic populations. To analyze whether these cells are independent of co-stimulatory requirements or whether they use co-stimulatory signals distinct from the <em>CD2</em>8 pathway, we have compared CD4+ <em>CD2</em>8+ and CD4+ <em>CD2</em>8- T cell clones isolated from rheumatoid arthritis patients. Accessory cells supported the induction of <em>CD2</em>5 expression as well as of proliferative responses after anti-CD3 cross-linking and prevented the induction of anergy in CD4+ <em>CD2</em>8- T cell clones. In contrast to CD4+<em>CD2</em>8+ T cells, the presence of accessory cells did not enhance the secretion of interleukin (IL)-2, interferon-gamma, or IL-4. The co-stimulatory signals did not involve <em>CD2</em>8/CTLA-4-CD80/CD86 receptor-ligand interactions. The proliferative response of CD4+<em>CD2</em>8- T cells could not be blocked by anti-<em>CD2</em>, anti-CD18, and anti-CD58 antibodies, suggesting that these receptor-ligand interactions cannot provide <em>CD2</em>8- independent co-stimulation. Our data suggest that CD4+<em>CD2</em>8- T cells require co-stimulatory signals for optimal induction of cell growth and <em>CD2</em>5 expression as well as for the prevention of anergy. The co-stimulatory receptor-ligand interaction is independent of the <em>CD2</em>8 pathway and may be involved in the oligoclonal expansion of the CD4+ <em>CD2</em>8- T cell subset in rheumatoid arthritis.

Multiple types of high-voltage-activated Ca2+ channels, including L-, N-, P-, Q- and R-types have been distinguished from each other mainly employing pharmacological agents that selectively block particular types of Ca2+ channels. Except for the dihydropyridine-sensitive L-type Ca2+ channels, electrophysiological characterization has yet to be conducted thoroughly enough to biophysically distinguish the remaining Ca2+ channel types. In particular, the ion permeation properties of N-type Ca2+ channels have not been clarified, although the kinetic properties of both the L- and N-type Ca2+ channels are relatively well described. To establish ion conducting properties of the N-type Ca2+ channel, we examined a homogeneous population of recombinant N-type Ca2+ channels expressed in baby hamster kidney cells, using a conventional whole cell patch-clamp technique. The recombinant N-type Ca2+ channel, composed of the alpha1B, alpha2a, and beta1a subunits, displayed high-voltage-activated Ba2+ currents elicited by a test pulse more positive than -30 mV, and were strongly blocked by the N-type channel blocker omega-conotoxin-GVIA. In the presence of 110 mM Ba2+, the unitary current showed a slope conductance of 18.2 pS, characteristic of N-type channels. Ca2+ and Sr2+ resulted in smaller ion fluxes than Ba2+, with the ratio 1.0:0. 72:0.75 of maximum conductance in current-voltage relationships of Ba2+, Ca2+, and Sr2+ currents, respectively. In mixtures of Ba2+ and Ca2+, where the Ca2+ concentration was steadily increased in place of Ba2+, with the total concentration of Ba2+ and Ca2+ held constant at 3 mM, the current amplitude went through a clear minimum when 20% of the external Ba2+ was replaced by Ca+2. This anomalous mole fraction effect suggests an ion-binding site where two or more permeant ions can sit simultaneously. By using an external solution containing 110 mM Na+ without polyvalent cations, inward Na+ currents were evoked by test potentials more positive than -50 mV. These currents were activated and inactivated in a kinetic manner similar to that of Ba2+ currents. Application of inorganic Ca2+ antagonists blocked Ba2+ currents through N-type channels in a concentration-dependent manner. The rank order of inhibition was La3+>>/= Cd2+>>) Zn2+>> Ni2+>>/= Co2+. When a short strong depolarization was applied before test pulses of moderate depolarizing potentials, relief from channel blockade by La3+ and Cd2+ and subsequent channel reblocking was observed. The measured rate (2 x 10(8) M-1 s-1) of reblocking approached the diffusion-controlled limit. These results suggest that N-type Ca2+ channels share general features of a high affinity ion-binding site with the L-type Ca2+ channel, and that this site is easily accessible from the outside of the channel pore.

In this report we have analysed the kinetics of modulation of human peripheral blood T lymphocyte membrane molecules upon activation with optimal amounts of phytohaemagglutinin (PHA) and concanavalin A (ConA). The following activation-related and differentiation/adhesion molecules were selectively and concomitantly investigated on CD4+ and CD8+ subsets by dual colour flow cytometry: CD69, CD2CD2, CD45RA and L-selectin. Cultures were assayed after 24, 48, 72, 120 and 168 h of incubation with PHA and ConA. This approach allowed a comprehensive evaluation of membrane phenomena occurring during activation of normal resting human T lymphocytes. Data show that the kinetics of expression of these molecules follows a precise and consistent time-course with no major differences between CD4 and CD8 subsets. CD69 expression peaked at 24 h, whereas CD2CD2 molecules increased with time in number and density, although the percentage of positive cells remained essentially constant (greater than 85%). After 48/72 h of stimulation about 10% of cells co-expressed CD4 and CD8 molecules. To ascertain whether the phenomenon was restricted to cells in a particular activation state, the phenotype of cells in the diverse phases of the cell cycle was established. Results obtained show that only actively proliferating cells, that is cells in S and G2-M phases, co-expressed the two molecules, suggesting that such a phenomenon reflects a momentary dysregulation of the normal sequence of gene expression. The present data are also discussed in the light of the dynamic role of T lymphocyte activation and adhesion molecules in regulating cell-cell interactions, tissue localization and eventual immunological function.

1. The neurohypophysis comprises the nerve terminals of hypothalamic neurosecretory cells, which contain arginine vasopressin (AVP) and oxytocin. The secretory terminals of rat neurohypophyses were acutely dissociated. The macroscopic calcium currents (ICa) of these isolated peptidergic terminals were studied using 'whole-cell' patch-clamp recording techniques. 2. There are two types ('Nt' (where the subscript 't' denotes terminal) and 'L') of high-threshold voltage-activated ICa in the terminals, which can be distinguished by holding at different potentials i.e. -90 and -50 mV. Replacement of Ca2+ in the bathing solution by Ba2+ increased the amplitude of ICa, primarily due to an increase in the L-type component. Both inward currents were eliminated by adding 50 microM-Cd2+ or when in a Ca(2+)-free bathing solution. 3. omega-Conotoxin GVIA (omega-CgTx) has been widely used as a Ca2+ channel blocker. However, whether this toxin can discriminate between different types of Ca2+ channels is still a subject of controversy. We applied omega-CgTx over a wide range of concentrations (0.01-2 microM) to examine its effects on both Nt- and L-type ICa in these terminals. At a concentration of 30 nM, omega-CgTx selectively reduced, by 48%, the amplitude of Nt-type ICa. In contrast, a higher concentration (300 nM) of omega-CgTx was necessary to inhibit the L-type ICa. 4. omega-CgTx inhibited both Nt- and L-type ICa in a dose-dependent manner, and the half-maximum inhibition (IC50) of the ICa by the toxin was 50 and 513 nM, respectively, which was approximately a tenfold difference. The reduction in both types of currents did not result from any shift in their current-voltage or steady-state inactivation relationships. 5. In contrast, omega-CgTx, at a concentration of 300 nM, had no effect on the tetrodotoxin-sensitive sodium current (INa) of the isolated peptidergic nerve terminals. Furthermore, omega-CgTx did not reduce the long-lasting, non-inactivating ICa in the isolated non-neuronal secretory cells of the pars intermedia (PI) (intermediate lobe of the pituitary). 6. Our studies suggest that omega-CgTx might exert specific blocking effects on both Nt- and L-type Ca2+ channels, but that in the isolated peptidergic nerve terminals, the Nt-type component is more susceptible to this toxin.

The Cbfa1/PEBP2 alpha A/AML3 gene plays an essential role in osteogenesis but is also expressed in the T-cell lineage where it has been implicated in lymphoma development as a target for retroviral insertional mutagenesis. As lymphoma cells with til-1 insertion express at least five distinct Cbfa1 isoforms, it is important to establish which, if any, have intrinsic oncogenic potential. We have generated transgenic mice in which the most abundant lymphoma isoform (G1/p57) is expressed under the control of the CD2 locus control region. Co-precipitation analysis of transgenic thymus revealed high levels of Cbfa1 protein in an abundant complex containing the binding cofactor Cbfb. CD2-Cbfa1-G1 mice displayed abnormal T-cell development, with a pronounced skew towards CD8 SP cells in the thymus and developed a low incidence of spontaneous lymphomas (6% at 12 months) with cells of similar phenotype. Strongly synergistic tumour development was seen when CD2-Cbfa1-G1 mice were crossed with lines carrying myc transgenes (CD2-myc or tamoxifen-regulatable CD2-mycER) and Cbfa1 was found to rescue expression of the CD2-myc transgene in pre-leukaemic mice. However, synergy did not appear to be due to a dominant block of myc-induced apoptosis by Cbfa1 as explanted primary tumours and cell lines from CD2-Cbfa1-G1/CD2-mycER mice showed accelerated death on induction with tamoxifen at similar rates to CD2-mycER controls. Moreover, thymocytes from preleukaemic CD2-Cbfa1-G1 mice showed reduced survival in vitro and increased sensitivity to the inhibitory effects of TGF-beta. This study demonstrates that a full-length Cbf alpha-chain gene can act as an oncogene without fusion to a heterologous protein.

Human intraepithelial lymphocytes are T cells primarily of the CD8+ phenotype located between intestinal epithelial cells. The cytotoxic and suppressor activities of these lymphocytes are largely unexplored. The spontaneous cytotoxic activity of these cells is evaluated in this study. Jejunal intraepithelial lymphocytes spontaneously lysed a variety of epithelial cell tumor lines (colonic and pancreatic adenocarcinomas and bladder epidermoid carcinoma) but not the highly natural killer-sensitive K-562 cells. Cold target inhibition studies showed that these lymphocytes preferentially bind the DLD-1 colonic adenocarcinoma cells rather than the K-562 cells. Pretreatment of the effector cells with interferon-gamma did not change their cytotoxic activity. The cytotoxic cells are T lymphocytes (expressing CD2, CD3, and CD8). In contrast, the spontaneous cytotoxic activity of peripheral blood lymphocytes is directed against both epithelial cell targets and K-562 cells, is enhanced by interferon-gamma, and is effected by natural killer cells (expressing CD2, CD16, and NKH1). Thus, the spontaneous cytotoxicity of intraepithelial lymphocytes differs from that of peripheral blood lymphocytes in their target cell restriction, lack of response to interferon gamma, and effector cell phenotype. Lymphocytes in the intestinal epithelium may have a novel and important role in recognizing and destroying transformed epithelial cells and colon cancers.

RBTN2 is activated by the chromosomal translocation t(11;14) (P13;p11) in some T cell leukaemias. Histologically similar T cell tumours develop with long latency in transgenic mice when either CD2 or thy1.1 promoters control rbtn2 expression. During the asymptomatic period, perturbation of T cell differentiation occurs in the thymus. The major anomalies present during this phase are an increase in the percentage of large thymocytes lacking CD4 and CD8 markers and also of small thymocytes express both the T cell marker CD3 and the B cell-specific form of CD45. These abnormal T cell populations can be clonal and thus a primary result of aberrant expression of the LIM-protein Rbtn2 is alteration of T cell differentiation preceding overt malignancy. These data provide a biological explanation for the role of Rbtn2 in tumorigenesis and presumably RBTN2 expression in T cells after the translocation t(11;14) in children has the same effect.

Three-color immunofluorescence and flow cytometric analysis showed that the vast majority of normal human T-lamina propria lymphocytes (LPL) expressed high levels of the early activation antigen CD69, together with CD45R0, irrespective of their CD4, CD8 or gamma/delta-TcR phenotype, indicating that they are continuously stimulated in vivo. Importantly, measurement of cytoplasmic [Ca2+]i showed that T-LPL had significantly higher basal [Ca2+]i levels, compared to autologous peripheral blood lymphocytes (PBL). Both cytoplasmic [Ca2+]i elevation and inositol (1,4,5) trisphosphate generation following CD3 cross-linking by monoclonal antibodies in vitro were essentially abolished in T-LPL, as compared to autologous T-PBL. Moreover, freshly isolated LPL could be induced to proliferate by <em>CD2</em>- or <em>CD2</em>8-mediated signals, but not by CD3-mediated signals. Surprisingly however, impairment in TcR/CD3-mediated early signaling and proliferation in T-LPL could be completely reversed by 24 h incubation of the cells at 37 degrees C in culture medium, a condition which allowed basal intracellular [Ca2+]i to return to levels comparable to peripheral T cells. Our data suggest that selective hyporesponsiveness to TcR/CD3-mediated signaling may represent a transient event during continuous in vivo activation of mucosal lymphocytes.

1. The sympathetic nerve terminals of the mouse vas deferens were loaded with the calcium indicator Oregon Green 488 BAPTA-1 by orthograde transport along the postganglionic nerves. Changes in the calcium concentration in the varicosity (delta [Ca2+]v) were determined following single impulses, and short (5-impulse) and long (200-impulse) trains at 5 Hz. 2. All varicosities showed a significant delta [Ca2+]v in response to every single impulse. The elevated delta [Ca2+]v declined in two phases with similar kinetics for all varicosities: a fast phase (time constant, 0.42 +/- 0.05 s) and a moderate phase (3.6 +/- 0.4 s). 3. Line scanning confocal microscopy revealed that the delta [Ca2+] of a single terminal following single impulses was smaller for the intervaricose regions than for the varicosities. 4. Blockade of the voltage-sensitive calcium channels with Cd2+ (in calcium-free solution) completely blocked the delta [Ca2+]v on stimulation. The addition of either nifedipine (10 microM), omega-conotoxin GVIA (100 nM) or omega-agatoxin TK (100 nM) showed that 47 +/- 6% of the evoked response was mediated by N-type calcium channels. 5. Ryanodine (10 microM) did not significantly change the amplitude of delta [Ca2+]v in response to short trains. 6. Spontaneous increases in delta [Ca2+]v were observed in individual varicosities, with coupling in the increase of delta [Ca2+]v between varicosities. 7. The presynaptic alpha 2-receptor antagonist yohimbine (10 microM) increased the amplitude of delta [Ca2+]v in response to five impulses (5 Hz) by 54 +/- 14%, while the alpha 2-receptor agonist clonidine (1 microM) decreased the delta [Ca2+]v by 55 +/- 4%. 8. These results are discussed in terms of the hypotheses that the increased probability for secretion at sympathetic nerve terminals which accompanies facilitation and augmentation is due to the residual delta [Ca2+]v remaining after the calcium influx following impulses and that noradrenaline acts presynaptically to decrease the probability of secretion by modifying calcium influx.

1. Hyperpolarization-activated Cl- currents (ICl,hyp) were investigated in the T84 human adenocarcinoma cell line, using the patch-clamp whole-cell configuration. 2. During whole-cell recording with high-chloride and ATP-containing internal solutions, hyperpolarizing jumps from a holding potential of 0 mV elicited slow inward current relaxations, carried by Cl- and detected at membrane potentials more negative than -40 mV. Analysis of the relative permeabilities to monovalent anions gave the following sequence: Cl->> Br->> I->> glutamate. 3. ICl,hyp was partially inhibited by 1 mM diphenylamine-2-carboxylic acid or 0.1 mM 5-nitro-2-(3-phenylpropylamino)-benzoate, and was completely blocked by Cd2+ >> 300 microM). It was insensitive to 1 mM external 4,4'-diisothiocyanatostilbene-2,2'-disulphonic acid or 1 mM Ba2+. 4. ICl,hyp was inhibited by external application of 500 microM cptcAMP (8-(4-chlorophenylthio)-adenosine 3':5'-cyclic monophosphate) or 500 nM of the protein kinase C activator, phorbol 12-myristate, 13-acetate. 5. (i) Omission of ATP from the pipette solution, (ii) ATP replacement by the non-hydrolysable ATP analogue 5'-adenylylimidodiphosphate, and (iii) inhibition of protein kinase C by staurosporine or calphostin C accelerated the activation kinetics of the current and increased its amplitude, but did not alter its pharmacological properties. 6. We conclude that hyperpolarization-activated Cl- channels similar to those of ClC-2 channels (mammalian homologue of Torpedo chloride channel ClC-0) are present in T84 cells, and that their gating properties are modulated by phosphorylation.

<em>CD2</em>7 is a 120-kDa transmembrane homodimeric molecule expressed on the majority of T cells, B cells, and NK cells that belongs to the TNFR/nerve growth factor receptor family. The interaction between <em>CD2</em>7 and its ligand, CD70, is thought to play an important role in T cell activation. In this paper we have examined the signal-transducing potential of <em>CD2</em>7 in T cell costimulation. Anti-<em>CD2</em>7 mAb, anti-1A4, induced substantial proliferation of peripheral blood T cells in the presence of a suboptimal dose of PMA, phytohemagglutinin, anti-<em>CD2</em>, or anti-CD3 together with a second Ab to cross-link the <em>CD2</em>7 molecule. This T cell proliferation was also observed by using CD70 transfectant cells. <em>CD2</em>7 cross-linking maximally induced proliferation of CD45RA+CD4 T cells but only slightly induced proliferation of CD45RO+CD4 T cells. <em>CD2</em>7-mediated T cell proliferation did not seem to be dependent on the IL-2/IL-2R system because no detectable level of IL-2 was secreted, and only a partial inhibition was observed with anti-IL-2 and anti-IL-2R Abs. Furthermore, an increase in intracellular Ca2+ was observed in PMA-treated T cells when the <em>CD2</em>7 molecule was cross-linked. More importantly, <em>CD2</em>7 ligation induced protein tyrosine phosphorylation, especially 70 kDa of cellular substrate, including ZAP-70, in T cells. Herbimycin A, a protein tyrosine kinase inhibitor, and staurosporine, a protein kinase C inhibitor, blocked T cell proliferation induced by <em>CD2</em>7 ligation, suggesting the possibility that the activation of protein tyrosine kinase and protein kinase C is required for <em>CD2</em>7-mediated T cell costimulation. These results clearly demonstrate that the <em>CD2</em>7/CD70 interaction induces costimulatory signals in T cells, especially CD45RA+ naive T cells, indicating that <em>CD2</em>7 serves as a T cell signal-transducing molecule.

We have isolated and characterized the human cardiac mast cell (CMC) and compared this novel mast cell (MC type with MC obtained from uterus, skin, and lung. Heart tissue was obtained from 14 patients with cardiomyopathy (CMP, heart transplantation). CMC were isolated by enzymatic digestion using collagenase, pronase-E, hyaluronidase, and DNAse. Substantial amounts of CMC (0.5% to 1.5% of isolated cells) were found in the atrial appendages but not in ventricular digests or other sites of the heart (< 0.1%). In situ staining of atrial tissue revealed the presence of CMC in the myocardium (2.16 +/- 0.7 MC/mm2), endocardium (2.24 +/- 0.9 MC/mm2), and epicardium. As assessed by combined toluidine blue/immunofluorescence staining with monoclonal antibodies (MoAbs), isolated CMC expressed surface IgE, the receptor for stem cell factor (c-kit receptor/CD117), the p24 antigen (CD9), the Pgp-1 homing receptor (CD44), the pan leukocyte antigen (CD45), and the ICAM-1 antigen (CD54). CMC were not recognized by MoAbs to lymphocyte function associated antigen 2 (LFA-2; CD2), T-cell receptor (TcR; CD3), T4 antigen (CD4), LFA-1 alpha-chain (CD11a), C3biR alpha-chain (CD11b), CR4 alpha-chain (CD11c), LPS-R related Ag (CD14), 3-FAL/x-hapten (CD15), Fc gamma RIII (CD16), lactosylceramid (CDw17), the B-cell antigen CD19, or CR1 (CD35). In situ expression of leukocyte antigens on CMC was demonstrable by indirect immunoperoxidase staining technique and double-labeling immunohistochemistry. Almost all CMC (90%) reacted with MoAbs against tryptase and chymase and thus were MCTC. Cardiac mast cells were also stained by the heparin-binding dye Berberine sulfate and expressed measurable amounts of histamine (4.6 +/- 1.4 pg per cell). Cross linking of either IgE receptor or SCF receptor (c-kit) on CMC resulted in histamine secretion (non-specific release: < 6% of total histamine, alpha IgE induced: 12% to 52%; SCF-induced release: 9% to 18%), whereas neither substance P (a skin MC agonist) nor the basophil agonist FMLP showed an effect on CMC. Together, the CMC is an MCTC primarily located in the appendage of the atrium. This novel type of MC exhibits surface membrane antigen and functional properties similar to those of lung and uterus MC.

Nephrin is an Ig-like transmembrane protein. It is a major component of the podocyte slit diaphragm and is essential for maintaining normal glomerular permeability. CD2-associated protein (CD2AP) is also necessary for normal glomerular permeability and is a putative nephrin adapter molecule. Here, we document that nephrin and CD2AP are linked to the actin cytoskeleton. As detected by Western blot analysis, nephrin and CD2AP were both insoluble when cell membranes from normal rat glomeruli were extracted with 0.5% Triton X-100 (TX-100) at 4 degrees C in the presence of divalent cations, but they were solubilized when the extraction included potassium iodide (KI) to depolymerize F-actin. In addition, a small fraction of the solubilized nephrin and CD2AP was recovered in the low-density fractions of OptiPrep flotation gradients, which indicates that a portion of nephrin, possibly associated with CD2AP, resides in a cholesterol- or sphingolipid-rich region of the plasma membrane. Immunofluorescent staining of unfixed sections of normal rat kidney for nephrin, CD2AP, and F-actin was unaltered by treatment with TX-100 but was greatly diminished by addition of KI. Nephrin staining was slightly reduced by cholesterol depletion with methyl-beta-cyclodextrin in the presence of TX-100 but was nearly absent after addition of KI. These results document that nephrin anchors the slit diaphragm to the actin cytoskeleton, possibly by linkage to CD2AP, and that nephrin traverses a relatively cholesterol-poor region of the podocyte plasma membrane. In addition, a small pool of actin-associated nephrin and CD2AP resides in lipid rafts, possibly in the cholesterol-rich apical region of the podocyte-foot processes.

1. Nerve terminals of the rat posterior pituitary were acutely dissociated and identified using a combination of morphological and immunohistochemical techniques. Macroscopic terminal membrane currents and voltages were studied using the whole-cell patch clamp technique. 2. In physiological solutions, depolarizing voltage clamp steps, from a holding potential (-80 mV) similar to the normal terminal resting potential, elicited a fast, inward followed by a fast, transient, outward current. 3. The threshold of activation for the outward current was -60 mV. The outward current quickly reached a peak and then decayed more slowly. The decay was fitted by two exponentials with time constants of 21 +/- 2.9 and 143 +/- 36 ms. These decay constants did not show a dependence on voltage. The time to peak of the outward current decreased and the amplitude increased with increasingly depolarized potential steps. 4. The outward current was blocked by the substitution of K+ with Cs+ and its reversal potential was consistent with a potassium current. 5. The transient outward current showed steady-state inactivation at more depolarized (than -80 mV) holding potentials with 50% inactivation occurring at -47.9 mV. The time course of recovery from inactivation was complex with full recovery taking greater than 16 s. 6. 4-Aminopyridine (4-AP) blocked the transient outward current in a dose-dependent manner (approximately IC50 = 3 mM), while charybdotoxin (4 micrograms/ml) and tetraethylammonium (100 mM) had no effect on the current amplitude. 7. Lowering external [Ca2+] had no effect on the fast, transient outward current nor did the calcium channel blocker Cd2+ (2 mM). 8. The neurohypophysial outward current reported here corresponds most closely to IA, and not to the delayed rectifier or Ca2(+)-activated K+ currents. Neurohypophysial IA, however, appears to be different from the outward currents found in the cell bodies in the hypothalamus which project their axons to the posterior pituitary. 9. Under current clamp, evoked action potential duration increased (122%) upon application of 5 mM-4-AP, indicating that IA is involved in neurohypophysial spike repolarization. 10. The existence of this current could help explain why maximal peptide release only occurs in response to bursts of electrical activity invading the nerve terminals.

1. Neurons in the nucleus of the diagonal band of Broca (nDBB) and ventral portion of the medial septum (MS) were studied using intracellular recording and single-electrode voltage clamp (SEVC) techniques in an in vitro brain slice preparation. Cell types could be operationally divided into three categories: cells with a slow postspike afterhyperpolarization (SAHP cell, 40%), neurons with a fast AHP (FAHP cells, 53%), and a third cell group recorded infrequently (7% of the cells) that fired in a burst pattern. Double-labeling techniques have shown that SAHP cells stain positively for acetylcholinesterase (AChE) and are presumably cholinergic (22). The present study provides a more detailed analysis of the passive and active membrane properties of SAHP and FAHP types within these forebrain nuclei. 2. SAHP cells were characterized by a postspike afterhyperpolarization (AHP) with an amplitude of 10-20 mV and duration of approximately 600 ms at -65 mV. In the voltage range of -60--70 mV, the AHP decayed as a single exponential function with a time constant of 170 +/- 53 ms (n = 10). However, many neurons at these membrane potentials exhibited an AHP decay that was a multiple exponential function lasting for seconds. The null potential of the SAHP was approximately -90 mV and shifted by 25 mV in 9 mM KCl, a value closely predicted for a potassium (K+) conductance. The SAHP was reversibly blocked by cadmium (Cd2+), suggesting the SAHP was mediated by a calcium (Ca2+)-activated K+ conductance. 3. FAHP cells displayed afterhyperpolarizations of smaller amplitude (5-10 mV) and duration (5-50 ms) that reversed at approximately -85 mV. Elevating extracellular K+ concentration [Ko] to 6 mM shifted the reversal 13 mV more positive. Cd2+ also reduced the AHP in these cells suggesting a second faster Ca2+-activated K+ conductance may be present. 4. Both SAHP and FAHP cells had similar input resistances and resting membrane potentials but markedly different action-potential characteristics. SAHP cells had a spike duration of 1.4 ms and a prominent shoulder on the falling phase of the SAHP cell action potentials that was reduced by Cd2+. In contrast, FAHP cells had an average spike duration of 0.63 ms that was unaffected by Cd2+. 5. The passive electrical cable properties of both cell types were characterized. Equivalent electrotonic length of the dendrites (L) and the dendritic-to-somatic conductance ratio (rho) were calculated for different cell groups. SAHP cells displayed average L values of 0.61, and the average rho was 2.13. Similar values of 0.69 and 2.14 were calculated for L and rho, respectively, in FAHP cells.(ABSTRACT TRUNCATED AT 400 WORDS)

T-cell antigens including <em>CD2</em>, CD4, CD6, CD8, and <em>CD2</em>8 serve as coreceptors with the T-cell receptor (TCR)/CD3 complex in control of T-cell growth. The molecular basis by which these antigens fulfill this role has remained a major issue. An initial clue to this question came with our finding that the sensitivity of in vitro kinase labeling (specifically using protein-tyrosine kinase p56lck) allowed detection of a physical association between CD4-p56lck and the TCR/CD3 complexes. Another T-cell antigen, CD5, is structurally related to the macrophage scavenger receptor family and, as such, can directly stimulate and/or potentiate T-cell proliferation. In this study, we reveal that in Brij 96-based cell lysates, anti-CD5 antibodies coprecipitated TCR zeta chain (TCR zeta)/CD3 subunits as well as the protein-tyrosine kinases p56lck and p59fyn. Conversely, anti-CD3 antibody coprecipitated CD5, p56lck, and p59fyn. Indeed, anti-CD5 and anti-CD3 gel patterns were virtually identical, except for a difference in relative intensity of polypeptides. Anti-CD4 coprecipitated p56lck, p32, and CD3/TCR zeta subunits but precipitated less CD5, suggesting the existence of CD4-TCR zeta/CD3 complexes distinct from the CD5-TCR zeta/CD3 complexes. Consistent with the formation of a multimeric CD5-TCR zeta/CD3 complex, anti-CD5 crosslinking induced tyrosine phosphorylation of numerous T-cell substrates, similar to those phosphorylated by TCR zeta/CD3 ligation. Significantly, as for TCR zeta, CD5 was found to act as a tyrosine kinase substrate induced by TCR/CD3 ligation. The kinetics of phosphorylation of CD5 (t1/2 = 20 sec) was among the earliest of activation events, more rapid than seen for TCR zeta (t1/2 = 1 min). CD5 represents a likely TCR/CD3-associated substrate for protein-tyrosine kinases (p56lck or p59fyn) and an alternative signaling pathway within a multimeric TCR complex.

The Effects of pH on antioxidative activities of catechol, pyrogallol, and four catechins, and effects of metal ions (Al3+, Ca2+, Cd2+, Co2+, Cr3+, Cu2+, Fe2+, Fe3+, K+, Mg2+, Mn2+, Na+, and Zn2+) on antioxidative activities of (-)-epigallocatechin gallate (EGCG) were studied by an oxygen electrode method. The antioxidative activities of catechins were high and constant at pH 6-12, but decreased in acidic and strong alkaline solutions. Copper(II) ion the most strongly increased the antioxidative activity of EGCG among these metal ions examined, but iron(II) ion largely inhibited the antioxidative activity of EGCG. These effects are discussed considering the formation of metal complexes with catechins and the change in oxidation potentials.

A 5.6-kb fragment of alkaliphilic Bacillus firmus OF4 DNA was isolated by screening a library of total genomic DNA constructed in pGEM3Zf(+) for clones that reversed the Na+ sensitivity of Escherichia coli NM81, in which the gene encoding an Na+/H+ antiporter (NhaA) is deleted (E. Padan, N. Maisler, D. Taglicht, R. Karpel, and S. Schuldiner, J. Biol. Chem. 264:20297-20302, 1989). The plasmid, designated pJB22, contained two genes that apparently encode transposition functions and two genes that are apparent homologs of the cadA and cadC genes of cadmium resistance-conferring plasmid pI258 of Staphylococcus aureus. E. coli NM81 transformed with pJB22 had enhanced membrane Na+/H+ antiporter activity that was cold labile and that decreased very rapidly following isolation of everted vesicles. Subclones of pJB22 containing cadC as the only intact gene showed identical complementation patterns in vivo and in vitro. The cadC gene product of S. aureus has been proposed to act as an accessory protein for the Cd2+ efflux ATPase (CadA) (K. P. Yoon and S. Silver, J. Bacteriol. 173:7636-7642, 1991); perhaps the alkaliphile CadC also binds Na+ and enhances antiporter activity by delivering a substrate to an integral membrane antiporter. A 6.0-kb fragment overlapping the pJB22 insert was isolated to complete the sequence of the cadA homolog. A partial sequence of a region approximately 2 kb downstream of the cadA locus shares sequence similarity with plasmids from several gram-positive bacteria. These results suggest that the region of alkaliphile DNA containing the cadCA locus is present on a transposon that could reside on a heretofore-undetected endogenous plasmid.

The induction of phytochelatins (PCs) and their desglycyl peptides (both are referred to as class III metallothionein [CIIIMT]) by exposure to various metals (Ag+, As3+, As5+, Cd2+, Cu2+, Ga3+, Hg2+, In3+, Ni2+, Pb2+, Pd2+, Se4+, and Zn2+) and the metal composition in the CIIIMTs were investigated in root cultures of Rubia tinctorum L. All of these metal species induced PCs to various degrees when analyzed by the postcolumn derivatization high-performance liquid chromatography method. The desglycyl peptides of PCs often were also present. However, only Ag, Cd, and Cu were bound to the CIIIMTs that they induced when analyzed by the high-performance liquid chromatography-inductively coupled plasma-atomic emission spectrometry method. Cu was also bound to the CIIIMTs induced by Ag+, As3+, and Cd2+. After Ag+ exposure, an Fe peak that may be of Fe-CIIIMT was also observed. However, most of the metal species studied were not bound to the CIIIMTs that they induced.

CD100 was originally described as an activation molecule on the surface of human T lymphocytes. Its triggering through distinct epitopes leads to different signals of costimulation with phorbol myristate acetate (PMA) or with CD3 and CD2. Interestingly, CD100 was shown to associate with different partner molecules in T cells. First, CD100 can associate with CD45, a key molecule with protein tyrosine phosphatase activity involved in T-cell transduction: this association is physical and has functional consequences for both partners. Second, CD100 interacts in its cytoplasmic domain with a Ser/Thr kinase for which it represents a preferential substrate. Recently, CD100 was identified as a member of the semaphorin gene family. This family comprises approximately 20 structurally related proteins. The first semaphorins were identified in the developing nervous system. Function has been shown for only some of them and involves repulsion during growth cone guidance. Since CD100 was the first semaphorin identified in the immune system, this raises the possibility of the involvement of members of the semaphorin family in other physiological phenomena outside the nervous system.

Albumin, transferrin and 'transmanganin' have all been proposed as the major Mn-binding ligand in plasma. The present investigations were initiated in order to resolve these discrepancies. Compared to other metals tested (109 Cd2+, 65Zn2+, 59Fe3+), 54Mn2+ bound poorly to purified albumin. The addition of exogenous albumin to plasma did not result in an increased 54Mn radioactivity associated with this protein. Also, incubation of 65Zn-albumin in the presence of excess Mn2+ (1 mM) did not result in the displacement of Zn from albumin or Mn binding. In contrast to these results, 54Mn was bound to purified transferrin, not as readily as Fe3+, but better than Zn2+ or Cd2+. Saturation of transferrin with Fe3+ (1.6 micrograms Fe/mg) prevented the binding of 54Mn indicating that Mn probably binds to Fe-binding sites on the protein. Polyacrylamide gel electrophoresis further demonstrated the association of 54Mn with transferrin rather than with albumin in both human and rat plasma. The amount of 54Mn radioactivity recovered with transferrin increased as incubation time was increased, probably due to oxidation of Mn2+ to Mn3+. Mn binding to transferrin reached a maximum within 5 and 12 h of incubation. About 50% of 54Mn migrated with transferrin, whereas only 5% was associated with albumin. A significant portion (20-55%) of the 54Mn radioactivity migrated with electrophoretically slow plasma components whose identity was not determined. Possibilities include alpha 2-macroglobulin, heavy gamma-globulins and/or heavy lipoproteins.

This study examined the characteristics of functional anergy of natural killer cells (NK) following their interaction with target cells. Purified NK cells were cocultured with K562 for 15 min or 4 hr to allow for binding of targets to NK cells. The resulting NK-target conjugates were then dissociated by EDTA, and the unbound NK cells were separated from the targets by flow cytometry and cell sorting. Compared to untreated NK cells, the K562-dissociated NK cells were inhibited for cytotoxic function as assessed by the 51Cr release assay and by the single killer frequency assay and also responded poorly following activation by IL-2 or IFN-alpha. The inactivated NK cells had a diminished ability to reform conjugates with the target cells. Following cell sorting of the NK subsets, the conjugate subset had the least cytotoxic activity when compared to both the free NK subset or the unfractionated NK population. The IL-2 response observed with the unfractionated anergic NK cells was found to be due to the activation of the NK free cell subset while the conjugate subset was poorly responsive to IL-2. The cell surface CD16, CD2, and CD56 antigen expression was downmodulated in the conjugate subset but not in the free cells. However, the CD69 surface expression was significantly upregulated on the surface of the NK conjugate subset and was potentiated following treatment with IFN-alpha and IL-2. These results demonstrate that target-mediated anergy of NK cells is restricted to the NK-target conjugate subset while sparing the remaining free cell subset. Further, the findings demonstrate that the anergic NK cells express the phenotype CD16dimCD2dimCD56dimCD69brightCD11bbright.

OBJECTIVE

We have previously identified a CD2 mediated, interleukin-12 dependent signaling pathway that inhibits activation induced cell death in mitogen stimulated human gammadelta-T cells, permitting the large-scale expansion of these cells. Herein we report the innate antitumor activity of expanded human Vgamma9Vdelta2+ gammadelta-T cells against human prostate cancer cells.

METHODS

Apoptosis resistant human gammadelta-T cells were expanded in vitro from cultured human peripheral blood mononuclear cells and then enriched to high purity by immunomagnetic separation. In vitro cytotoxicity of expanded gammadelta-T cells was measured against human prostate cancer cell lines using standard cytotoxicity assays.

RESULTS

gammadelta-T cells derived from various donors consistently showed lytic activity against the prostate cancer cell lines DU-145 and PC-3 but not LNCaP. mAbs against Vgamma9 or Vdelta2 T-cell receptor chains as well as mAb against intercellular adhesion molecule-1 (ICAM-1) or CD18, the beta subunit of ICAM-1 counter receptors, blocked gammadelta-T cell mediated killing of prostate cancer cells. gammadelta-T cells lysed prostate cancer cell lines largely through the perforin/granzyme pathway.

CONCLUSIONS

Ex vivo, expanded human Vgamma9Vdelta2+ gammadelta-T cells are able innately to recognize and kill certain human prostate tumor cell lines in vitro. The recognition and killing of prostate cancer cells occurs in a gammadelta-T-cell receptor dependent manner and it also appears to involve interactions between ICAM-1 and CD18. Because apoptosis resistant human Vgamma9Vdelta2+ gammadelta-T cells can readily be expanded to large numbers (clinical scale), these findings must be considered in the context of developing adoptive immunotherapy strategies to exploit gammadelta-T cell innate immune responses to prostate cancer.