Altered expression and functional profile of lysophosphatidic acid receptors in mitogen-activated human blood T lymphocytes.

Lysophosphatidic acid (LPA) from platelets and mononuclear phagocytes regulates T cell functions through endothelial differentiation gene-encoded G protein-coupled receptors (Edg Rs). Human blood unactivated CD4+ T cells express predominant ly Edg-4 LPA R over marginal levels of Edg-2 LPA R, as assessed by semiquantitative PCR and Western blots. After mitogen activation, the CD4+ T cells express Ed g-2 Rs at approximately one half the level of Edg-4 Rs. Secretion of IL-2 by unactivated Edg-4 R-predominant CD4+ T cells incubated with anti-CD3 plus anti-CD28 antibodies was suppressed significantly and by up to 60% by 10-10 M to 10-6 M LPA, whereas secretion of IL-2 by mitogen-activated Edg-2 R and Edg-4 R codominant CD4+ T cells was enhanced by up to twofold by the same concentrations of LPA. The possibility that the two Edg Rs transduce different LPA signals to CD4+ T cells was supported by findings that IL-2 secretion was inhibited by mouse anti-Edg-4 R monoclonal antibody, but enhanced by mouse anti-Edg-2 R monoclonal antibody. The separate effects of each LPA R were studied in Jurkat T cell transfectants expressing principally human Edg-2 Rs (Jurkat-T-2) or Edg-4 Rs (Jurkat-T-4) and stimulated with anti-CD3 plus phorbol myristate acetate. LPA and anti-Edg-4 R antibody suppressed IL-2 secretion by stimulated Jurkat-T-4 cells, whereas LPA and anti-Edg-2 R antibody enhanced IL-2 secretion by stimulated Jurkat-T-2 cells. Activation-induced alterations in the relative levels of Edg-2 and -4 Rs on CD4+ T cells thus reverse the effects of LPA on T cell receptor-stimulated generation of IL-2.     

Lysophosphatidic acid receptor-selective effects on Jurkat T cell migration through a Matrigel model basement membrane

Lysophosphatidic acid (LPA) and sphingosine 1-phosphate (S1P) from platelets and mononuclear phagocytes mediate T cell functions through endothelial differentiation gene-encoded G protein-coupled receptors (Edg Rs) specific for LPA (Edg-2, -4, and -7) or S1P (Edg-1, -3, -5, -6, and -8). Jurkat leukemic T cells with the SV40 virus large T Ag (Jurkat-T cells) express Edg-3>-2>-4 Rs, as assessed by RT-semiquantitative PCR and Western blots with anti-Edg R mAbs. Jurkat-T cells expressing predominantly Edg-2 R (Jurkat-T-2 cells) and Edg-4 R (Jurkat-T-4 cells) were developed by cotransfection with the respective sense plasmids and a mixture of antisense plasmids for the other Edg Rs, and hygromycin selection. Migration of Jurkat-T-4 cells, but not Jurkat-T-2 cells, through a layer of Matrigel on a 5-um pore polycarbonate filter was stimulated up to 5-fold by 10(-9) to 10(-6) M LPA and by 30-300 ng/ml of anti-Edg-4 R Ab, but not anti-Edg-2 R Ab. LPA and anti-Edg-4 R Ab also enhanced by up to 4-fold the expression of matrix metalloproteinase by Jurkat-T-4 cells, but not Jurkat-T-2 cells, as assessed by cleavage of [(3)H]-type IV human collagen in the Matrigel. Enhancement of matrix metalloproteinase-dependent trans-Matrigel migration of Jurkat-T cells by the chemokine RANTES was suppressed by anti-Edg-2 R Abs, but was stimulated by anti-Edg-4 R Abs. The opposite effects of Edg-2 and Edg-4 LPA receptors on trans-Matrigel migration and some other T cell functions provide receptor-selective mechanisms for regulation of T cell recruitment and immune contributions.     

Lysophospholipid mediators of immunity and neoplasia

Lysophosphatidic acid (LPA), sphingosine 1-phosphate (S1P) and some other structurally related lysophospholipids are active growth factors and stimuli for diverse cellular functions. LPA and S1P promote early T cell migration to tissue sites of immune responses and regulate T cell proliferation and secretion of numerous cytokines. Edg-4 (LPA2) LPA receptors, which are constitutively expressed by helper T cells, and Edg-2 (LPA1) LPA receptors, which are expressed only by activated helper T cells, transduce opposite effects of LPA on some T cell responses. A similar mechanism is observed for fine regulation of Edg R-mediated effects of LPA on ovarian cancer cells. Edg-4 (LPA2) R transduces proliferative responses, recruitment of autocrine protein growth factors, and migration of ovarian cancer cells, whereas Edg-2 (LPA1) R transduces inhibition of Edg-4 (LPA2) R-mediated responses and concurrently elicits apoptosis and anoikis of ovarian cancer cells. Edg-4 (LPA2) R is a distinctive functional marker for ovarian carcinoma, and is expressed both as the wild-type and a carboxyl-terminally extended gain-of-function mutant. Newly discovered non-lipid agonists and antagonists for individual Edg receptors will permit more sophisticated analyses of their respective contributions in human biology and pathophysiology, and may represent novel therapeutic modalities in immune disorders and cancer.     

Phenotypic and functional analysis of murine CD3+,CD4-,CD8- TCR-gamma delta-expressing peripheral T cells

Murine CD3+,CD4-,CD8- peripheral T cells, which express various forms of the TCR-gamma delta on their cell surface, have been characterized in terms of their cell-surface phenotype, proliferative and lytic potential, and lymphokine-producing capabilities. Three-color flow cytofluorometric analysis demonstrated that freshly isolated CD3+,CD4-, CD8- TCR-gamma delta lymph node cells were predominantly Thy-1+,CD5dull,IL-2R-,HSA-,B220-, and approximately 70% Ly-6C+ and 70% Pgp-1+. After CD3+,CD4-,CD8-splenocytes were expanded for 7 days in vitro with anti-CD3-epsilon mAb (145-2C11) and IL-2, the majority of the TCR-gamma delta cells expressed B220 and IL-2R, and 10 to 20% were CD8+. In comparison to CD8+ TCR-alpha beta T cells, the population of CD8+ TCR-gamma delta-bearing T cells exhibited reduced levels of CD8, and about 70% of the CD8+ TCR-gamma delta cells did not express Lyt-3 on the cell surface. Functional studies demonstrated that splenic TCR-gamma delta cells proliferated when stimulated with mAb directed against CD3-epsilon, Thy-1, and Ly-6C, but not when incubated with an anti-TCR V beta 8 mAb, consistent with the lack of TCR-alpha beta expression. In addition, activated CD3+,CD4-,CD8- peripheral murine TCR-gamma delta cells were capable of lysing syngeneic FcR-bearing targets in the presence of anti-CD3-epsilon mAb and the NK-sensitive cell line, YAC-1, in the absence of anti-CD3-epsilon mAb. Finally, activated CD3+, CD4-,CD8-,TCR-gamma delta+ splenocytes were also capable of producing IL-2, IL-3, IFN-gamma, and TNF when stimulated in vitro with anti-CD3-epsilon mAb.     

Identification of p2y9/GPR23 as a novel G protein-coupled receptor for lysophosphatidic acid,structurally distant from the Edg family

Lysophosphatidic acid (LPA) is a bioactive lipid mediator with diverse physiological and pathological actions on many types of cells. LPA has been widely considered to elicit its biological functions through three types of G protein-coupled receptors, Edg-2 (endothelial cell differentiation gene-2)/LPA1/vzg-1 (ventricular zone gene-1), Edg-4/LPA2, and Edg-7/LPA3. We identified an orphan G protein-coupled receptor, p2y9/GPR23, as the fourth LPA receptor (LPA4). Membrane fractions of RH7777 cells transiently expressing p2y9/GPR23 displayed a specific binding for 1-oleoyl-LPA with a Kd value of around 45 nm. Competition binding and reporter gene assays showed that p2y9/GPR23 preferred structural analogs of LPA with a rank order of 1-oleoyl- > 1-stearoyl- > 1-palmitoyl- > 1-myristoyl- > 1-alkyl- > 1-alkenyl-LPA. In Chinese hamster ovary cells expressing p2y9/GPR23, 1-oleoyl-LPA induced an increase in intracellular Ca2+ concentration and stimulated adenylyl cyclase activity. Quantitative real-time PCR demonstrated that mRNA of p2y9/GPR23 was significantly abundant in ovary compared with other tissues. Interestingly, p2y9/GPR23 shares only 20-24% amino acid identities with Edg-2/LPA1, Edg-4/LPA2, and Edg-7/LPA3, and phylogenetic analysis also shows that p2y9/GPR23 is far distant from the Edg family. These facts suggest that p2y9/GPR23 has evolved from different ancestor sequences from the Edg family.     

Transduction of multiple effects of sphingosine 1-phosphate (S1P) on T cell functions by the S1P1 G protein-coupled receptor

Sphingosine 1-phosphate (S1P) in blood, lymph, and immune tissues stimulates and regulates T cell migration through their S1P(1) (endothelial differentiation gene encoded receptor-1) G protein-coupled receptors. We show now that S1P(1)Rs also mediate suppression of T cell proliferation and cytokine production. Uptake of [(3)H]thymidine by mouse CD4 T cells stimulated with anti-CD3 mAbs plus either anti-CD28 or IL-7 was inhibited up to 50% by 10(-9)-10(-6) M S1P. Suppression by S1P required Ca(2+) signaling and was reduced by intracellular cAMP. S1P decreased CD4 T cell generation of IFN-gamma and IL-4, without affecting IL-2. A Th1 line from D011.10 TCR transgenic mice without detectable S1P(1) was refractory to S1P until introduction of S1P(1) by retroviral transduction. S1P then evoked chemotaxis, inhibited chemotaxis to CCL-5 and CCL-21, and suppressed Ag-stimulated proliferation and IFN-gamma production. Thus, S1P(1) signals multiple immune functions of T cells as well as migration and tissue distribution.     

T lymphocytes that express CD4 and the alpha beta-T cell receptor but lack Thy-1. Preferential localization in Peyer's patches

Thy-1- T cells expressing CD4 and the alpha beta-TCR have been identified in murine lymphoid tissues. These cells are particularly prevalent in Peyer's patches (PP), representing 17 +/- 3% of PP CD4 T cells, whereas they are much less prevalent in spleen, lymph nodes, lamina propria, or peritoneum. Phenotypic studies of fresh-isolated PP T cells demonstrate that all PP CD4 T cells (both Thy-1- and Thy-1+) express CD3, alpha beta-TCR, and CD5 (Lyt-1), whereas none coexpress CD8 (Lyt-2). Thy-1- and Thy-1+ CD4 T cell lines generated from PP also coexpress CD3 and alpha beta-TCR, but are heterogeneous in expression of CD5 and again do not coexpress CD8. Further studies revealed that Thy-1- CD4+ T cells were not present in nude mice. Short term stimulation of Thy-1+ CD4+ PP T cells with anti-CD3 resulted in loss of Thy-1 in a substantial fraction of these cells. Functional studies of Thy-1- and Thy-1+ CD4+ PP T cells indicate that fresh-isolated Thy-1- CD4+ cells do not proliferate in response to insoluble anti-CD3 but do proliferate when stimulated with soluble anti-CD3 in the presence of feeder cells. In contrast, Thy-1+ CD4+ cells proliferate well to both stimuli. However, Thy-1- CD4+ PP T cells adapted to in vitro culture exhibit vigorous proliferative responses when stimulated with either form of anti-CD3. Evaluation of lymphokine secretion by fresh-isolated Thy-1- and Thy-1+ CD4+ PP T cells revealed that both make substantial amounts of IL-2; however, Thy-1- T cells made less IL-4 than their Thy-1+ counterparts. Neither population made IL-5 or IFN-gamma. Similarly, Thy-1- and Thy-1+ CD4 T cell lines made similar amounts of IL-2; again Thy-1- T cells made less IL-4; and in this case Thy-1- T cells made IL-5 albeit significantly less than the Thy-1+ cells. Finally, immunohistochemical studies suggested that many of the CD4+ T cells in PP germinal centers were Thy-1-, indicating that Thy-1- and Thy-1+ CD4 T cells differ in their distribution within the PP. These studies thus define a phenotypically and functionally distinct T cell population which is most prevalent in murine Peyer's patches.     

Edg-6 as a putative sphingosine 1-phosphate receptor coupling to Ca(2+) signaling pathway

The endothelial differentiation gene-6 (Edg-6) was recently identified as an orphan G-protein-coupled receptor. Its predicted amino acid sequence is very close to Edg family of receptor proteins whose ligand is supposed to be lysophosphatidic acid (LPA) or lysosphingolipid such as sphingosine 1-phosphate (S1P) and sphingosylphosphorylcholine (SPC). Transfection of the Edg-6 into Chinese hamster ovary (CHO) cells and K562 cells resulted in the appearance of high-affinity [(3)H]S1P binding activity. Among lipids employed, S1P and, even though less potent, SPC, displaced the [(3)H]S1P binding, but LPA was inactive. In Edg-6-transfected CHO cells, an increase in cytosolic Ca(2+) concentration in response to S1P or SPC was clearly enhanced without change in the LPA-induced action as compared with the vector-transfected cells. The enhancement of the Ca(2+) response was associated with a significant accumulation of inositol phosphate, reflecting activation of phospholipase C. Similar enhancement of Ca(2+) response to S1P or SPC was also observed in Edg-6-expressing K562 cells. These lipid-induced actions in CHO cells and K562 cells expressing Edg-6 were markedly suppressed by pertussis toxin treatment. We conclude that Edg-6 is one of S1P or lysosphingolipid receptors that couple to phospholipase C-Ca(2+) system through pertussis toxin-sensitive G-proteins.     

Lysophosphatidic acid and sphingosine 1-phosphate stimulate endothelial cell wound healing

Lysophosphatidic acid (LPA) and sphingosine 1-phosphate(S1P) are potent lipid growth factors with similar abilities tostimulate cytoskeleton-based cellular functions. Their effects aremediated by a subfamily of G protein-coupled receptors (GPCRs) encoded by endothelial differentiation genes (edgs). Wehypothesize that large quantities of LPA and S1P generated by activatedplatelets may influence endothelial cell functions. Using an in vitrowound healing assay, we observed that LPA and S1P stimulated closure ofwounded monolayers of human umbilical vein endothelial cells and adultbovine aortic endothelial cells, which express LPA receptor Edg2, andS1P receptors Edg1 and Edg3. The two major components of wound healing,cell migration and proliferation, were stimulated individually by bothlipids. LPA and S1P also stimulated intracellular Ca²⁺mobilization and mitogen-activated protein kinase (MAPK)phosphorylation. Pertussis toxin partially blocked the effects of bothlipids on endothelial cell migration, MAPK phosphorylation, andCa²⁺ mobilization, implicatingG_i/_o-coupled Edg receptor signaling inendothelial cells. LPA and S1P did not cross-desensitize each other inCa²⁺ responses, suggesting involvement of distinctreceptors. Thus LPA and S1P affect endothelial cell functions throughsignaling pathways activated by distinct GPCRs and may contribute tothe healing of wounded vasculatures.

     

Lysophosphatidic acid-induced mitogenesis is regulated by lipid phosphate phosphatases and is Edg-receptor independent

Lysophosphatidic acid (LPA) is an extracellular signaling mediator with a broad range of cellular responses. Three G-protein-coupled receptors (Edg-2, -4, and -7) have been identified as receptors for LPA. In this study, the ectophosphatase lipid phosphate phosphatase 1 (LPP1) has been shown to down-regulate LPA-mediated mitogenesis. Furthermore, using degradation-resistant phosphonate analogs of LPA and stereoselective agonists of the Edg receptors we have demonstrated that the mitogenic and platelet aggregation responses to LPA are independent of Edg-2, -4, and -7. Specifically, we found that LPA degradation is insufficient to account for the decrease in LPA potency in mitogenic assays, and the stereoselectivity observed at the Edg receptors is not reflected in mitogenesis. Additionally, RH7777 cells, which are devoid of Edg-2, -4, and -7 receptor mRNA, have a mitogenic response to LPA and LPA analogs. Finally, we have determined that the ligand selectivity of the platelet aggregation response is consistent with that of mitogenesis, but not with Edg-2, -4, and -7.     

Biochemical regulation of breast cancer cell expression of S1P2 (Edg-5) and S1P3 (Edg-3) G protein-coupled receptors for sphingosine 1-phosphate

G protein-coupled receptors (GPCRs) for lysophosphatidic acid (LPA) and sphingosine 1-phosphate (S1P) transduce signals to many functions of normal cells. Most human cancer cells upregulate S1P and LPA GPCRs, in patterns distinctive for each type of tumor. The findings that 1-alpha, 25-dihydroxy-vitamin D(3) (VD3) and all-trans retinoic acid (RA) differentially alter expression of the predominant S1P(3) (Edg-3) R and S1P(2) (Edg-5) R in human breast cancer cells (BCCs) permitted analyses of their individual activities, despite a lack of selective pharmacological probes. S1P-evoked increases in [Ca(2+)](i) in S1P(3) R-predominant BCCs were suppressed by concentrations of VD3 and RA which decreased expression of S1P(3) Rs, despite RA-induced increases in S1P(2) Rs. S1P-elicited chemokinetic migration of S1P(3) R-predominant BCCs across a type IV collagen-coated micropore filter also was inhibited by concentrations of VD3 and RA which decreased expression of S1P(3) Rs. The RA-induced increase in expression of S1P(2) Rs did not prevent suppression by RA of S1P-elicited chemokinesis, which appears to be mediated by S1P(3) Rs, but instead exposed S1P(2) R-mediated inhibition of epidermal growth factor-stimulated chemotaxis of BCCs. In contrast, expression of the predominant LPA(2) Rs, LPA-evoked increase in [Ca(2+)](i) and LPA-stimulated chemokinetic migration were suppressed concomitantly by RA but not VD3. Thus two structurally-homologous S1P Rs of BCCs differ in coupling to [Ca(2+)](i) signaling and have opposite effects on protein growth factor-stimulated chemotaxis.     

Interleukin-2-activated murine cell lines with macrophage- and B-lymphoblast-lytic activity.

Interleukin-2 (IL-2)-activated murine killer cell lines with macrophage- and B-lymphoblastic-lytic activity were established, and their target specificity, surface markers, recognition-related structures, and requirements for optimal cell growth were characterized. Sustained growth of IL-2-activated lymphocytes was supported by the combination of IL-2 and IL-4-enriched T cell conditioned medium (CM), but was not supported by IL-2 alone or the combination of IL-2 and IL-3-containing CM in the presence of macrophages (M phi). The established line required continuous contact with M phi to maintain anti-M phi cytolytic activity. Flow cytometric analysis showed that the original line isolated by the first cloning was Thyl+, CD4-, and weakly CD8+, FcR+. The majority of these cells were CD3+ and TCR-V beta 8+. From this line, the CD3+, TCR-V beta 8+ and CD3-, TCR-V beta 8- clones were isolated by subcloning. The former clone showed Thyl+, CD3+, CD4-, CD8-, TCR-V beta 8+, FcR(+)-phenotype, and the latter clone showed Thyl+, CD3-, CD4-, CD8-, TCR-V beta 8-, FcR- phenotype. The original line and subclones showed a similar target specificity and killed resident or thioglycollate (TG)-induced peritoneal M phi and B-lymphoblasts, but did not kill T-lymphoblasts. Allogeneic M phi, M phi-like cell line P388D1, and B cell hybridoma were sensitive, whereas fresh lymphocytes, T cell lymphoma BW5147, natural killer (NK)-sensitive YAC-1, and NK-resistant P815 tumor cells were resistant to lysis by these cytotoxic lines. The addition of anti-H-2 heteroserum, anti-MHC class 1, anti-MHC class II, anti-CD3, or anti-TCR-V beta 8 monoclonal antibody (mAb) to assay cultures did not inhibit the anti-M phi cytolysis by these killer cells. In addition, the CD3- TCR-V beta 8- clone killed M phi and B lymphoblasts better than the CD3+, TCR-V beta 8+ clone. These results suggest that cytotoxic lines established in this study do not use the T cell receptor (TCR) molecules to recognize target cells and the MHC molecules are not involved in recognition. Anti-LFA-1 mAb partially inhibited anti-M phi-lysis, suggesting that the cell contact between targets and effectors is important in cytolysis. Our present data suggest that the culture condition containing IL-2, IL-4, and M phi may support the continuous growth of non-MHC-restricted killer cells with relative target specificity against M phi and B-lymphoblasts.     

IL-10 inhibits human T cell proliferation and IL-2 production.

Human IL-10 has been reported previously to inhibit the secretion of IFN-gamma in PBMC. In this study, we have found that human IL-10 inhibits T cell proliferation to either mitogen or anti-CD3 mAb in the presence of accessory cells. Inhibited T cell growth by IL-10 was associated with reduced production of IFN-gamma and IL-2. Studies of T cell subset inhibition by human IL-10 showed that CD4+, CD8+, CD45RA high, and CD45RA low cells are all growth inhibited to a similar degree. Dose response experiments demonstrated that IL-10 inhibits secretion of IFN-gamma more readily than T cell proliferation to mitogen. In addition, IL-2 and IL-4 added exogenously to IL-10 suppressed T cell cultures reversed completely the inhibition of T cell proliferation, but had little or no effect on inhibition of IFN-gamma production. Thus, in addition to its previously reported biologic properties, IL-10 inhibits human T cell proliferation and IL-2 production in response to mitogen. Inhibition of IFN-gamma production by IL-10 appears to be independent of the cytokine effect of IL-2 production.     

Role of a thymic stromal cell clone in inducing the stage-specific differentiation of various subpopulations of double negative thymocytes

The monolayer of a thymic stromal cell clone termed MRL104.8a induced the differentiation of adult double negative (DN) thymocytes (CD3-4-8-) through a CD3-4-8+ intermediate into CD3- (or dull) 4+8+ stages. DN thymocytes were separated into three subpopulations depending on their cell-surface expression of Pgp-1 and IL-2R, namely, Pgp-1+IL-2R-, Pgp-1-IL-2R+, and Pgp-1-IL-2R-. The present study investigated the requirements of the MRL104.8a monolayer for inducing the differentiation of these DN thymocyte subpopulations. The following were revealed: i) the MRL104.8a monolayer failed to induce the differentiation of a Pgp-1+IL-2R- subpopulation; ii) whereas a Pgp-1-IL-2R+ subpopulation did not express either CD4 or CD8 Ag when cultured in medium, culturing this subpopulation on the thymic stromal cell monolayers resulted in the expression of CD8 but not CD4 Ag; and iii) a Pgp-1-IL-2R- DN subpopulation obtained through less extensive treatments with anti-CD4 and anti-CD8 antibodies in the presence of C before sorting procedures spontaneously differentiated into double positive cells in medium. In contrast, most of DN cells with the same phenotype obtained through extensive anti-CD4 and -CD8 treatments before sorting failed to express CD4 and/or CD8 Ag in medium but could differentiate through a CD3-4-8+ into more mature stages only when they were cultured on the thymic stromal monolayer. These results indicate differential requirements of thymic stromal cells for the differentiation of various DN subpopulations with qualitatively distinct phenotypes and different magnitudes (very low vs almost zero levels) of CD4/CD8 expression.     

Differential effects of sphingosine 1-phosphate and lysophosphatidic acid on endothelial cells

This review discusses multiple effects of sphingosine 1-phosphate (S1P) and lysophosphatidic acid (LPA) on endothelial cells and proposes that S1P and LPA are important regulators of the vascular system. Two physiologic sources of S1P and LPA are platelets and lipoproteins. S1P is an inducer of angiogenesis in vivo whereas LPA is not. S1P and LPA act through endothelial cell surface Edg receptors. S1P stimulates endothelial cell migration, but inhibits migration of most nonendothelial cells. Edg1 and Edg3 receptors, working through G(i), play an important role in regulation of S1P-stimulated endothelial cell migration. LPA effects on endothelial cells are more restricted than the effects of S1P on endothelial cells. LPA stimulates migration of certain endothelial cells on certain extracellular matrix proteins. However, LPA acts like S1P in its effects on the endothelial cell cytoskeleton, proliferation, cell-cell adhesion molecule expression, and vascular permeability. LPA receptors on endothelial cells are likely Edg2 and Edg4. Future studies should better delineate the roles of Edg receptors and downstream pathways on effects of extracellular S1P and LPA and the contributions of intracellularly generated S1P and nitric oxide (NO).     

Reconstitution of an active surface CD2 by DNA transfer in CD2-CD3+ Jurkat cells facilitates CD3-T cell receptor-mediated IL-2 production.

To investigate the requirements for CD2 expression in the activation of T lymphocytes via the CD3-TCR complex, we produced and characterized a series of CD2-variants of the IL-2 producing Jurkat leukemia cell line, J32 (surface phenotype, CD2+, CD3+, CD28+). These mutants were derived by radiation and immunoselection, and were cloned under limiting dilution conditions. A total of 3 out of 30 of these mutants selectively lost the expression of both CD2 surface molecules and CD2 mRNA, and retained the expression of the CD3-TCR complex and the CD28 molecule. A mitogenic combination of anti-CD2 antibodies (9.6 + 9-1) failed to stimulate activation of these variants as measured by mobilization of intracellular Ca2+ and by IL-2 production. The CD2- mutants stimulated with anti-CD3 or anti-TCR mAb revealed an 8- to 32-fold decrease in IL-2 production and IL-2 mRNA accumulation as compared with the parental cells. No alteration of CD3-TCR-induced mobilization of intracellular Ca2+ was observed in the CD2- mutants. Reconstitution of CD2 expression by gene transfer in two J32 CD2- mutants restored IL-2 production and IL-2 mRNA accumulation in responses to both anti-CD2 and anti-CD3-TCR mAb. These results are the first direct demonstration of the requirement for CD2 molecules in optimizing IL-2 response in human T cells stimulated via CD3-TCR complex.     

T cell regulation of human B cell proliferation and differentiation. Regulatory influences of CD45R+ and CD45R- T4 cell subsets

The immunoregulatory functions of human T4 cell subpopulations defined by mAb to the CD45R molecule (2H4) were examined. Both CD45R- and CD45R+ T4 cells that had been treated with mitomycin C (CD45R- and CD45R+ T4-mito) provided help for the generation of Ig-secreting cells (ISC) in cultures stimulated by PWM or by immobilized mAb to CD3 (64.1). IL-2 enhanced the generation of ISC in PWM-stimulated cultures and in anti-CD3-stimulated cultures containing CD45R+ T4-mito. The generation of ISC was maximal in cultures containing anti-CD3-activated CD45R- T4-mito and was not increased by IL-2. By contrast, CD45R+ T4 cells that had not been treated with mitomycin C suppressed B cell responses in cultures stimulated with PWM or anti-CD3, whereas CD45R- T4 cells suppressed the generation of ISC only in cultures stimulated with anti-CD3. IL-2 enhanced suppression by anti-CD3, but not PWM, activated CD45R- T4 cells. Suppression by CD45R+ T4 cells was maximal and not increased by IL-2. CD45R+ T4-mito were more effective suppressor-inducers in PWM-stimulated cultures, promoting the differentiation of suppressor-effector cells from CD8+ T cells. However, both CD45R+ and CD45R- T4-mito exerted comparable suppressor-inducer function in anti-CD3-stimulated cultures. Moreover, in anti-CD3-stimulated cultures, T8 cells could function as both suppressor-effector cells and suppressor-inducer cells. One of the functions of suppressor-inducer cells in this system appeared to involve the production of IL-2. Thus, the addition of IL-2 facilitated the induction of suppressor-effector T8 cells by CD45R- T4-mito in PWM-stimulated cultures. Although IL-2 production by the T cell subsets varied widely depending on the nature of the stimulus, these differences could not entirely explain their capacity to function as helper cells, suppressor-effector cells or suppressor-inducer cells. These results indicate that both CD45R+ and CD45R- T4 cells can help or suppress B cell responses, as well as induce suppressor-effector T8 cells. Moreover, suppressor-inducer function of T cells is not limited to the T4 cell population, but rather can also be accomplished by T8 cells. The results indicate that both T4 cell subsets and T8 cells exert multiple regulatory effects on human B cell function, with the nature of the activating stimulus playing a major role in determining the functional capacity of various T cell subsets.     

Responsiveness of fetal and adult CD4-, CD8- thymocytes to T cell activation

Day-14 fetal CD4-, CD8- thymocytes showed a greater proliferative response to PMA + IL-4 than did adult double-negative thymocytes. In contrast, adult double-negative thymocytes were more responsive to PMA + IL-1 + IL-2 or to IL-1 + IL-2 alone. The adult double-negative thymocytes showed significantly greater proliferation than fetal thymocytes after stimulation via anti-CD3 or anti-Thy-1 in the presence or absence of interleukins (IL-1 + IL-2 or IL-4). Adult CD4-, CD8- thymocytes also exhibited greater calcium mobilization following anti-CD3 stimulation IL-2-dependent activation with anti-Thy-1 or IL-1 + IL-2 in the absence of PMA resulted in marked expansion of CD 3+, F23.1+, CD4-, CD8- thymocytes, a population absent in fetal thymocytes but constituting 4% of pre-cultured CD4-, CD8- adult thymocytes. IL-4 + PMA failed to expand this CD 3+ population. It is hypothesized that before expression of functional TCR, T cell development may be more dependent on activation pathways not using IL-2; after TCR expression, IL-2-dependent pathways, including Thy-1-mediated stimulation, become functional.     

The Edg family G protein-coupled receptors for lysophospholipids: their signaling properties and biological activities

Sphingosine-1-phosphate (S1P) and lysophosphatidic acid (LPA) are blood-borne lysophospholipids with a wide spectrum of biological activities, which include stimulation of cell growth, prevention of apoptosis, regulation of actin cytoskeleton, and modulation of cell shape, cell migration, and invasion. Activated platelets appear to be a major source of both S1P and LPA in blood. Despite the diversity of their biosynthetic origins, they are considered to share substantial structural similarity. Indeed, recent investigation has revealed that S1P and LPA act via a single family of G protein-coupled receptors designated as Edg. Thus, the Edg isoforms, Edg1 (also called S1P(1)), Edg5 (S1P(2)), Edg3 (S1P(3)), Edg6 (S1P(4)), and Edg8 (S1P(5)), are specific receptors for S1P (and SPC with a lower affinity), whereas Edg2 (LPA(1)), Edg4 (LPA(2)), and Edg7 (LPA(3)) serve as receptors specific for LPA. Each receptor isoform displays a unique tissue expression pattern and coupling to a distinct set of heterotrimeric G proteins, leading to the activation of an isoform-specific panel of multiple intracellular signaling pathways. Recent studies on knockout mice have unveiled non-redundant Edg receptor functions that are essential for normal development and vascular maturation. In addition, the Edg lysophospholipid signaling system may play a role in modulating cell motility under such pathological conditions as inflammation, tumor cell dissemination and vascular remodeling.