EC:4.6.1.1 - FACTA Search

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Query: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this study we report that in vitro activation of T cells increased the cyclic AMP response to subsequent prostaglandin E2 (PGE2) stimulation severalfold per cell. This sensitization of T cells to PGE2-induced cyclic AMP generation was observed when the T cells had been stimulated in vitro for 5 days with either the CD3 monoclonal antibody OKT3, phytohemagglutinin, or the combination phytohemagglutinin plus the phorbol ester PMA. Enhanced cyclic AMP generation following mitogenic activation was seen in response to both PGE2 and forskolin, direct activator of the adenylate cyclase, indicating that the amount of adenylate cyclase had increased during the in vitro activation course. In order to investigate whether various T cell subsets in general and in vivo activated T cells in particular would differ in their susceptibility to PGE2, we isolated CD4+, CD8+, CD4-CD8-, CD4+CD45RO+ ("memory"), and CD4+CD45RA+ ("virgin") T cells and studied PGE2-mediated inhibition of CD3-induced proliferation, as well as cyclic AMP generation in response to PGE2, respectively. We found that CD8+ T cells are more susceptible to PGE2 inhibition and produce more cyclic AMP than CD4+ T cells. Double-negative T cells (enriched for gamma delta T cell receptor positive cells) were found to be sensitive to PGE2 as well. Within the CD4+ T cell population, CD45RO+ ("memory") T cells were significantly more sensitive to PGE2-mediated suppression than CD45RA+ ("virgin") T cells. CD45RO+ cells required a 10-fold lower dose of PGE2 for half-maximum suppression of proliferation. However, no difference in cyclic AMP production could be demonstrated between these two subsets. We propose that substantial heterogeneity exists among peripheral blood T lymphocyte subsets regarding their sensitivity to the immunosuppressive action of PGE2 and that the sensitivity of individual cells changes in the course of an immune response.
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PMID:In vitro and in vivo activated T cells display increased sensitivity to PGE2. 165 8

A monoclonal antibody (OKT3) directed against the T cell receptor (TcR)/CD3 molecular complex, as well as a protein kinase C (PKC) activator (phorbol 12-myristate 13-acetate, PMA) were added to a culture of tumoral Jurkat T cells, in order to precise the sequence of intracellular signals leading to T cell activation. The experiments were performed in the presence or in absence of various stimulators of adenylate cyclase (AC) such as forskolin (FK), cholera toxin (CT) or prostaglandin E2 (PGE2). OKT3 increased inositol phosphate (IP) production; in parallel, it induced a slight accumulation of cAMP. The effect was markedly potentiated in presence of FK or CT, and to a lesser extent in the presence of PGE2. FK stimulated adenylate cyclase of Jurkat cell membranes, but the effect was not potentiated by OKT3, suggesting that potentiation of cAMP accumulation requires intact cells and is not mediated by direct receptor coupling. On the other hand, elevated cAMP accumulation induced a negative feedback on IP production. The effect of OKT3 on cAMP was mimicked by A23187, a Ca2+ ionophore, and abolished in the absence of extracellular Ca2+. PMA had the same effect as OKT3 on basal or FK- and CT-induced accumulation of cAMP. In contrast, it inhibited the PGE2 effect on the cyclic nucleotide. After desensitization of PKC by pretreatment with a high concentration of PMA, the phorbol ester was no longer effective. Under those conditions, facilitation by OKT3 of FK-induced accumulation of cAMP was preserved, whereas potentiation by the monoclonal antibody of the PGE2 stimulation of AC was even enhanced. The data indicate that cAMP accumulation indirectly elicited by phospholipase C activation is, at least partly, mediated by IP-dependent Ca2+ mobilization, while PKC is preferentially effective as an inhibitor of PGE2 stimulation.
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PMID:Activation of the CD3/T cell receptor (TcR) complex or of protein kinase C potentiate adenylyl cyclase stimulation in a tumoral T cell line: involvement of two distinct intracellular pathways. 165 16

G proteins are membrane-bound molecules involved in coupling of surface receptors with signal transduction effector systems in multiple cell types including T lymphocytes. Given that mature T cells which lack antigen receptors (CDl-Ti) are refractory to stimulation through CD2 or other accessory molecules, T cell receptor components likely play a critical role in coupling surface receptors with signal transduction effectors. It has recently been proposed that modulation of T cell receptor components with MAbs results in a physical loss or functional inactivation of G protein(s). In view of the importance of the T cell activation process, we herein examined G proteins in untreated or antibody-modulated Jurkat T cells as well as in genetic variants lacking either CD3-Ti or CD2 surface receptors. 43- and 41-kDa G protein alpha chains are ADP ribosylated with cholera (CTX) and pertussis (PTX) toxins, respectively, in wild type and receptor minus cell populations. In the wild type Jurkat cell line as well as in CD3- and CD2- variants, AlF4- can activate the G protein(s) presumably associated with phospholipase C to generate polyphosphoinositide turnover as well as an increase in cytoplasmic free calcium ions. Furthermore, G protein(s) linked to adenylylcyclase, a pathway which inhibits T lymphocyte activation, can be directly activated with CTX in the absence of CD3-Ti or CD2 on the membrane. Importantly, AlF4- can also induce polyphosphoinositide turnover in Jurkat cells whose T cell receptor proteins have been modulated with anti-CD3 MAb. These data provide functional and biochemical evidence that at least certain G proteins are intact in the absence of surface expression of CD3-Ti or CD2 molecules and imply that CD3-Ti desensitization is not singularly due to G protein loss.
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PMID:Characterization of functional GTP binding proteins in Jurkat T cell mutants lacking either CD3-Ti or CD2 surface receptors. 197 60

Heterologous gene expression in yeast can be increased up to several hundred-fold by expressing a foreign gene as a fusion to the ubiquitin gene. An endogenous yeast endoprotease (Ub-Xase) removes the ubiquitin from the fusion product to produce the authentic protein. The utility of this technique has been demonstrated by expression of three different proteins in yeast as both unfused and ubiquitin-fused forms: 1) the alpha subunit of the mammalian stimulating G-protein of the adenylate cyclase complex (Gs alpha); 2) a soluble fragment of the T cell receptor protein (sCD4); and 3) the protease domain of human urokinase (UKP). The sequence specificity of the Ub-Xase was demonstrated by mutagenesis of the carboxyl-terminal glycine of ubiquitin to an alanine, which inhibited ubiquitin removal in vivo. Processing of the ubiquitin-Gs alpha fusion protein (ub-Gs alpha) in vivo resulted in Gs alpha which could be reconstituted in mammalian membrane preparations and had the same specific activity as the authentic Gs alpha expressed in yeast. The yeast Ub-Xase has also been shown to work in vitro by the processing of a ub-sCD4 fusion protein synthesized in Escherichia coli. This technology should greatly enhance the utility of yeast for heterologous protein production.
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PMID:Increasing gene expression in yeast by fusion to ubiquitin. 254 Feb 2

Vasoactive intestinal peptide (VIP) belongs to an ever growing family of neuropeptides with immunomodulatory functions. VIP-containing nerve fibers are present in both primary and secondary lymphoid organs, frequently in close proximity to immune cells. In addition, several types of immune cells, including T lymphocytes may function as local VIP sources in the lymphoid microenvironment. VIP released from neuronal and/or non neuronal sources exerts immunomodulatory effects through direct binding to VIP receptors (VIP-Rs), which are expressed on most immune cells. The existence of lymphocytic VIP-Rs has been demonstrated initially through binding studies, and more recently, through molecular biology technology. Both VIP-R1 and VIP-R2, which express high affinity for VIP and related neuropeptides such as the pituitary adenylate cyclase activating peptide (PACAP), are present on lymphocyte subsets, and recent reports suggest that whereas VIP-R1 is expressed constitutively, VIP-R2 expression is induced upon lymphocyte activation. Although VIP affects a variety of immune functions, its primary immunomodulatory function seems to be anti-inflammatory in nature. Whereas a rapid inflammatory response is essential for the ultimate elimination of foreign antigens, its intensity and duration have to be strictly controlled to avoid extensive tissue damage. In this respect, neuropeptides with anti-inflammatory functions such as VIP or the structurally related PACAP, timely released within the lymphoid organs, could play an important physiological role in the down-regulation of the immune response. Cytokines, soluble products of immune cells, play major roles in lymphocyte development, activation, and differentiation. As most cytokines are functionally pleiotropic, redundant, and interdependent, local interactions within the cytokine-neuroendocrine network have significant impact on cytokine production and function. Therefore, the immunomodulatory activities of VIP could be mediated, at least partially, through effects on the production of cytokines. The purpose of this article is to review the existing information regarding the VIP modulation of cytokine expression in immune cells. Both VIP and PACAP downregulate the expression of IL-2 mRNA and protein in T cells activated through the T cell receptor, through reducing both the stability and the de novo transcriptional rate of the IL-2 message. Reduction in the amount of IL-2 generated by the activated CD4+ T cells impacts on both T cell proliferation and on further sequential cytokine production. This is indeed the case with IL-4, which is affected by VIP indirectly, through inhibition of IL-2. In contrast, the inhibitory effect of VIP and PACAP on IL-10 production proceeds through a direct transcriptional event. In contrast to IL-2 which functions solely as a proinflammatory cytokine, IL-4 and IL-10 act as pro- or anti-inflammatory cytokines, depending on their involvement in specific immune responses. Therefore, depending on interactions with the local cytokine network, VIP and related neuropeptides may contribute significantly to controlling the amplitude and timing of the inflammatory response to foreign antigens. Although the role of VIP and related peptides on T cell development has not been investigated yet, the presence of VIP and VIP-Rs in the thymus, and their effect on thymic cytokine production, suggests that VIP and/or PACAP released locally within the thymic environment could also affect T cell development, and therefore participate in the generation and maturation of immune cells.
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PMID:Regulatory effects of vasoactive intestinal peptide on cytokine production in central and peripheral lymphoid organs. 879 Jul 82

1. A functional study of cell surface A2b adenosine receptors was performed on the T cell leukaemia line, Jurkat. 2. A2b receptors were coupled both to the adenylate cyclase system and to intracellular calcium channels. In fact, the agonist of A2b receptors, 5'-N-ethylcarboxamidoadenosine (NECA), led to a transient accumulation of intracellular calcium by an inositol phosphate-independent mechanism. 3. The NECA-induced accumulation of cGMP was not responsible for the calcium mobilization via A2b receptors. 4. The calcium response elicited by activation of A2b receptors was independent of that evoked by activation of the T cell receptor. 5. These findings not only delineate a novel transduction mechanism for adenosine but also support a specific role for adenosine in modulating signals elicited via the T cell receptor.
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PMID:Calcium mobilization in Jurkat cells via A2b adenosine receptors. 940 72

Extracellular adenosine has a key role in the development and function of the cells of the immune system. Many of the adenosine actions seem to be mediated by specific surface receptors positively coupled to adenylate cyclase: A2A and A2B. Despite the fact that A2A receptors (A2ARs) can be easily studied due to the availability of the specific agonist CGS21680, a pharmacological and physiological characterization of adenosine A2B receptors (A2BRs) in lymphocytes has not been possible due to the lack of suitable reagents. Here we report the generation and characterization of a polyclonal antipeptide antibody raised against the third extracellular loop of the A2BR human clone which is useful for immunocytochemical studies. This antibody has permitted the detection of A2BR+ cells in lymphocyte samples isolated from human peripheral blood. The pharmacology of cAMP-producing compounds is consistent with the presence of functional A2BRs but not of A2A receptors in these human cells. The percentage of A2BR-expressing cells was similar in the CD4(+) or CD8(+) T cell subpopulations. Interestingly activation signals delivered by either phytohemagglutinin or anti-T cell receptor/CD3 complex antibodies led to a significant increase in both the percentage of cells expressing the receptor and the intensity of the labeling. These receptors are functional since interleukin-2 production in these cells is reduced by NECA but not by R-PIA or CGS21680. These results show that A2BR expression is regulated in T cell activation and suggest that the role of adenosine in lymphocyte deactivation is mediated by A2BRs.
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PMID:Expression of A2B adenosine receptors in human lymphocytes: their role in T cell activation. 991 61

The release of histamine from mast cells and basophils during allergic reactions can regulate functions of T cells and may influence the nature of the immune response to a given antigen. The effects of histamine on T lymphocytes are associated with its binding to H2-receptors linked with adenylate cyclase, elevation of cAMP levels and activation of cAMP-dependent protein kinase (PKA). In this report we explore the role of PKA in histamine-mediated effects on IL-2 mRNA expression and IL-2 protein secretion. Fresh isolated mouse splenocytes (C57Bl/6) were pretreated with histamine (10(-4) M) for 1 h in the presence or absence of Rp-cAMPS (50 microM), an inhibitor of PKA regulatory subunit. The cells were then washed thoroughly and activated with plate-bound anti-CD3 (5 microg/ml), or PHA (1:100) or PMA + ionomycin (10 ng/ml, 1 microg/ml) for 6 h. Pretreatment with histamine inhibited IL-2 mRNA expression and secretion in cells activated with anti-CD3 or PMA, but not in cells activated with PMA + ionomycin. Rp-cAMPS prevented histamine-mediated suppression and did not itself affect IL-2 production. These results provide evidence that histamine affected IL-2 production when the cells were activated via the T cell receptor (TCR)/CD3 complex, but did not interfere with signal transduction pathways downstream of PKC leading to production of IL-2. These effects of histamine on IL-2 secretion and mRNA expression were mediated via PKA.
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PMID:Involvement of protein kinase A in histamine-mediated inhibition of IL-2 mRNA expression in mouse splenocytes. 1010 90

Culture of an H-2(s)-restricted, bovine myelin basic protein (BMBP)-specific murine Th1 clone with the adenyl cyclase agonist forskolin (FSK) or isobutylmethylxanthine (IBMX), an inhibitor of cAMP catabolism, before culture with anti-CD3 or BMBP and antigen-presenting cells (APC) suppressed antigen or anti-CD3-induced proliferation and production of interferon-gamma (IFN-gamma). Other H-2(s)-derived or H-2(b)-derived clones specific for BMBP or keyhole limpet hemocyanin (KLH) were similarly affected. FSK did not affect the expression of CD4 or the T cell receptor (TCR) but did diminish levels of the phosphorylated (activated) mitogen-activated protein (MAP) kinases early response kinase-1 (ERK-1) and ERK-2. Immunoblotting of lysates from an FSK-treated Th1 clone with antibodies to a carboxy-terminal epitope of p56(lck), a signal transduction enzyme upstream from ERK-1 and ERK2, did not detect p56(lck) unless the lysates were reduced prior to electrophoresis. Immunoblotting of nonreduced lysates with antibodies to an amino-terminal epitope demonstrated p56(lck) with a lower apparent molecular weight, characteristic of oxidized proteins. Reduction restored the detection of p56(lck) by anticarboxy-terminal p56(lck) and to mobilities indistinguishable from controls detected by the antiamino-terminal p56(lck). N-acetylcysteine or catalase prevented FSK-induced suppression of antigen-induced proliferation and the loss of carboxy-terminal epitopes of p56(lck). An inhibitor of cAMP-dependent protein kinase A (PKA) or nitric oxide synthase (NOS) did not affect FSK-induced inhibition of antigen-induced proliferation. In contrast, inhibitors of PKA or NOS, but not catalase, prevented FSK-induced suppression of IFN-gamma production. Moreover, immunoblots of lysates precipitated with anti-p56(lck), phosphotyrosine, or CD4 demonstrated that in FSK-treated, anti-CD3-stimulated cells, p56(lck) is not associated with CD4 zeta chain, nor is p56(lck) or zeta chain phosphorylated. In vitro kinase assays demonstrated that p56(lck) from FSK-treated cells does not have kinase activity. Taken together, the results suggest that an elevation of intracellular cAMP (in the absence of antigen) creates an oxidative environment that oxidizes and inactivates p56(lck) by an H(2)O(2)-dependent, PKA-independent mechanism and inhibits the production of IFN-gamma by an NO, PKA-dependent mechanism. Thus, antigen-induced proliferation and IFN-gamma production in a Th1 clone are controlled separately by different cAMP-dependent, redox-based mechanisms.
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PMID:Differential regulation of T cell receptor-mediated Th1 cell IFN-gamma production and proliferation by divergent cAMP-mediated redox pathways. 1171 Sep 91

Metabotropic glutamate receptors (mGluR) are present in cells of the nervous system, where they are activated by one of the main neurotransmitters, glutamate. They are also expressed in cells outside the nervous system. We identified and characterized two receptors belonging to group I mGluR, mGlu1R and mGlu5R, in human cell lines of lymphoid origin and in resting and activated lymphocytes from human peripheral blood. Both are highly expressed in the human Jurkat T cell line, whereas mGlu5R is expressed only in the human B cell line SKW6.4. In blood lymphocytes, mGlu5R is expressed constitutively, whereas mGlu1R is expressed only upon activation via the T cell receptor-CD3 complex. Group I receptors in the central nervous system are coupled to phospholipase C, whereas in blood lymphocytes, activation of mGlu5R does not trigger this signaling pathway, but instead activates adenylate cyclase. On the other hand, mGlu5R does not mediate ERK1/2 activation, whereas mGlu1R, which is coupled neither to phospholipase C nor to calcium channels and whose activation does not increase cAMP, activates the mitogen-activated protein kinase cascade. The differential expression of mGluR in resting and activated lymphocytes and the different signaling pathways that are triggered when mGlu1Rs or mGlu5Rs are activated point to a key role of glutamate in the regulation of T cell physiological function. The study of the signaling pathways (cAMP production and ERK1/2 phosphorylation) and the proliferative response obtained in the presence of glutamate analogs suggests that mGlu1R and mGlu5R have distinct functions. mGlu5R mediates the reported inhibition of cell proliferation evoked by glutamate, which is reverted by the activation of inducible mGlu1R. This is a novel non-inhibitory action mechanism for glutamate in lymphocyte activation. mGlu1R and mGlu5R thus mediate opposite glutamate effects in human lymphocytes.
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PMID:Group I metabotropic glutamate receptors mediate a dual role of glutamate in T cell activation. 1518 89

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