Kevin R. Lynch scite author profile

Immunosuppressant drugs such as cyclosporin have allowed widespread organ transplantation, but their utility remains limited by toxicities, and they are ineffective in chronic management of autoimmune diseases such as multiple sclerosis. In contrast, the immune modulating drug FTY720 is efficacious in a variety of transplant and autoimmune models without inducing a generalized immunosuppressed state and is effective in human kidney transplantation. FTY720 elicits a lymphopenia resulting from a reversible redistribution of lymphocytes from circulation to secondary lymphoid tissues by unknown mechanisms. Using FTY720 and several analogs, we show now that FTY720 is phosphorylated by sphingosine kinase; the phosphorylated compound is a potent agonist at four sphingosine 1-phosphate receptors and represents the therapeutic principle in a rodent model of multiple sclerosis. Our results suggest that FTY720, after phosphorylation, acts through sphingosine 1-phosphate signaling pathways to modulate chemotactic responses and lymphocyte trafficking.FTY720 is derived from ISP-1 (myriocin), a fungal metabolite that is an eternal youth nostrum in traditional Chinese herbal medicine (1). The compound (2-amino-2-[2-(4-octylphenyl)ethyl]propane-1,3-diol) is a novel, high potency immune modulating agent that is remarkably effective in a variety of autoimmune and transplant models including islet transplantation (2) and has recently proven to be effective in renal transplantation in man (3). Unlike the currently used immunosuppressive agents (e.g. the calcineurin inhibitors cyclosporin and tacrolimus), FTY720 does not inhibit T cell activation and proliferation and in rodent models does not impair immunity to systemic viral infection (4). If confirmed in man, the latter property provides a striking advantage over current immunosuppressive therapies. FTY720 apparently sequesters lymphocytes from circulation to secondary lymph tissue compartments (5) with concomitant reduction of specific effector T cells recirculating from the lymph nodes to inflamed peripheral tissues (4) and graft sites (6). FTY720 does not act via the lymphocytehoming chemokine receptor CCR-7 because FTY720 is active both in CCR-7-deficient mice and plt (paucity of lymph node T cells) mice, which lack CCR-7 ligands (CCL-19 and CCL-21) (7).FTY720-induced lymphocyte homing is sensitive to suppression by pertussis toxin (6 -8), which suggests that the molecular target of the drug is a G protein-coupled receptor (GPCR) 1 interacting with heterotrimeric G proteins of the ␣ i/o type. The affected GPCR(s) is on the lymphocyte since fluorescently labeled lymphocytes treated with pertussis toxin ex vivo and transferred to mice are not depleted by FTY720 in vivo (8). The structural similarity of FTY720 and sphingosine has prompted speculation that the drug might act via the sphingosine 1-phosphate (S1P) receptor S1P 4 (formerly 2 that is known to be expressed by lymphocytes (9). S1P is a pleiotropic lysophospholipid mediator; the prominent cellular responses to applied S...

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Characterization of the human cysteinyl leukotriene CysLT1 receptor

Lynch

O’Neill

Liu

et al. 1999

Nature

893

875

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The cysteinyl leukotrienes-leukotriene C4(LTC4), leukotriene D4(LTD4) and leukotriene E4(LTE4)-are important mediators of human bronchial asthma. Pharmacological studies have determined that cysteinyl leukotrienes activate at least two receptors, designated CysLT1 and CysLT2. The CysLT1-selective antagonists, such as montelukast (Singulair), zafirlukast (Accolate) and pranlukast (Onon), are important in the treatment of asthma. Previous biochemical characterization of CysLT1 antagonists and the CysLT1 receptor has been in membrane preparations from tissues enriched for this receptor. Here we report the molecular and pharmacological characterization of the cloned human CysLT1 receptor. We describe the functional activation (calcium mobilization) of this receptor by LTD4 and LTC4, and competition for radiolabelled LTD4 binding to this receptor by the cysteinyl leukotrienes and three structurally distinct classes of CysLT1-receptor antagonists. We detected CysLT1-receptor messenger RNA in spleen, peripheral blood leukocytes and lung. In normal human lung, expression of the CysLT1-receptor mRNA was confined to smooth muscle cells and tissue macrophages. Finally, we mapped the human CysLT1-receptor gene to the X chromosome.

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Characterization of the Human Cysteinyl Leukotriene 2 Receptor

Heise¹,

O’Dowd²,

Figueroa³

et al. 2000

Journal of Biological Chemistry

601

673

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Regulation of learning and memory by meningeal immunity: a key role for IL-4

et al. 2010

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Proinflammatory cytokines have been shown to impair cognition; consequently, immune activity in the central nervous system was considered detrimental to cognitive function. Unexpectedly, however, T cells were recently shown to support learning and memory, though the underlying mechanism was unclear. We show that one of the steps in the cascade of T cell–based support of learning and memory takes place in the meningeal spaces. Performance of cognitive tasks led to accumulation of IL-4–producing T cells in the meninges. Depletion of T cells from meningeal spaces skewed meningeal myeloid cells toward a proinflammatory phenotype. T cell–derived IL-4 was critical, as IL-4−/− mice exhibited a skewed proinflammatory meningeal myeloid cell phenotype and cognitive deficits. Transplantation of IL-4−/− bone marrow into irradiated wild-type recipients also resulted in cognitive impairment and proinflammatory skew. Moreover, adoptive transfer of T cells from wild-type into IL-4−/− mice reversed cognitive impairment and attenuated the proinflammatory character of meningeal myeloid cells. Our results point to a critical role for T cell–derived IL-4 in the regulation of cognitive function through meningeal myeloid cell phenotype and brain-derived neurotrophic factor expression. These findings might lead to the development of new immune-based therapies for cognitive impairment associated with immune decline.

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Identification of receptors for neuromedin U and its role in feeding

Howard¹,

Wang²,

Pong³

et al. 2000

Nature

382

430

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Neuromedin U (NMU) is a neuropeptide with potent activity on smooth muscle which was isolated first from porcine spinal cord and later from other species. It is widely distributed in the gut and central nervous system. Peripheral activities of NMU include stimulation of smooth muscle, increase of blood pressure, alteration of ion transport in the gut, control of local blood flow and regulation of adrenocortical function. An NMU receptor has not been molecularly identified. Here we show that the previously described orphan G-protein-coupled receptor FM-3 (ref. 15) and a newly discovered one (FM-4) are cognate receptors for NMU. FM-3, designated NMU1R, is abundantly expressed in peripheral tissues whereas FM-4, designated NMU2R, is expressed in specific regions of the brain. NMU is expressed in the ventromedial hypothalamus in the rat brain, and its level is significantly reduced following fasting. Intracerebroventricular administration of NMU markedly suppresses food intake in rats. These findings provide a molecular basis for the biochemical activities of NMU and may indicate that NMU is involved in the central control of feeding.

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Kevin R. Lynch

The Immune Modulator FTY720 Targets Sphingosine 1-Phosphate Receptors

Characterization of the human cysteinyl leukotriene CysLT1 receptor

Characterization of the Human Cysteinyl Leukotriene 2 Receptor

Regulation of learning and memory by meningeal immunity: a key role for IL-4

Identification of receptors for neuromedin U and its role in feeding

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