Maria Stella Lombardi scite author profile

Beta2-Adrenergic and chemokine receptor antagonists delay the onset and reduce the severity of joint injury in rheumatoid arthritis. beta2-Adrenergic and chemokine receptors belong to the G-protein-coupled receptor family whose responsiveness is turned off by the G-protein-coupled receptor kinase family (GRK-1 to 6). GRKs phosphorylate receptors in an agonist-dependent manner resulting in receptor/G-protein uncoupling via subsequent binding of arrestin proteins. We assessed the activity of GRKs in lymphocytes of rheumatoid arthritis (RA) patients by rhodopsin phosphorylation. We found a significant decrease in GRK activity in RA subjects that is mirrored by a decrease in GRK-2 protein expression. Moreover, GRK-6 protein expression is reduced in RA patients whereas GRK-5 protein levels were unchanged. In search of an underlying mechanism, we demonstrated that proinflammatory cytokines induce a decrease in GRK-2 protein levels in leukocytes from healthy donors. Since proinflammatory cytokines are abundantly expressed in RA, it may provide an explanation for the decrease in GRK-2 expression and activity in patients. No changes in beta2-adrenergic receptor number and Kd were detected. However, RA patients showed a significantly increased cAMP production and inhibition of TNF-alpha production by beta2-adrenergic stimulation, suggesting that reduced GRK activity is associated with increased sensitivity to beta2-adrenergic activation.

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A majority of Huntington's disease patients may be treatable by individualized allele-specific RNA interference

Lombardi

Jaspers

Spronkmans

et al. 2009

Experimental Neurology

113

119

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G Protein-Coupled Receptor Kinase 2 in Multiple Sclerosis and Experimental Autoimmune Encephalomyelitis

et al. 2005

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Many modulators of inflammation, including chemokines, neuropeptides, and neurotransmitters signal via G protein-coupled receptors (GPCR). GPCR kinases (GRK) can phosphorylate agonist-activated GPCR thereby promoting receptor desensitization. Here we describe that in leukocytes from patients with active relapsing-remitting multiple sclerosis (MS) or with secondary progressive MS, GRK2 levels are significantly reduced. Unexpectedly, cells from patients during remission express even lower levels of GRK2. The level of GRK2 in leukocytes of patients after stroke, a neurological disorder with paralysis but without an autoimmune component, was similar to GRK2 levels in cells from healthy individuals. In addition, we demonstrate that the course of recombinant myelin oligodendrocyte glycoprotein (1–125)-induced experimental autoimmune encephalomyelitis (EAE), an animal model for MS, is markedly different in GRK2+/− mice that express 50% of the GRK2 protein in comparison with wild-type mice. Onset of EAE was significantly advanced by 5 days in GRK2+/− mice. The earlier onset of EAE was associated with increased early infiltration of the CNS by T cells and macrophages. Although disease scores in the first phase of EAE were similar in both groups, GRK2+/− animals did not develop relapses, whereas wild-type animals did. The absence of relapses in GRK2+/− mice was associated with a marked reduction in inflammatory infiltrates in the CNS. Recombinant myelin oligodendrocyte glycoprotein-induced T cell proliferation and cytokine production were normal in GRK2+/− animals. We conclude that down-regulation of GRK2 expression may have important consequences for the onset and progression of MS.

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Cloning of GPR37, a Gene Located on Chromosome 7 Encoding a Putative G-Protein-Coupled Peptide Receptor, from a Human Frontal Brain EST Library

et al. 1997

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Adjuvant Arthritis Induces Down-Regulation of G Protein-Coupled Receptor Kinases in the Immune System

et al. 2001

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G protein-coupled receptors (GPCR) play a crucial role in the regulation of the immune response by, e.g., chemokines, PGs, and β2-adrenergic agonists. The responsiveness of these GPCRs is turned off by the family of G protein-coupled receptor kinases (GRK1–6). These kinases act by phosphorylating the GPCR in an agonist-dependent manner, resulting in homologous desensitization of the receptor. Although GRKs are widely expressed throughout the body, leukocytes express relatively high levels of GRKs, in particular GRK2, -3, and -6. We investigated whether in vivo the inflammatory disease adjuvant arthritis (AA) induces changes in GRK expression and function in the immune system. In addition, we analyzed whether the systemic effects of AA also involve changes in GRKs in nonimmune organs. At the peak of the inflammatory process, we observed a profound down-regulation of GRK2, -3, and -6 in splenocytes and mesenteric lymph node cells from AA rats. Interestingly, no changes in GRK were observed in thymocytes and in nonimmune organs such as heart and pituitary. During the remission phase of AA, GRK levels in spleen and mesenteric lymph nodes are returning to baseline levels. The decrease in GRK2 at the peak of AA is restricted to CD45RA+ B cells and CD4+ T cells, and was not observed in CD8+ T cells. In conclusion, we demonstrate in this study, for the first time, that an inflammatory process in vivo induces a tissue-specific down-regulation of GRKs in the immune system.

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