94 research outputs found
The Dynamic Processing of CD46 Intracellular Domains Provides a Molecular Rheostat for T Cell Activation
Adequate termination of an immune response is as important as the induction of an appropriate response. CD46, a regulator of complement activity, promotes T cell activation and differentiation towards a regulatory Tr1 phenotype. This Tr1 differentiation pathway is defective in patients with MS, asthma and rheumatoid arthritis, underlying its importance in controlling T cell function and the need to understand its regulatory mechanisms. CD46 has two cytoplasmic tails, Cyt1 and Cyt2, derived from alternative splicing, which are co-expressed in all nucleated human cells. The regulation of their expression and precise functions in regulating human T cell activation has not been fully elucidated.Here, we first report the novel role of CD46 in terminating T cell activation. Second, we demonstrate that its functions as an activator and inhibitor of T cell responses are mediated through the temporal processing of its cytoplasmic tails. Cyt1 processing is required to turn T cell activation on, while processing of Cyt2 switches T cell activation off, as demonstrated by proliferation, CD25 expression and cytokine secretion. Both tails require processing by Presenilin/γSecretase (P/γS) to exert these functions. This was confirmed by expressing wild-type Cyt1 and Cyt2 tails and uncleavable mutant tails in primary T cells. The role of CD46 tails was also demonstrated with T cells expressing CD19 ectodomain-CD46 C-Terminal Fragment (CTF) fusions, which allowed specific triggering of each tail individually.We conclude that CD46 acts as a molecular rheostat to control human T cell activation through the regulation of processing of its cytoplasmic tails
Developmental perspectives on interpersonal affective touch
In the last decade, philosophy, neuroscience and psychology alike have paid increasing attention to the study of interpersonal affective touch, which refers to the emotional and motivational facets of tactile sensation. Some aspects of affective touch have been linked to a neurophysiologically specialised system, namely the C tactile (CT) system. While the role of this sys-tem for affiliation, social bonding and communication of emotions have been widely investigated, only recently researchers have started to focus on the potential role of interpersonal affective touch in acquiring awareness of the body as our own, i.e. as belonging to our psychological ‘self’. We review and discuss recent developmental and adult findings, pointing to the central role of interpersonal affective touch in body awareness and social cognition in health and disorders. We propose that interpersonal affective touch, as an interoceptive modality invested of a social nature, can uniquely contribute to the ongoing debate in philosophy about the primacy of the relational nature of the minimal self
The integrity of the cholecystokinin receptor gene in gallbladder disease and obesity.
Cholesterol gallstone disease and obesity are common and often associated disorders that could be affected by dysfunction of the receptor for cholecystokinin (CCK). Extending earlier studies that identified a defect at the level of receptor-G protein coupling in cholesterol gallstone disease, we characterized the primary structure of the gallbladder CCK receptor in patients undergoing a cholecystectomy. Represented were patients with cholesterol gallstones, as well as controls with pigment gallstones or without gallbladder disease. Both groups were composed of the range of body habitus from lean to morbidly obese. No evidence of any sequence mutation or polymorphism in the CCK receptor gene was found in any patient. This should lead future investigations of the pathogenesis of these problems toward the possible contribution of the plasmalemmal environment in affecting the association between normal receptors and G proteins
T-bet is essential for the progression of experimental autoimmune encephalomyelitis
Experimental autoimmune encephalomyelitis (EAE) is mediated by myelin-specific CD4(+) T helper 1 (Th1) cells, while recovery from the disease is associated with the presence of Th2 cells. Here we used animals with targeted deletion of the T-bet gene to determine its role in the progression of EAE. T-bet regulates the production of interferon-γ (IFN-γ) in CD4(+) and natural killer cells, and CD4(+) T cells from T-bet-deficient mice were unable to differentiate into a Th1 phenotype. Moreover BALB/c mice deficient in T-bet were resistant to the induction of EAE disease, with minimal inflammatory infiltrates in the central nervous system. These mice were resistant to EAE induction even when PLP((180−199)) peptide specific effector T cells from BALB/c wild type were transferred to BALB/c T-bet-deficient mice. This resistance to EAE is may be caused by the production of the anti-inflammatory cytokine interleukin-10 (IL-10) from the spleen cells upon ex vivo stimulation with PLP((180−199)) peptide and in vivo presence in the central nervous system. There was no difference in the recall responses in spleen cells from T-bet-deficient and wild type mice; however, less secretion of IFN-γ was observed from primed splenocytes. The expression of IFN-γ was less in the central nervous system of T-bet-deficient mice whereas IL-10 was significantly higher in T-bet-deficient as compared to wild type mice. These data indicate that T-bet genes play a critical role in maintaining the encephalitogenic nature of CD4(+) T cells in autoimmune responses during EAE disease progression
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