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Query: UMLS:C0003864 (
arthritis
)
69,039
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Systemic lupus erythematosus and its murine equivalent, modelled in the New Zealand Black and New Zealand White (NZB x NZW)F1 hybrid strain, are polygenic inflammatory diseases, probably reflecting an autoimmune response to debris from cells undergoing programmed cell death. Several human and murine loci contributing to disease have been defined. The present study asks whether the proinflammatory purinergic receptor P2X7, an initiator of a form of programmed cell death known as aponecrosis, is a candidate product of murine and human lupus susceptibility loci. One such locus in (NZB x NZW)F1 mice is lbw3, which is situated at the distal end of NZW chromosome 5. We first assess whether NZB mice and NZW mice carry distinct alleles of the
P2RX7
gene as expressed by common laboratory strains, which differ in sensitivity to ATP stimulation. We then compare the responses of NZB lymphocytes, NZW lymphocytes and (NZB x NZW)F1 lymphocytes to P2X7 stimulation. NZB and NZW parental strains express the distinct P2X7-L and P2X7-P alleles of
P2RX7
, respectively, while lymphocytes from these and (NZB x NZW)F1 mice differ markedly in their responses to P2X7 receptor stimulation. NZB mice and NZW mice express functionally distinct alleles of the proinflammatory receptor, P2X7. We show that current mapping suggests that murine and human
P2RX7
receptor genes lie within lupus susceptibility loci lbw3 and SLEB4, and we argue that these encode a product with the functional characteristics consistent with a role in lupus. Furthermore, we argue that aponecrosis as induced by P2X7 is a cell death mechanism with characteristics that potentially have particular relevance to disease pathogenesis.
Arthritis
Res Ther 2005
PMID:The P2X7 receptor is a candidate product of murine and human lupus susceptibility loci: a hypothesis and comparison of murine allelic products. 1589 33
Nucleotide receptors serve as sensors of extracellular ATP and are important for immune function. The nucleotide receptor
P2RX7
is a cell-surface, ligand-gated cation channel that has been implicated in many diseases, including
arthritis
, granuloma formation, sepsis, and tuberculosis. These disorders are often exacerbated by excessive mediator release from activated macrophages in the inflammatory microenvironment. Although
P2RX7
activation can modulate monocyte/macrophage-induced inflammatory events, the relevant molecular mechanisms are poorly understood. Previous studies suggest that MAPK cascades and transcriptional control via CREB-linked pathways regulate the inflammatory capacity of monocytic cells. As
P2RX7
promotes MAPK activation and inflammatory mediator production, we examined the involvement MAPK-induced CREB activation in
P2RX7
action. Our data reveal that stimulation of multiple monocytic cell lines with
P2RX7
agonists induces rapid CREB phosphorylation. In addition, we observed a lack of nucleotide-induced CREB phosphorylation in RAW 264.7 cells expressing nonfunctional
P2RX7
and a gain of nucleotide-induced CREB phosphorylation in human embryonic kidney-293 cells that heterologously express human
P2RX7
. Furthermore, our results indicate that
P2RX7
agonist-induced CREB phosphorylation is partly mediated via Ca(2+) fluxes and the MEK/ERK system. Mechanistic analyses revealed that macrophage stimulation with a
P2RX7
agonist induces CREB/CREB-binding protein complex formation, which is necessary for CREB transcriptional activation. Also, we demonstrate that
P2RX7
activation induces a known CREB-dependent gene (c-fos) and that dominant-negative CREB constructs attenuate this response. These studies support the idea that
P2RX7
stimulation can directly regulate protein expression that is not dependent on costimulation with other immune modulators such as LPS.
...
PMID:The nucleotide receptor P2RX7 mediates ATP-induced CREB activation in human and murine monocytic cells. 1862 10
Rheumatoid arthritis (RA) is an autoimmune disease that affects ~1% of the world's population. B cells and autoantibodies play an important role in the pathogenesis of RA. The
P2RX7
receptor is an ATP-gated cation channel and its activation results in the release of pro-inflammatory molecules. Thus, antagonists of
P2RX7
have been considered to have potential as novel anti-inflammatory therapies. Although originally identified for its role in innate immunity,
P2RX7
has recently been found to negatively control Peyer's patches (PP) T follicular helper cells (Tfh), which specialize in helping B cells, under homeostatic conditions. We have previously demonstrated that PP Tfh cells are required for the augmentation of autoimmune
arthritis
mediated by gut commensal segmented filamentous bacteria (SFB). Thus, we hypothesized that
P2RX7
is required to control autoimmune disease by keeping the Tfh cell response in check. To test our hypothesis, we analyzed the impact of
P2RX7
deficiency
in vivo
using both the original K/BxN autoimmune
arthritis
model and T cell transfers in the K/BxN system. We also examined the impact of
P2RX7
ablation on autoimmune development in the presence of the gut microbiota SFB. Our data illustrate that contrary to exerting an anti-inflammatory effect,
P2RX7
deficiency actually enhances autoimmune
arthritis
. Interestingly, SFB colonization can negate the difference in disease severity between WT and
P2RX7
-deficient mice. We further demonstrated that
P2RX7
ablation in the absence of SFB caused reduced apoptotic Tfh cells and enhanced the Tfh response, leading to an increase in autoantibody production. It has been shown that activation of TIGIT, a well-known T cell exhaustion marker, up-regulates anti-apoptotic molecules and promotes T cell survival. We demonstrated that the reduced apoptotic phenotype of
P2rx7
-/-
Tfh cells is associated with their increased expression of TIGIT. This suggested that while
P2RX7
was regulating the Tfh population by promoting cell death, TIGIT may have been opposing
P2RX7
by inhibiting cell death. Together, these results demonstrated that systemic administration of general
P2RX7
antagonists may have detrimental effects in autoimmune therapies, especially in Tfh cell-dependent autoimmune diseases, and cell-specific targeting of
P2RX7
should be considered in order to achieve efficacy for
P2RX7
-related therapy.
...
PMID:P2RX7 Deletion in T Cells Promotes Autoimmune Arthritis by Unleashing the Tfh Cell Response. 3094 63
One of the main risk factors for brain diseases is aging. Recent studies have shown that aging is a progressive degenerative process associated with chronic low-level inflammation. The ATP-gated P2X7 receptor (P2X7R) plays an important role in inflammation and has been associated with different brain (e.g., Alzheimer's and Parkinson's) or other age-related (osteoporosis,
arthritis
, cancer) diseases. Several single nucleotide polymorphisms (SNPs) in the
P2RX7
gene have been identified, including the loss-of-function 1513A>C and 1405A>G SNPs, and the gain-of-function 489C>T and 1068G>A SNPs. We carried out a literature analysis to verify an association between
P2RX7
SNPs' frequency and age. In 34 worldwide eligible studies (11.858 subjects) no correlation between 1513CC genotype frequency and age emerged. On the contrary, analysis of European Caucasian cohorts (7.241 subjects) showed a significant increase in 1513CC frequency with age (
P
= 0.027). In agreement with these findings, analysis of two publicly available datasets, including USA Caucasian cohorts, unveiled an increased frequency of 1513CC and 489CC genotypes with age (
P
= 0.0055 and
P
= 0.0019, respectively). Thus, hypomorphic
P2RX7
genotypes may be positively selected with age in European and North American Caucasian populations. We hypothesize that Caucasian individuals bearing an anti-inflammatory P2X7R phenotype and living in high-income countries may have a longer life expectancy.
...
PMID:Association of Hypomorphic P2X7 Receptor Genotype With Age. 3211 43
