Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0024141 (
systemic lupus erythematosus
)
44,322
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
T cells from
lupus
patients have hypomethylated DNA and overexpress genes normally suppressed by DNA methylation that contribute to disease pathogenesis. We found that stimulatory and inhibitory killer cell Ig-like receptor (KIR) genes are aberrantly overexpressed on experimentally demethylated T cells. We therefore asked if
lupus
T cells also overexpress KIR, and if the proteins are functional. T cells from
lupus
patients were found to overexpress KIR genes, and expression was proportional to disease activity. Abs to the stimulatory molecule
KIR2DL4
triggered IFN-gamma release by
lupus
T cells, and production was proportional to disease activity. Similarly, cross-linking the inhibitory molecule KIR3DL1 prevented the autoreactive macrophage killing that characterizes
lupus
T cells. These results indicate that aberrant T cell KIR expression may contribute to IFN overproduction and macrophage killing in human
lupus
, and they suggest that Abs to inhibitory KIR may be a treatment for this disease.
...
PMID:Stimulatory and inhibitory killer Ig-like receptor molecules are expressed and functional on lupus T cells. 1967 66
Systemic lupus erythematosus
(
SLE
) is a chronic autoimmune disorder of an unclearly determined etiology. Past studies, both epidemiological and biological, have implicated epigenetic influences in disease etiology and pathogenesis. Epigenetics describes changes in gene expression not linked to alterations in the underlying genomic sequence, and is most often typified by three modifications: methylation of DNA, addition of various side chains to histone groups and transcriptional regulation via short ncRNA sequences. The purpose of this article is to review the most important advances that link epigenetic changes to
lupus
. The contribution of DNA methylation changes to
lupus
pathogenesis is discussed. These include the role of apoptotic DNA, ultraviolet radiation, endogenous retroviruses, dietary contributions and aging. Hypomethylation of specific genes overexpressed in
lupus
T cells such as ITGAL (CD11a), CD40LG (CD40L), TNFSF7 (CD70),
KIR2DL4
and PRF1 (perforin), and CD5 in
lupus
B cells seem to play an important role. Moreover, histone modifications such as increased global H4 acetylation in monocytes are highly associated with
SLE
. NcRNAs, especially miR-21, miR-148a and miR-126, control other elements of epigenetic regulation; particularly, transcription of the maintenance DNA methylation enzyme DNMT1. Epigenetic contributions to
SLE
etiology have been well established, but much is still unknown. Epigenome-wide studies coupled with functional analysis of the epigenomic changes discovered will uncover novel pathways important in disease pathogenesis. Epigenetic therapies for
SLE
may be feasible in the future, particularly if they are designed to target specific regions within the genome.
...
PMID:Epigenetics in systemic lupus erythematosus: leading the way for specific therapeutic agents. 2218 3
Lupus
is less common in men than women, and the reason is incompletely understood. Current evidence indicates that
lupus
flares when genetically predisposed individuals encounter environmental agents that trigger the disease, and that the environmental contribution is mediated at least in part by T cell DNA demethylation. We hypothesized that
lupus
disease activity is directly related to total genetic risk and inversely related to T cell DNA methylation levels in each patient. Since women are predisposed to
lupus
in part because of their second X chromosome, we also hypothesized that men would require a greater genetic risk, a greater degree of autosomal T cell DNA demethylation, or both, to achieve a
lupus
flare equal in severity to women. Genetic risk was determined by genotyping men and women with
lupus
across 32 confirmed
lupus
susceptibility loci. The methylation status of two autosomal genes known to demethylate in T cells in proportion to disease activity,
KIR2DL4
(
KIR
) and PRF1, was measured by bisulfite sequencing.
Lupus
disease activity was determined by the SLEDAI. Interactions between genetic score, T cell DNA demethylation, and the SLEDAI score were compared between the men and women by regression analysis. Combining the degree of DNA demethylation with the genetic risk score for each patient demonstrated that the (genetic risk)/(DNA methylation) ratio increased directly with disease activity in both men and women with
lupus
. Importantly, men required a greater (genetic risk)/(DNA methylation) ratio to achieve a SLEDAI score equivalent to women (P = 0.010 for
KIR
and P = 0.0054 for PRF1). This difference was not explained by a difference in the genetic risk or T cell DNA demethylation alone, suggesting a genetic-epigenetic interaction. These results suggest that genetic risk and T cell DNA demethylation interact in
lupus
patients to influence the severity of
lupus
flares, and that men require a higher genetic risk and/or greater degree of T cell DNA demethylation to achieve a
lupus
flare equal in severity to women.
...
PMID:Sex-specific differences in the relationship between genetic susceptibility, T cell DNA demethylation and lupus flare severity. 2230 13
Systemic Lupus Erythematosus
is an autoimmune disease with symptoms pervasive to all organ systems. It affects more females as compared to males (in the ratio 9:1). Oxidative stress plays a major role in the pathogenesis of
SLE
and other autoimmune diseases. In order to understand the relationship between cell specific oxidative stress and the severity of
SLE
, this research study involving the estimation of intracellular ROS accumulation in T and NK cell was conducted on
SLE
patients of North Indian Population. At the same time, to estimate anti-oxidant defense, Keap1 and Nrf2 levels were estimated in these cell types. The relationship between the expression of Killer immunoglobulin receptors i.e.,
KIR2DL4
& KIR3DL1 and oxidative stress was also evaluated as these receptors are imperative for the function and self-tolerance of NK cells.Oxidative stress was raised along with Keap1 and Nrf2 in T and NK cell subsets in
SLE
patients. The expression of
KIR2DL4
was raised and that of KIR3DL1 was reduced in the NK cells of patients. The intensity of change in expression and its significance varied among the subsets. Nrf2 expression was raised in these species against oxidative stress as the antioxidant defense mechanism pertaining to Keap1-Nrf2 pathway, but the adequacy of response needs to be understood in further studies. The expression of
KIR2DL4
and KIR3DL1 varied among the patient and healthy controls and the expression of the latter was found to have a significant positive relationship with plasma Glutathione(reduced) concentration.
Lupus
2020 Dec
PMID:Altered oxidative stress markers in relation to T cells, NK cells & killer immunoglobulin receptors that are associated with disease activity in SLE patients. 3299 20
