1.The level of miR-326 was significantly higher in Treg cells from SLE patients [1.98(0.592,6.148)] than that in healthy controls [0.921(0.345, 1.879)] (p = 0.032).
3H - TdR incorporation of SLE B cells without stimuli (P<0.001) and with CD40L-LZ stimulation (P<0.05) were significantly lower in SLE patients compared with normal controls.
SLE and normal T cells pretreated with estradiol and cultured with ionomycin for 2 h to activate calcineurin showed no significant differences in CD40L mRNA.
SLE sera positive for HMG-17 had also cross reactivity with H1, and following the same procedure as before we received HMG-17 specific SLE autoantibodies and anti-HMG-17/H1 autoantibodies.
SLE complicated with infections have higher OAS1 expression level (P=0.002), lower OASL (P=0.004), and equivalent OAS2 (P=0.135), when compared with those of normal controls.
SLE synovial biopsy tissue displayed a significant down-regulation of genes involved in extracellular matrix (ECM) homeostasis and a significant up-regulation of interferon-inducible (IFI) genes.
SLE phenotypes were stratified according to the MEX-SLEDAI scores into two subgroups (<or=10 and >10), and then according to renal disorder and neurological disorder, aiming to minimize any loss of power associated with disease heterogeneity.
SLE T cells express high levels of calcium/calmodulin-dependent protein kinase type IV (CaMKIV), which translocates to the nucleus upon engagement of the T cell receptor-CD3 complex and accounts for abnormal T cell function.
SLE NETs contain DNA as well as large amounts of LL37 and HMGB1, neutrophil proteins that facilitate the uptake and recognition of mammalian DNA by plasmacytoid DCs (pDCs).