ObjectiveRecent studies reported that SLE is characterised by altered interactions between the microbiome and immune system. We performed a meta-analysis of publications on this topic.MethodsCase–control studies that compared patients with SLE and healthy controls (HCs) and determined the diversity of the gut microbiota and the abundance of different microbes were examined. Stata/MP V.16 was used for the meta-analysis. A Bonferroni correction for multiple tests was used to reduce the likelihood of false-positive results.ResultsWe included 11 case–control studies that examined 373 patients with SLE and 1288 HCs. These studies were performed in five countries and nine cities. Compared with HCs, patients with SLE had gut microbiota with lower Shannon-Wiener diversity index (weighted mean difference=−0.22, 95% CI −0.32 to –0.13, p<0.001) and lower Chao1 richness (standardised mean difference (SMD)=−0.62, 95% CI −1.04 to –0.21, p=0.003). Patients with SLE had lower abundance of Ruminococcaceae (SMD = −0.49, 95% CI −0.84 to −0.15,p=0.005), but greater abundance of Enterobacteriaceae (SMD=0.45, 95% CI 0.01 to 0.89, p=0.045) and Enterococcaceae (SMD=0.53, 95% CI 0.05 to 1.01, p=0.03). However, only the results for Ruminococcaceae passed the Bonferroni correction (p=0.0071). The two groups had no significant differences in Lachnospiraceae and Bacteroides (both p>0.05). Patients with SLE who used high doses of glucocorticoids had altered gut microbiota based on the Chao1 species diversity estimator, and hydroxychloroquine use appeared to reduce the abundance of Enterobacteriaceae.ConclusionsPatients with SLE have imbalanced gut microbiota, with a decrease in beneficial bacteria and an increase in harmful bacteria. Drugs used to treat SLE may also alter the gut microbiota of these patients.
A correlation between mental illness and systemic rheumatoid arthritis (RA) has been observed in several prior investigations. However, little is known about the causative relationship between them. The present study aimed to systematically investigate the potential association between genetically determined mental illness and RA. Two-sample bidirectional Mendelian randomization (MR) analysis was performed using publicly released genome-wide association studies (GWAS). We selected independent genetic variants associated with four mental illnesses (bipolar disorder, broad depression, major depression, and anxiety) as instrumental variables. The inverse variance weighted (IVW) method was used as the primary analysis to assess the causal relationship between mental illness and RA. Results of the IVW analysis suggested that genetic predisposition to bipolar disorder was associated with a decreased risk of RA (odds ratio [OR] = 0.825, 95% CI = 0.716 to 0.95, p = 0.007). Furthermore, we did not find a significant causal effect of RA on bipolar disorder in the reverse MR analysis (p > 0.05). In addition, our study found no evidence of a bidirectional causal relationship between genetically predicted broad depression, major depression, anxiety, and RA (p > 0.05). The genetically proxied bipolar disorder population has a lower RA risk, which may indicate that there is a hidden mechanism for inhibiting the pathogenesis of RA in bipolar disorder. However, results do not support a causal connection between depression, anxiety, and RA.
Systemic lupus erythematosus (SLE) is a chronic, devastating autoimmune disorder associated with severe organ damage. The roles of Toll-like receptor 9 (TLR9) and NETosis in SLE have been described, suggesting the involvement of NETosis signaling in the development of SLE. Shaoyao-Gancao Decoction (SGT) is a potential medication for the treatment of SLE; however, its potential therapeutic mechanism remains unexplored. To determine the function of SGT in SLE, we treated MRL/lpr female mice with SGT, the main components of which were paeoniflorin (56.949 μg·mL -1) and glycyrrhizin (459.393 μg·mL -1). We found that SGT treatment relieved lymphadenectasis and splenomegaly, reduced urine protein and anti-dsDNA antibody concentrations, and relieved kidney pathology in MRL/lpr mice. SGT could also effectively regulate the oxidation/antioxidant balance, significantly reduce malondialdehyde (MDA) and nitric oxide (NO) contents and significantly increase superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) activities in MRL/lpr mice. The neutrophil extracellular trap (NET) content of MRL/lpr mice also decreased to a certain extent after SGT treatment. All these results suggested that SGT might improve the inflammatory damage to tissues caused by oxygen free radicals, thereby regulating the NETosis process mediated by TLR9 and exerting a good therapeutic effect on SLE.
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