Familial Mediterranean fever (FMF); is an autosomal recessively inherited autoinflammatory disease caused by the mutations in the Mediterranean Fever (MEFV) gene. Recent studies have shown that epigenetic control mechanisms, particularly non-coding RNAs, may play a role in the pathogenesis of autoinflammation. microRNAs (miRNAs) are small non-coding RNAs that play critical roles in regulating host gene expression at the post-transcriptional level. The phenotypic heterogeneity of FMF disease suggests that FMF may not be a monogenic disease, suggesting that epigenetic factors may affect phenotypic presentation. Here we examined the potential anti-inflammatory effect of miR-197-3p, which is a differentially expressed miRNA in FMF patients, by using inflammation related functional assays. We monitored gene expression levels of important cytokines, as well as performed functional studies on IL-1β secretion, caspase-1 activation, apoptosis assay, and cell migration assay. These experiments were used to evaluate the different stages of inflammation following pre-miR-197 transfection. Anti-miR-197 transfections were performed to test the opposite effect. 3′UTR luciferase activity assay was used for target gene studies. Our results obtained by inflammation-related functional assays demonstrated an anti-inflammatory effect of miR-197-3p in different cell types (synovial fibroblasts, monocytes, macrophages). 3′UTR luciferase activity assay showed that miR-197-3p directly binds to the interleukin-1beta (IL-1β) receptor, type I (IL1R1) gene, which is one of the key molecules of the inflammatory pathways. This study may contribute to understand the role of miR-197-3p in autoinflammation process. Defining the critical miRNAs may guide the medical community in a more personalized medicine in autoinflammatory diseases.
Introduction. The coronavirus disease 2019 (COVID-19), that is caused by severe acute respiratory syndrome corona virus 2 (SARS-CoV-2), has spread rapidly worldwide since December 2019. The SARS-CoV-2 virus has a great affinity for the angiotensin-converting enzyme-2 (ACE-2) receptor, which is an essential element of the renin-angiotensin system (RAS). This study is aimed at assessing the impact of the angiotensin-converting enzyme (ACE) gene insertion (I)/deletion (D) polymorphisms, on the susceptibility and clinical outcomes of the COVID-19 immunoinflammatory syndrome. Patients and Methods. A total of 112 patients diagnosed with COVID-19 between 1 and 15 May 2020 were enrolled in the study. ACE gene allele frequencies were compared to the previously reported Turkish population comprised of 300 people. Results. The most common genotype in the patients and control group was DI with 53% and II with 42%, respectively. The difference in the presence of the D allele between the patient and control groups was statistically significant (67% vs. 42%, respectively,
p
<
0.0001
). Severe pneumonia was observed more in patients with DI allele (31%) than DD (8%) and II (0%) (
p
=
0.021
). The mortality rate, time to defervescence, and the hospitalization duration were not different between the genotype groups. Conclusion. Genotype DI of ACE I/D polymorphism is associated with the infectious rate particularly severe pneumonia in this study conducted in the Turkish population. Therefore, ACE D/I polymorphism could affect the clinical course of COVID-19.
Objective. Systemic autoinflammatory diseases (SAIDs) are caused by the malfunctioning of the innate immune system factors. Clinical heterogeneity and undefined pathobiology are common phenomena among SAIDs. In this study, we aimed to assess the involvement of microRNAs in regulating these complex diseases.
Methods. The expression pattern of different miRNAs was compared between SAID patients with high auto-inflammatory disease activity index (AIDAI) score and with low AIDAI score, and their role in inflammation-related pathways was investigated. Differentially expressed miRNAs were determined using the Multi Experiment Viewer (MEV) and Transcriptome Analysis Console(TAC) analysis tools using miRNA microarray. Potential targets of miRNAs were enriched for inflammation-related genes and validated using qRT-PCR analysis. Results. Upon performing microarray analysis, 40 differentially expressed miRNAs were identified between mild familial Mediterranean fever (FMF) patients and severe SAID patients. Thereafter, 21 of 40 miRNAs were found to be potentially involved in inflammatory pathways, of which, 8 were further validated through qRT-PCR. The targets of these 8 miRNAs (miR-29b-3p, miR-29c-3p, miR-30e-3p, miR-130b-3p, miR-148a-3p, miR-186-5p, miR-197-3p, and miR-374b-5p) belonged to the inflammation-related genes and pathways. Conclusion. This is the first study to identify miRNAs that might be associated with a more severe disease form of monogenic autoinflammatory diseases.All these miRNAs were associated with cytokine-mediated pathways and might be used for establishing diagnostic and therapeutic methods.
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