A growing number of studies have suggested microRNAs (miRNAs) are involved in the modulation of myocardial ischemia-reperfusion (MI/R) injury; however, the role of endogenous miRNAs targeting endothelial cells (ECs) and its interaction with ICAM-1 in the setting of MI/R remain poorly understood. Our microarray results showed that miR-146a, miR-146b-5p, miR-155*, miR-155, miR-497, and miR-451 were significantly upregulated, whereas, miR-141 and miR-564 were significantly downregulated in the ECs challenged with TNF-α for 6 h. Real-time PCR analyses additionally validated that the expression levels of miR-146a, miR-155*, and miR-141 were consistent with the microarray results. Then, ICAM-1 was identified as a novel target of miR-141 by Target Scan software and the reporter gene system. Further functional experiments showed that elevated levels of miR-141 inhibited ICAM-1 expression and diminished leukocytes adhesion to ECs in vitro. In an in vivo murine model of MI/R injury, pretreatment with miR-141 mimics through the tail vein downregulated the expression level of ICAM-1 in heart and attenuated MI/R injury as evidenced by decreased infarct size and decline of serum cardial troponin I (cTnI) and lactate dehydrogenase (LDH) concentration. The cardioprotective effects of miR-141 mimics may be attributed to the decreased infiltration of CD11b(+) cells and F4/80(+) macrophages into ischemic myocardium tissue. In conclusion, our results demonstrate that miR-141, as a novel repressor of ICAM-1, is involved in the attenuation of MI/R injury via antithetical regulation of ICAM-1 and inflammatory cells infiltration. Thus miR-141 may constitute a new therapeutic target in the setting of ischemic heart disease.
Low back pain (LBP) is a common worldwide disease that causes an enormous social economic burden. Intervertebral disc degeneration (IDD) is considered as a major cause of LBP. The process of IDD is complicated and involves both inflammation and senescence. The production of pro-inflammatory cytokines, including tumor necrosis factor (TNF)α and interleukin (IL)-1β, is increased in the degenerating intervertebral disc, inducing extracellular matrix degradation. Urolithin A (UA) is a metabolite compound resulting from the degradation of ellagitannins by gut bacteria. UA has been reported to be useful for the treatment of diseases associated with inflammation, senescence, and oxidative damage. Therefore, we hypothesized that UA may be an effective treatment for IDD. This study examined the effects of UA on IDD in vitro and in vivo and explored their underlying mechanisms. Our findings indicated that UA could attenuate cellular senescence induced by hydrogen peroxide in nucleus pulposus cells. UA treatment decreased TNFα-induced matrix metalloproteinase production and the loss of collagen II. At the molecular level, UA considerably blocked the phosphorylation of the extracellular signal-regulated kinase, c-JUN N-terminal kinase, and Akt pathways. In vivo study illustrated that UA treatment could ameliorate IDD in a needle-punctured rat tail model, which was evaluated by X-ray imaging, magnetic resonance imaging, and histological analysis. Thus, the results of our study revealed that UA may be a useful therapeutic agent for the treatment of IDD.
Intervertebral disc degeneration (IVDD) is the pathological basis of disc herniation, spinal stenosis, and other related diseases, and the lower back pain it produces lays a heavy financial burden on individuals and society. Thus, it is essential to comprehend IVDD's pathophysiology. Numerous factors, such as inflammatory factors, oxidative stress, apoptosis, matrix metalloproteinases, are linked to IVDD pathogenesis.Despite the fact that many researches has provided explanations for the pathophysiology of IVDD, these studies are typically singular, restricted, and isolated, expound only on one or two components, and do not systematically analyze and summarize the numerous influencing elements. In addition, we discovered that the incidence of many chronic diseases in the field of orthopedics may be thoroughly and systematically defined in terms of immunological systems. In order to provide a theoretical foundation for an in-depth understanding of the pathological process of IVDD and the formulation of more effective prevention and treatment measures, this review provides a comprehensive and systematic account of the pathogenesis of IVDD from the physical to the molecular barriers of the intervertebral disc, from the nucleus pulposus tissue to the cellular to the immune-molecular level.
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