Exercise Alters FBF1-Regulated Novel-miRNA-1135 Associated with Hydrolethalus Syndrome 1 in Rheumatoid Arthritis: A Preliminary Study.

MicroRNA (Shariqah, United Arab Emirates) Pub Date : 2024-07-03 DOI:10.2174/0122115366294831240606115216

Vimolmas Tansathitaya, Witchana Sarasin, Tanapati Phakham, Vorthon Sawaswong, Prangwalai Chanchaem, Sunchai Payungporn

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Abstract

Background: Hydrolethalus Syndrome 1 (HYDS1) is a rare disorder that occurs commonly in Finnish infants but originates from the mother. This autosomal recessive syn-drome is associated with the FBF1, which is usually expressed in the centriole. The FBF1 is an inheritable arthritis disease phenotype that includes rheumatoid arthritis. Several studies have investigated males with FBF1 mutation carriers also related to arthritis diseases, including those under rheumatoid arthritis conditions, which revealed the possibility of conferring the gene mutation to the next generation of offspring. Nonetheless, there are some complications of FBF1 mutation with target miRNAs that can be affected by exercise.

Objective: The objective of this study was to evaluate the different exercises that can be utilized to suppress the FBF1 mutation targeted by Novel-rno-miRNAs-1135 as a biomarker and assess the effectiveness of exercise in mitigating the FBF1 mutation.

Methods: Four exercise interventional groups were divided into exercise and non-exercise groups. One hundred microliter pristane-induced arthritis (PIA) was injected at the dorsal re-gion of the tails of rodents and introduced to the two PIA interventional groups. On day forty-five, all animals were euthanized, and total RNA was extracted from the blood samples of ro-dents, while polymerase chain reaction (PCR) was amplified by using 5-7 primers. Computeri-zation was used for miRNA regulation and analysis of target gene candidates.

Results: The novel-rno-miRNA-1135 was downregulated to FBF1 in exercise groups. The exercise was found to have no significant impact in terms of change in novel-rno-miRNA-1135 regulation of FBF1 expression.

Conclusion: Exercise has no impact on novel-rno-miRNA-1135 targeted for FBF1 in autoso-mal recessive disease.

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运动可改变类风湿性关节炎患者与水肿综合征 1 相关的 FBF1 调节的新型 miRNA-1135：初步研究

背景：水瘤综合征 1（Hydrolethalus Syndrome 1，HYDS1）是一种罕见的疾病，常见于芬兰婴儿，但遗传自母亲。这种常染色体隐性遗传综合征与 FBF1 有关，FBF1 通常在中心粒中表达。FBF1 是一种可遗传的关节炎疾病表型，包括类风湿性关节炎。有几项研究对 FBF1 基因突变携带者的男性进行了调查，这些携带者也与关节炎疾病有关，其中包括类风湿性关节炎患者，这些研究揭示了将基因突变遗传给下一代的可能性。然而，FBF1 基因突变与目标 miRNAs 之间存在一些并发症，运动会对其产生影响：本研究的目的是评估可用于抑制作为生物标记物的 Novel-rno-miRNAs-1135 靶向 FBF1 基因突变的不同运动，并评估运动对减轻 FBF1 基因突变的效果：方法：四个运动干预组分为运动组和非运动组。方法：四个运动干预组分为运动组和非运动组，在啮齿动物的尾部背侧区域注射 100 微升普里斯坦诱导的关节炎（PIA），并将其引入两个 PIA 干预组。第 45 天，所有动物安乐死，从啮齿动物的血样中提取总 RNA，并使用 5-7 种引物进行聚合酶链反应（PCR）扩增。结果表明，新-no-miRNA对啮齿类动物的调控和靶基因候选分析具有重要意义：结果：在运动组中，novel-rno-miRNA-1135下调至FBF1。结论：运动对新miRNA-1135调控FBF1的表达没有显著影响：结论：运动对自体隐性疾病中 FBF1 靶向的 novel-rno-miRNA-1135 没有影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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MicroRNA (Shariqah, United Arab Emirates) Medicine-Medicine (all)

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