Department of Clinical and Experimental Medicine, University Hospital, I‑98125 Messina, Italy.
Department of Clinical and Molecular Medicine, Sapienza University, I‑00189 Rome, Italy.
Int J Mol Med. 2021 Jun;47(6). doi: 10.3892/ijmm.2021.4940. Epub 2021 Apr 28.
The biological abilities of interleukin‑6 (IL‑6) have been under investigation for nearly 40 years. IL‑6 works through an interaction with the complex peptide IL‑6 receptor (IL‑6R). IL‑6 is built with four α‑chain nanostructures, while two different chains, IL‑6Rα (gp80) and gp130/IL6β (gp130), are included in IL‑6R. The three‑dimensional shapes of the six chains composing the IL‑6/IL‑6R complex are the basis for the nanomolecular roles of IL‑6 signalling. Genes, pseudogenes and competitive endogenous RNAs of IL‑6 have been identified. In the present review, the roles played by miRNA in the post‑transcriptional regulation of IL‑6 expression are evaluated. mRNAs are absorbed via the 'sponge' effect to dynamically balance mRNA levels and this has been assessed with regard to IL‑6 transcription efficiency. According to current knowledge on molecular and nanomolecular structures involved in active IL‑6 signalling, two different IL‑6 models have been proposed. IL‑6 mainly has functions in inflammatory processes, as well as in cognitive activities. Furthermore, the abnormal production of IL‑6 has been found in patients with severe acute respiratory syndrome coronavirus 2 (SARS‑CoV‑2; also known as COVID‑19). In the present review, both inflammatory and cognitive IL‑6 models were analysed by evaluating the cytological and histological locations of IL‑6 signalling. The goal of this review was to illustrate the roles of the classic and trans‑signalling IL‑6 pathways in endocrine glands such as the thyroid and in the central nervous system. Specifically, autoimmune thyroid diseases, disorders of cognitive processes and SARS‑CoV‑2 virus infection have been examined to determine the contribution of IL‑6 to these disease states.
白细胞介素-6(IL-6)的生物学功能已经研究了近 40 年。IL-6 通过与复杂的肽 IL-6 受体(IL-6R)相互作用发挥作用。IL-6 由四个α-链纳米结构组成,而 IL-6R 包含两种不同的链,即 IL-6Rα(gp80)和 gp130/IL6β(gp130)。构成 IL-6/IL-6R 复合物的六种链的三维形状是 IL-6 信号转导的纳米分子作用的基础。已经鉴定了 IL-6 的基因、假基因和竞争内源性 RNA。在本综述中,评估了 miRNA 在 IL-6 表达的转录后调控中的作用。通过“海绵”效应吸收 mRNA,以动态平衡 mRNA 水平,并评估了这对 IL-6 转录效率的影响。根据目前关于参与活性 IL-6 信号转导的分子和纳米分子结构的知识,提出了两种不同的 IL-6 模型。IL-6 主要在炎症过程以及认知活动中发挥作用。此外,在严重急性呼吸综合征冠状病毒 2(SARS-CoV-2;也称为 COVID-19)患者中发现了 IL-6 的异常产生。在本综述中,通过评估 IL-6 信号的细胞学和组织学位置,分析了炎症和认知 IL-6 模型。本综述的目的是说明经典和转信号 IL-6 途径在甲状腺等内分泌腺以及中枢神经系统中的作用。具体而言,检查了自身免疫性甲状腺疾病、认知过程障碍和 SARS-CoV-2 病毒感染,以确定 IL-6 对这些疾病状态的贡献。
