整合素αv/β5的抑制减轻了鸢尾素在出血中诱导的保护作用。

IF 2.8 4区 医学 Q2 PATHOLOGY
Lijiang Wang , Supaporn Kulthinee , John Slate-Romano , Thomas Zhao , Hamsa Shanmugam , Patrycja M Dubielecka , Ling X. Zhang , Gangjian Qin , Shougang Zhuang , Y. Eugene Chin , Ting C. Zhao
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引用次数: 0

摘要

引言:Irisin在调节组织应激、心脏功能和炎症方面发挥着重要作用。整合素αvβ5最近被鉴定为鸢尾素的受体,以引发其生理功能。目前尚不清楚整合素αvβ5是否是鸢尾素调节出血生理反应所必需的。本研究的目的是检测整合素αvβ5是否有助于鸢尾素在出血反应中的作用。方法:通过使小鼠平均动脉血压达到35-45mmHg持续1小时,然后复苏2小时来诱导小鼠出血。给予Irisin(0.5μg/kg)以评估其在出血中的药理作用。Cilengitide是一种环状Arg-Gly-Asp肽(cRGDyK),是整合素αvβ5的抑制剂,或对照RGDS(1mg/kg)与鸢尾素一起给药。在另一组小鼠中,使用CRSIPR/Cas-9基因编辑,用整合素β5 sgRNA的纳米颗粒递送敲低整合素β5后,检测了鸢尾素诱导的保护作用。分别用超声心动图和股动脉导管插入术测量心功能和血流动力学。使用酶联免疫吸附测定法(ELISA)测量全身细胞因子释放。组织学分析用于确定心肌、骨骼肌和肺组织的组织损伤。末端脱氧核苷酸转移酶dUTP缺口末端标记(TUNEL)用于评估组织中的细胞凋亡。结果:出血导致骨骼肌整合素αvβ5减少,抑制心功能和血流动力学的恢复。Irisin治疗可显著改善心功能,而Cilengitide治疗或敲低整合素β5可消除这一点。此外,鸢尾素可显著抑制肿瘤坏死因子-α(TNF-α)和白细胞介素-1(IL-1)、肌肉水肿以及心肌和骨骼肌中的炎症细胞浸润,而Cilengitide或整合素β5的敲低可减弱这种抑制作用。鸢尾素诱导的心肌、骨骼肌和肺细胞凋亡减少,通过抑制整合素αvβ5或敲低整合素β5而减弱。结论:整合素αvα5在调节出血保护作用中起重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Inhibition of integrin alpha v/beta 5 mitigates the protective effect induced by irisin in hemorrhage

Introduction

Irisin plays an important role in regulating tissue stress, cardiac function, and inflammation. Integrin αvβ5 was recently identified as a receptor for irisin to elicit its physiologic function. It remains unknown whether integrin αvβ5 is required for irisin's function in modulating the physiologic response to hemorrhage. The objective of this study is to examine if integrin αvβ5 contributes to the effects of irisin during the hemorrhagic response.

Methods

Hemorrhage was induced in mice by achieving a mean arterial blood pressure of 35–45 mmHg for one hour, followed by two hours of resuscitation. Irisin (0.5  μg/kg) was administrated to assess its pharmacologic effects in hemorrhage. Cilengitide, a cyclic Arg-Gly-Asp peptide (cRGDyK) which is an inhibitor of integrin αvβ5, or control RGDS (1 mg/kg) was administered with irisin. In another cohort of mice, the irisin-induced protective effect was examined after knocking down integrin β5 with nanoparticle delivery of integrin β5 sgRNA using CRSIPR/Cas-9 gene editing. Cardiac function and hemodynamics were measured using echocardiography and femoral artery catheterization, respectively. Systemic cytokine releases were measured using Enzyme-linked immunosorbent assay (ELISA). Histological analyses were used to determine tissue damage in myocardium, skeletal muscles, and lung tissues. Terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) was carried out to assess apoptosis in tissues.

Results

Hemorrhage induced reduction of integrin αvβ5 in skeletal muscles and repressed recovery of cardiac performance and hemodynamics. Irisin treatment led to significantly improved cardiac function, which was abrogated by treatment with Cilengitide or knockdown of integrin β5. Furthermore, irisin resulted in a marked suppression of tumor necrosis factor-α (TNF-α) and interleukin-1 (IL-1), muscle edema, and inflammatory cells infiltration in myocardium and skeletal muscles, which was attenuated by Cilengitide or knockdown of integrin β5. Irisin-induced reduction of apoptosis in the myocardium, skeletal muscles, and lung, which were attenuated by either the inhibition of integrin αvβ5, or knockdown of integrin β5.

Conclusion

Integrin αvβ5 plays an important role for irisin in modulating the protective effect during hemorrhage.

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来源期刊
CiteScore
8.90
自引率
0.00%
发文量
78
审稿时长
11.5 weeks
期刊介绍: Under new editorial leadership, Experimental and Molecular Pathology presents original articles on disease processes in relation to structural and biochemical alterations in mammalian tissues and fluids and on the application of newer techniques of molecular biology to problems of pathology in humans and other animals. The journal also publishes selected interpretive synthesis reviews by bench level investigators working at the "cutting edge" of contemporary research in pathology. In addition, special thematic issues present original research reports that unravel some of Nature''s most jealously guarded secrets on the pathologic basis of disease. Research Areas include: Stem cells; Neoangiogenesis; Molecular diagnostics; Polymerase chain reaction; In situ hybridization; DNA sequencing; Cell receptors; Carcinogenesis; Pathobiology of neoplasia; Complex infectious diseases; Transplantation; Cytokines; Flow cytomeric analysis; Inflammation; Cellular injury; Immunology and hypersensitivity; Athersclerosis.
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