内皮机械拉伸以性别依赖的方式调节肾内皮细胞的免疫突触界面。

IF 3.7 2区 医学 Q1 PHYSIOLOGY
C Alex Colvert, Kennedy P Hawkins, Marharyta Semenikhina, Mariia Stefanenko, Olesia Pavlykivska, Jim C Oates, Kristine Y DeLeon-Pennell, Oleg Palygin, Justin P Van Beusecum
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引用次数: 0

摘要

机械内皮细胞拉伸的增加有助于许多心血管和肾脏疾病的发展。最近的研究揭示了性别依赖性炎症在肾脏疾病发病机制中的重要性。内皮通过上调粘附分子、分泌细胞因子和趋化因子,在协调免疫细胞活化中发挥着密切而关键的作用。虽然内皮细胞不被认为是专业的抗原呈递细胞,但作为对细胞因子刺激的反应,内皮细胞可以表达主要组织相容性复合体(MHC)I和MHC II。MHCs对于在抗原呈递给适应性免疫细胞期间形成免疫突触界面的一部分至关重要。MHC I和II是否在增加的机械拉伸下增加尚不清楚。由于高血压是多因素的,我们假设增加的机械内皮拉伸以拉伸依赖的方式促进MHCs和小鼠肾内皮细胞(MREC)上的关键共刺激蛋白的调节。来源于两性的MREC经历5%、10%或15%的单轴循环拉伸,并通过免疫荧光显微镜、免疫印迹分析和RNA测序测定免疫突触界面蛋白。我们发现,增加的内皮机械拉伸条件促进了男性MREC中MHC I的下调,但在女性MREC中上调。此外,在雄性和雌性MREC中,MHC II均通过机械拉伸上调,而CD86和CD70则以性别依赖的方式调节。通过大量RNA测序,我们发现增加的机械内皮细胞拉伸促进了女性MREC中关键抗原处理和呈递基因的差异基因表达,表明女性对关键抗原呈递途径有上调作用。总之,我们的数据表明,机械内皮拉伸以性别依赖的方式调节肾内皮细胞中的内皮激活和免疫突触界面形成。新的和值得注意的内皮细胞有助于肾脏炎症的发展,并具有表达抗原呈递蛋白的独特能力。增加的内皮机械拉伸是否调节免疫突触界面蛋白仍然未知。我们发现,肾内皮细胞上的抗原呈递蛋白和共刺激蛋白通过机械拉伸以性别依赖的方式进行调节。我们的数据为肾内皮细胞在内皮机械刺激下呈递抗原的性别依赖性能力提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Endothelial mechanical stretch regulates the immunological synapse interface of renal endothelial cells in a sex-dependent manner.

Increased mechanical endothelial cell stretch contributes to the development of numerous cardiovascular and renal pathologies. Recent studies have shone a light on the importance of sex-dependent inflammation in the pathogenesis of renal disease states. The endothelium plays an intimate and critical role in the orchestration of immune cell activation through upregulation of adhesion molecules and secretion of cytokines and chemokines. While endothelial cells are not recognized as professional antigen-presenting cells, in response to cytokine stimulation, endothelial cells can express both major histocompatibility complex (MHC) I and MHC II. MHCs are essential to forming a part of the immunological synapse interface during antigen presentation to adaptive immune cells. Whether MHC I and II are increased under increased mechanical stretch is unknown. Due to hypertension being multifactorial, we hypothesized that increased mechanical endothelial stretch promotes the regulation of MHCs and key costimulatory proteins on mouse renal endothelial cells (MRECs) in a stretch-dependent manner. MRECs derived from both sexes underwent 5%, 10%, or 15% uniaxial cyclical stretch, and immunological synapse interface proteins were determined by immunofluorescence microscopy, immunoblot analysis, and RNA sequencing. We found that increased endothelial mechanical stretch conditions promoted downregulation of MHC I in male MRECs but upregulation in female MRECs. Moreover, MHC II was upregulated by mechanical stretch in both male and female MRECs, whereas CD86 and CD70 were regulated in a sex-dependent manner. By bulk RNA sequencing, we found that increased mechanical endothelial cell stretch promoted differential gene expression of key antigen processing and presentation genes in female MRECs, demonstrating that females have upregulation of key antigen presentation pathways. Taken together, our data demonstrate that mechanical endothelial stretch regulates endothelial activation and immunological synapse interface formation in renal endothelial cells in a sex-dependent manner.NEW & NOTEWORTHY Endothelial cells contribute to the development of renal inflammation and have the unique ability to express antigen presentation proteins. Whether increased endothelial mechanical stretch regulates immunological synapse interface proteins remains unknown. We found that antigen presentation proteins and costimulatory proteins on renal endothelial cells are modulated by mechanical stretch in a sex-dependent manner. Our data provide novel insights into the sex-dependent ability of renal endothelial cells to present antigens in response to endothelial mechanical stimuli.

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来源期刊
CiteScore
8.40
自引率
7.10%
发文量
154
审稿时长
2-4 weeks
期刊介绍: The American Journal of Physiology - Renal Physiology publishes original manuscripts on timely topics in both basic science and clinical research. Published articles address a broad range of subjects relating to the kidney and urinary tract, and may involve human or animal models, individual cell types, and isolated membrane systems. Also covered are the pathophysiological basis of renal disease processes, regulation of body fluids, and clinical research that provides mechanistic insights. Studies of renal function may be conducted using a wide range of approaches, such as biochemistry, immunology, genetics, mathematical modeling, molecular biology, as well as physiological and clinical methodologies.
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