整合单细胞多组学分析揭示了耐力运动调节的肌纤维类型基因调控回路。

Integrated single-cell multiome analysis reveals muscle fiber-type gene regulatory circuitry modulated by endurance exercise.

作者信息

Rubenstein Aliza B, Smith Gregory R, Zhang Zidong, Chen Xi, Chambers Toby L, Ruf-Zamojski Frederique, Mendelev Natalia, Cheng Wan Sze, Zamojski Michel, Amper Mary Anne S, Nair Venugopalan D, Marderstein Andrew R, Montgomery Stephen B, Troyanskaya Olga G, Zaslavsky Elena, Trappe Todd, Trappe Scott, Sealfon Stuart C

机构信息

Department of Neurology, Icahn School of Medicine at Mount Sinai (ISMMS), New York, NY 10029, USA.

Lewis-Sigler Institute of Integrative Genomics, Princeton University, Princeton, NJ 08544, USA.

出版信息

bioRxiv. 2023 Oct 9:2023.09.26.558914. doi: 10.1101/2023.09.26.558914.

DOI:10.1101/2023.09.26.558914

PMID:37808658

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10557702/

Abstract

Endurance exercise is an important health modifier. We studied cell-type specific adaptations of human skeletal muscle to acute endurance exercise using single-nucleus (sn) multiome sequencing in human vastus lateralis samples collected before and 3.5 hours after 40 min exercise at 70% VOmax in four subjects, as well as in matched time of day samples from two supine resting circadian controls. High quality same-cell RNA-seq and ATAC-seq data were obtained from 37,154 nuclei comprising 14 cell types. Among muscle fiber types, both shared and fiber-type specific regulatory programs were identified. Single-cell circuit analysis identified distinct adaptations in fast, slow and intermediate fibers as well as -expressing FAP cells, involving a total of 328 transcription factors (TFs) acting at altered accessibility sites regulating 2,025 genes. These data and circuit mapping provide single-cell insight into the processes underlying tissue and metabolic remodeling responses to exercise.

摘要

耐力运动是一种重要的健康调节因素。我们使用单核（sn）多组学测序技术，对四名受试者在70%最大摄氧量下进行40分钟运动前和运动后3.5小时采集的股外侧肌样本，以及来自两名仰卧休息的昼夜节律对照者的匹配时间样本，研究了人类骨骼肌细胞类型特异性对急性耐力运动的适应性。从包含14种细胞类型的37,154个细胞核中获得了高质量的同细胞RNA测序和ATAC测序数据。在肌纤维类型中，鉴定出了共享的和纤维类型特异性的调控程序。单细胞回路分析确定了快肌、慢肌和中间纤维以及表达FAP的细胞中的不同适应性，涉及总共328个转录因子（TFs），它们作用于可及性改变的位点，调控2025个基因。这些数据和回路图谱为运动引起的组织和代谢重塑反应的潜在过程提供了单细胞层面的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/921a/10564481/640e44590cc4/nihpp-2023.09.26.558914v2-f0001.jpg

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整合单细胞多组学分析揭示了耐力运动调节的肌纤维类型基因调控回路。

Integrated single-cell multiome analysis reveals muscle fiber-type gene regulatory circuitry modulated by endurance exercise.

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