Sex dimorphism and tissue specificity of gene expression changes in aging mice.

IF 4.9 2区医学 Q1 ENDOCRINOLOGY & METABOLISM

Biology of Sex Differences Pub Date : 2024-10-31 DOI:10.1186/s13293-024-00666-4

Dantong Zhu, Matt Arnold, Brady A Samuelson, Judy Z Wu, Amber Mueller, David A Sinclair, Alice E Kane

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Abstract

Background: Aging is a complex process that involves all tissues in an organism and shows sex dimorphism. While transcriptional changes in aging have been well characterized, the majority of studies have focused on a single sex and sex differences in gene expression in aging are poorly understood. In this study, we explore sex dimorphism in gene expression in aging mice across three tissues.

Methods: We collected gastrocnemius muscle, liver and white adipose tissue from young (6 months, n = 14) and old (24 months, n = 14) female and male C57BL/6NIA mice and performed RNA-seq. To investigate sex dimorphism in aging, we considered two levels of comparisons: (a) differentially expressed genes between females and males in the old age group and (b) comparisons between females and males across the aging process. We utilized differential expression analysis and gene feature selection to investigate candidate genes. Gene set enrichment analysis was performed to identify candidate molecular pathways. Furthermore, we performed a co-expression network analysis and chose the gene module(s) associated with aging independent of sex or tissue-type.

Results: We identified both tissue-specific and tissue-independent genes associated with sex dimorphism in aged mice. Unique differentially expressed genes between old males and females across tissues were mainly enriched for pathways related to specific tissue function. We found similar results when exploring sex differences in the aging process, with the exception that in the liver genes enriched for lipid metabolism and digestive system were identified in both females and males. Combining enriched pathways across analyses, we identified amino acid metabolism, digestive system, and lipid metabolism as the core mechanisms of sex dimorphism in aging. Although the vast majority of age-related genes were sex and tissue specific, we identified 127 hub genes contributing to aging independent of sex and tissue that were enriched for the immune system and signal transduction.

Conclusions: There are clear sex differences in gene expression in aging across liver, muscle and white adipose. Core pathways, including amino acid metabolism, digestive system and lipid metabolism, contribute to sex differences in aging.

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衰老小鼠基因表达变化的性别二态性和组织特异性

背景：衰老是一个复杂的过程，涉及生物体的所有组织，并表现出性别二态性。虽然衰老过程中的转录变化已被很好地描述，但大多数研究都集中在单一性别上，对衰老过程中基因表达的性别差异知之甚少。在本研究中，我们探讨了衰老小鼠三种组织中基因表达的性别二态性：我们收集了年轻（6 个月，n = 14）和年老（24 个月，n = 14）雌性和雄性 C57BL/6NIA 小鼠的腓肠肌、肝脏和白色脂肪组织，并进行了 RNA-seq 分析。为了研究衰老过程中的性别二态性，我们考虑了两个层次的比较：（a）老年组雌性和雄性之间的差异表达基因；（b）整个衰老过程中雌性和雄性之间的比较。我们利用差异表达分析和基因特征选择来研究候选基因。我们还进行了基因组富集分析，以确定候选分子通路。此外，我们还进行了共表达网络分析，并选择了与衰老相关的基因模块，而与性别或组织类型无关：结果：我们发现了与老龄小鼠性别二态性相关的组织特异性基因和组织非依赖性基因。在不同组织中，老年雄性和雌性之间独特的差异表达基因主要集中在与特定组织功能相关的通路上。在探索衰老过程中的性别差异时，我们发现了类似的结果，但在肝脏中，雌性和雄性都发现了富集于脂质代谢和消化系统的基因。结合各项分析的富集通路，我们发现氨基酸代谢、消化系统和脂质代谢是衰老过程中性别二态性的核心机制。虽然绝大多数与衰老相关的基因具有性别和组织特异性，但我们发现了127个与衰老无关的枢纽基因，这些基因富集于免疫系统和信号转导：结论：在肝脏、肌肉和白色脂肪中，衰老基因表达存在明显的性别差异。氨基酸代谢、消化系统和脂质代谢等核心通路导致了衰老的性别差异。

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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来源期刊

Biology of Sex Differences ENDOCRINOLOGY & METABOLISM-GENETICS & HEREDITY

CiteScore

12.10

自引率

1.30%

发文量

审稿时长

14 weeks

期刊介绍： Biology of Sex Differences is a unique scientific journal focusing on sex differences in physiology, behavior, and disease from molecular to phenotypic levels, incorporating both basic and clinical research. The journal aims to enhance understanding of basic principles and facilitate the development of therapeutic and diagnostic tools specific to sex differences. As an open-access journal, it is the official publication of the Organization for the Study of Sex Differences and co-published by the Society for Women's Health Research. Topical areas include, but are not limited to sex differences in: genomics; the microbiome; epigenetics; molecular and cell biology; tissue biology; physiology; interaction of tissue systems, in any system including adipose, behavioral, cardiovascular, immune, muscular, neural, renal, and skeletal; clinical studies bearing on sex differences in disease or response to therapy.