Accelerated aging in mice with astrocytic redox imbalance as a consequence of SOD2 deletion

IF 8 1区 医学 Q1 CELL BIOLOGY
Aging Cell Pub Date : 2023-08-23 DOI:10.1111/acel.13911
Konstantinos Tsesmelis, Gandhari Maity-Kumar, Dana Croner, Jasmin Sprissler, Miltiadis Tsesmelis, Tabea Hein, Bernd Baumann, Thomas Wirth
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Abstract

Aging of the central nervous system (CNS) leads to motoric and cognitive decline and increases the probability for neurodegenerative disease development. Astrocytes fulfill central homeostatic functions in the CNS including regulation of immune responses and metabolic support of neurons and oligodendrocytes. In this study, we investigated the effect of redox imbalance in astrocytes by using a conditional astrocyte-specific SOD2-deficient mouse model (SOD2ako) and analyzed these animals at different stages of their life. SOD2ako mice did not exhibit any overt phenotype within the first postnatal weeks. However, already as young adults, they displayed progressive motoric impairments. Moreover, as these mice grew older, they exhibited signs of a progeroid phenotype and early death. Histological analysis in moribund SOD2ako mice revealed the presence of age-related brain alterations, neuroinflammation, neuronal damage and myelin impairment in brain and spinal cord. Additionally, transcriptome analysis of primary astrocytes revealed that SOD2 deletion triggered a hypometabolic state and promoted polarization toward A1-neurotoxic status, possibly underlying the neuronal and myelin deficits. Conclusively, our study identifies maintenance of ROS homeostasis in astrocytes as a critical prerequisite for physiological CNS aging.

Abstract Image

SOD2缺失导致星形细胞氧化还原失衡的小鼠加速衰老
中枢神经系统(CNS)的衰老导致运动和认知能力下降,并增加神经退行性疾病发展的可能性。星形胶质细胞在中枢神经系统中发挥中枢稳态功能,包括调节免疫反应和代谢支持神经元和少突胶质细胞。在这项研究中,我们通过条件星形胶质细胞特异性sod2缺陷小鼠模型(SOD2ako)研究了星形胶质细胞氧化还原失衡的影响,并分析了这些动物在其生命的不同阶段。SOD2ako小鼠在出生后的第一周内没有表现出任何明显的表型。然而,作为年轻的成年人,他们已经表现出进行性运动障碍。此外,随着这些小鼠年龄的增长,它们表现出了类早衰表型和早期死亡的迹象。死亡SOD2ako小鼠的组织学分析显示,存在与年龄相关的脑改变、神经炎症、神经元损伤和脑和脊髓髓磷脂损伤。此外,对初级星形胶质细胞的转录组分析显示,SOD2缺失引发了低代谢状态,并促进了向a1神经毒性状态的极化,这可能是神经元和髓鞘缺陷的基础。最后,我们的研究确定星形胶质细胞中ROS稳态的维持是中枢神经系统生理衰老的关键先决条件。
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来源期刊
Aging Cell
Aging Cell Biochemistry, Genetics and Molecular Biology-Cell Biology
自引率
2.60%
发文量
212
期刊介绍: Aging Cell is an Open Access journal that focuses on the core aspects of the biology of aging, encompassing the entire spectrum of geroscience. The journal's content is dedicated to publishing research that uncovers the mechanisms behind the aging process and explores the connections between aging and various age-related diseases. This journal aims to provide a comprehensive understanding of the biological underpinnings of aging and its implications for human health. The journal is widely recognized and its content is abstracted and indexed by numerous databases and services, which facilitates its accessibility and impact in the scientific community. These include: Academic Search (EBSCO Publishing) Academic Search Alumni Edition (EBSCO Publishing) Academic Search Premier (EBSCO Publishing) Biological Science Database (ProQuest) CAS: Chemical Abstracts Service (ACS) Embase (Elsevier) InfoTrac (GALE Cengage) Ingenta Select ISI Alerting Services Journal Citation Reports/Science Edition (Clarivate Analytics) MEDLINE/PubMed (NLM) Natural Science Collection (ProQuest) PubMed Dietary Supplement Subset (NLM) Science Citation Index Expanded (Clarivate Analytics) SciTech Premium Collection (ProQuest) Web of Science (Clarivate Analytics) Being indexed in these databases ensures that the research published in Aging Cell is discoverable by researchers, clinicians, and other professionals interested in the field of aging and its associated health issues. This broad coverage helps to disseminate the journal's findings and contributes to the advancement of knowledge in geroscience.
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