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Aging | IGF1 Gene Therapy in Middle-Aged Female Rats Delays Reproductive Senescence Through Effects on Hypothalamic GnRH and Kisspeptin Neurons

11-15-2022

“Based on our findings, we propose IGF1 gene therapy to delay reproductive senescence as a potential strategy to optimize lifespan and combat age-related health problems in women.”

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BUFFALO, NY- November 15, 2022 – A new research paper was published on the cover of Aging (listed as "Aging (Albany NY)" by Medline/PubMed and "Aging-US" by Web of Science) Volume 14, Issue 21, entitled, “IGF1 gene therapy in middle-aged female rats delays reproductive senescence through its effects on hypothalamic GnRH and kisspeptin neurons.”

The process of aging is the result of progressive loss of homeostasis and functional body impairment, including the central nervous system, where the hypothalamus plays a key role in regulating aging mechanisms. The consequences of aging include a chronic proinflammatory environment in the hypothalamus that leads to decreased secretion of gonadotropin-releasing hormone (GnRH) and impairs kisspeptin neuron functionality.

In this new study, researchers Franco Juan Cruz Dolcetti, Eugenia Falomir-Lockhart, Francisco Acuña, Macarena Lorena Herrera, Sofia Cervellini, Claudio Gustavo Barbeito, Daniela Grassi, Maria-Angeles Arevalo, and María José Bellini from Consejo Nacional de Investigaciones Científicas y Técnicas (UNC-CONICET), Universidad Nacional de La Plata, Autonomous University of Madrid, Instituto Cajal, and Instituto de Salud Carlos III investigated the effect of insulin-like growth factor 1 (IGF1) gene therapy on hypothalamic kisspeptin/GnRH neurons and on microglial cells, that mediate the inflammatory process related with the aging process.

“The aim of the present study is to investigate the effect of IGF1 gene therapy on estrous cycle, kisspeptin and GnRH neurons, and microglial cells in middle-aged female rats.”

The results show that IGF1 rats have higher kisspeptin expression in the anteroventral periventricular (AVPV) nucleus and higher immunoreactivity of GnRH in the arcuate nucleus and median eminence. In addition, IGF1-treated animals exhibit increased numbers of Iba1+ microglial cells and MHCII+/Iba1+ in the AVPV and arcuate nuclei. In conclusion, IGF1 gene therapy maintains kisspeptin production in the AVPV nucleus, induces GnRH release in the median eminence, and alters the number and reactivity of microglial cells in middle-aged female rats. The researchers suggest that IGF1 gene therapy may have a protective effect against reproductive decline.

“Based on our findings, we propose IGF1 gene therapy to delay reproductive senescence as a potential strategy to optimize lifespan and combat age-related health problems in women.”

DOI: https://doi.org/10.18632/aging.204360

Corresponding Authors: Maria-Angeles Arevalo - arevalo@cajal.csic.es, and María José Bellini - mariajosebellini@med.unlp.edu.ar

Keywords: IGF1, gene therapy, reproductive senescence, GnRH, kisspeptin, microglia

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**About Aging-US:**

Aging publishes research papers in all fields of aging research including but not limited, aging from yeast to mammals, cellular senescence, age-related diseases such as cancer and Alzheimer’s diseases and their prevention and treatment, anti-aging strategies and drug development and especially the role of signal transduction pathways such as mTOR in aging and potential approaches to modulate these signaling pathways to extend lifespan. The journal aims to promote treatment of age-related diseases by slowing down aging, validation of anti-aging drugs by treating age-related diseases, prevention of cancer by inhibiting aging. Cancer and COVID-19 are age-related diseases.

Aging is indexed by PubMed/Medline (abbreviated as “Aging (Albany NY)”), PubMed Central, Web of Science: Science Citation Index Expanded (abbreviated as “Aging‐US” and listed in the Cell Biology and Geriatrics & Gerontology categories), Scopus (abbreviated as “Aging” and listed in the Cell Biology and Aging categories), Biological Abstracts, BIOSIS Previews, EMBASE, META (Chan Zuckerberg Initiative) (2018-2022), and Dimensions (Digital Science).

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