“Our findings highlight key molecular signatures and pathways in contracted muscle […] that may contribute to skeletal muscle strength loss due to estrogen deficiency.”
Credit: 2023 Peyton et al.
“Our findings highlight key molecular signatures and pathways in contracted muscle […] that may contribute to skeletal muscle strength loss due to estrogen deficiency.”
BUFFALO, NY- August 15, 2023 – A new research paper was published on the cover of Aging (listed by MEDLINE/PubMed as “Aging (Albany NY)” and “Aging-US” by Web of Science) Volume 15, Issue 15, entitled, “Natural aging and ovariectomy induces parallel phosphoproteomic alterations in skeletal muscle of female mice.”
The loss of skeletal muscle strength mid-life in females is associated with the decline of estrogen. In this new study, researchers Mina P. Peyton, Tzu-Yi Yang, LeeAnn Higgins, Todd W. Markowski, Kevin Murray, Cha Vue, Laurie L. Parker, and Dawn A. Lowe from the University of Minnesota questioned how estrogen deficiency might impact the overall skeletal muscle phosphoproteome after contraction, as force production induces phosphorylation of several muscle proteins.
“Importantly, identification of these altered phosphosites and candidate kinases and phosphatases sensitive to the presence of estrogen will help advance our understanding of the contributions of estrogen deficiency to muscle strength loss in aging females.”
Phosphoproteomic analyses of the tibialis anterior muscle after contraction in two mouse models of estrogen deficiency, ovariectomy (Ovariectomized (Ovx) vs. Sham) and natural aging-induced ovarian senescence (Older Adult (OA) vs. Young Adult (YA)), identified a total of 2,593 and 3,507 phosphopeptides in Ovx/Sham and OA/YA datasets, respectively. Further analysis of estrogen deficiency-associated proteins and phosphosites identified 66 proteins and 21 phosphosites from both datasets. Of these, 4 estrogen deficiency-associated proteins and 4 estrogen deficiency-associated phosphosites were significant and differentially phosphorylated or regulated, respectively.
Comparative analyses between Ovx/Sham and OA/YA using Ingenuity Pathway Analysis (IPA) found parallel patterns of inhibition and activation across IPA-defined canonical signaling pathways and physiological functional analysis, which were similarly observed in downstream GO, KEGG, and Reactome pathway overrepresentation analysis pertaining to muscle structural integrity and contraction, including AMPK and calcium signaling. IPA Upstream regulator analysis identified MAPK1 and PRKACA as candidate kinases and calcineurin as a candidate phosphatase sensitive to estrogen.
“In summary, our results from contracted skeletal muscle highlight CAST Ser-82 as a candidate phosphosite, and MAPK1/ERK2, PRKACA, and calcineurin as candidate upstream regulators sensitive to estrogen deficiency that may contribute to changes in the force-generating capacity of skeletal muscle.”
Read the full study: DOI: https://doi.org/10.18632/aging.204959
Corresponding Author: Dawn A. Lowe – lowex017@umn.edu
Keywords: estrogen deficiency, CAST, MAPK, PKA, calcineurin
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About Aging:
Launched in 2009, Aging (Aging-US) publishes papers of general interest and biological significance in all fields of aging research and age-related diseases, including cancer—and now, with a special focus on COVID-19 vulnerability as an age-dependent syndrome. Topics in Aging go beyond traditional gerontology, including, but not limited to, cellular and molecular biology, human age-related diseases, pathology in model organisms, signal transduction pathways (e.g., p53, sirtuins, and PI-3K/AKT/mTOR, among others), and approaches to modulating these signaling pathways.
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Journal
Aging-US
DOI
10.18632/aging.204959
Method of Research
Observational study
Subject of Research
Animals
Article Title
Natural aging and ovariectomy induces parallel phosphoproteomic alterations in skeletal muscle of female mice
Article Publication Date
14-Aug-2023
COI Statement
The authors declare no conflicts of interest related to this study.