Regular Moderate Physical Exercise Decreases Glycan Age Index of Biological Age and Reduces Inflammatory Potential of Immunoglobulin G

Overview

Journal Glycoconj J

Publisher Springer

Specialties Biochemistry
Endocrinology

Date 2023 Dec 26

PMID 38147152

Authors

Nina Simunic-Briski

Vedran Dukaric

Mateja Ocic

Tomislav Madzar

Martina Vinicki

Azra Frkatovic-Hodzic

Damir Knjaz

Gordan Lauc

Affiliations

Soon will be listed here.

Abstract

Physical inactivity and obesity are growing concerns, negatively impacting the general population. Moderate physical activity is known to have a beneficial anti-inflammatory effect. N-glycosylation of immunoglobulin G (IgG) reflects changes in the inflammatory potential of IgG. In this study, GlycanAge index of biological age (GlycanAge), one of the first commercially used biomarkers of aging, was employed to assess effects of exercise intensity in three different groups of athletes: professional competing athletes, regularly moderate active individuals and newly involved recreational individuals, compared to the group of inactive individuals. GlycanAge was significantly lower in the active group compared to the inactive group (β = -7.437, p.adj = 7.85E-03), and nominally significant and increased in professional athletes compared to the active group (β = 7.546, p = 3.20E-02). Competing female athletes had significantly higher GlycanAge comparing to active females exercising moderately (β = 20.206, p.adj = 2.71E-02), while the latter had significantly lower GlycanAge when compared with the inactive counterparts (β = -9.762, p.adj = 4.68E-02). Regular, life-long moderate exercise has an anti-inflammatory effect in both female and male population, demonstrated by lower GlycanAge index, and it has great potential to mitigate growing issues related to obesity and a sedentary lifestyle, which are relentlessly increasing world-wide.

Citing Articles

Clinical glycoproteomics: methods and diseases.

Wang Y, Lei K, Zhao L, Zhang Y MedComm (2020). 2024; 5(10):e760.

PMID: 39372389 PMC: 11450256. DOI: 10.1002/mco2.760.

Glycosylation in aging and neurodegenerative diseases.

Zhang W, Chen T, Zhao H, Ren S Acta Biochim Biophys Sin (Shanghai). 2024; 56(8):1208-1220.

PMID: 39225075 PMC: 11466714. DOI: 10.3724/abbs.2024136.

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