Exogenous APN Protects Normal Tissues from Radiation-induced Oxidative Damage and Fibrosis in Mice and Prostate Cancer Patients with Higher Levels of APN Have Less Radiation-induced Toxicities

Overview

Journal Redox Biol

Specialties Biology
Cell Biology
Endocrinology

Date 2024 Jun 8

PMID 38851001

Authors

Joshua A McDowell

Elizabeth A Kosmacek

Michael J Baine

Oluwaseun Adebisi

Cheng Zheng

Madison M Bierman

Molly S Myers

Arpita Chatterjee

Kia T Liermann-Wooldrik

Andrew Lim

Kristin A Dickinson

Rebecca E Oberley-Deegan

Affiliations

Soon will be listed here.

Abstract

Radiation causes damage to normal tissues that leads to increased oxidative stress, inflammation, and fibrosis, highlighting the need for the selective radioprotection of healthy tissues without hindering radiotherapy effectiveness in cancer. This study shows that adiponectin, an adipokine secreted by adipocytes, protects normal tissues from radiation damage invitro and invivo. Specifically, adiponectin (APN) reduces chronic oxidative stress and fibrosis in irradiated mice. Importantly, APN also conferred no protection from radiation to prostate cancer cells. Adipose tissue is the primary source of circulating endogenous adiponectin. However, this study shows that adipose tissue is sensitive to radiation exposure exhibiting morphological changes and persistent oxidative damage. In addition, radiation results in a significant and chronic reduction in blood APN levels from adipose tissue in mice and human prostate cancer patients exposed to pelvic irradiation. APN levels negatively correlated with bowel toxicity and overall toxicities associated with radiotherapy in prostate cancer patients. Thus, protecting, or modulating APN signaling may improve outcomes for prostate cancer patients undergoing radiotherapy.

Citing Articles

Mechanisms of radiation-induced tissue damage and response.

Zhou L, Zhu J, Liu Y, Zhou P, Gu Y MedComm (2020). 2024; 5(10):e725.

PMID: 39309694 PMC: 11413508. DOI: 10.1002/mco2.725.

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