Advances in biomedical applications of vitamin D for VDR targeted management of obesity and cancer.

Background: 1,25(OH) ₂ D ₃ is a fat-soluble vitamin, involved in regulating Ca ²⁺ homeostasis in the body. Its storage in adipose tissue depends on the fat content of the body. Obesity is the result of abnormal lipid deposition due to the prolonged positive energy balance and increases the risk of several cancer types. Furthermore, it has been associated with vitamin D deficiency and defined as a low 25(OH) ₂ D ₃ blood level. In addition, 1,25(OH) ₂ D ₃ plays vital roles in Ca ²⁺ -P _i and glucose metabolism in the adipocytes of obese individuals and regulates the expressions of adipogenesis-associated genes in mature adipocytes.
Scope and Approach: The present contribution focused on the VDR mediated mechanisms interconnecting the obese condition and cancer proliferation due to 1,25(OH) ₂ D ₃ -deficiency in humans. This contribution also summarizes the identification and development of molecular targets for VDR-targeted drug discovery.
Key Findings and Conclusions: Several studies have revealed that cancer development in a background of 1,25(OH) ₂ D ₃ deficient obesity involves the VDR gene. Moreover, 1,25(OH) ₂ D ₃ is also known to influence several cellular processes, including differentiation, proliferation, and adhesion. The multifaceted physiology of obesity has improved our understanding of the cancer therapeutic targets. However, currently available anti-cancer drugs are notorious for their side effects, which have raised safety issues. Thus, there is interest in developing 1,25(OH) ₂ D ₃ -based therapies without any side effects.
Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.
(Copyright © 2024 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)