Oxidative and DNA damage in obese patients undergoing bariatric surgery: A one-year follow-up study

Obesity accelerates cardiovascular ageing

A global obesity pandemic, coupled with an increasingly ageing population, is exacerbating the burden of cardiovascular disease. Indeed, clinical and experimental evidence underscores a potential connection between obesity and ageing in the pathogenesis of various cardiovascular disorders. This is further supported by the notion that weight reduction not only effectively reduces major cardiovascular events in elderly individuals but is also considered the gold standard for lifespan extension, in obese and non-obese model organisms. This review evaluates the intricate interplay between obesity and ageing from molecular mechanisms to whole organ function within the cardiovascular system. By comparatively analysing their characteristic features, shared molecular and cell biological signatures between obesity and ageing are unveiled, with the intent to shed light on how obesity accelerates cardiovascular ageing. This review also elaborates on how emerging metabolic interventions targeting obesity might protect from cardiovascular diseases largely through antagonizing key molecular mechanisms of the ageing process itself. In sum, this review aims to provide valuable insight into how understanding these interconnected processes could guide the development of novel and effective cardiovascular therapeutics for a growing aged population with a concerning obesity problem.

Mechanism of PI3K/Akt‑mediated mitochondrial pathway in obesity‑induced apoptosis (Review)

Obesity is a pervasive global health challenge that substantially reduces the quality of life of millions of individuals and impedes social and economic advancement. Obesity is an independent risk factor that contributes to a range of chronic non-communicable metabolic diseases, significantly affecting energy metabolism, mental health, cancer susceptibility, sleep quality, and other physiological processes. The PI3K/AKT signaling pathway, a significant glucose, lipid, and protein metabolism regulator, is integral to cellular growth, survival, and apoptosis. Apoptosis is a highly regulated form of programmed cell death that is critical for immune cell maturation and tissue repair. The present review examines the association between obesity, the PI3K/AKT pathway, and mitochondrial apoptosis to elucidate the potential mechanisms by which obesity may activate apoptotic pathways. These findings provide a theoretical foundation for mitigating obesity-related complications by targeting these critical pathways.

DNA damage, obesity and obesity-related health complications: what are new data telling us?

PURPOSE OF REVIEW

Obesity is associated with increased DNA damage, which may in turn contribute to the development of obesity-related complications. DNA damage can also affect adipocyte biology, resulting in increased adiposity. Carefully managed weight loss programs can reverse this process. This article surveys new data that support these contentions.

RECENT FINDINGS

Whole exome sequencing analyses have identified rare variants linked to high BMI and adiposity. Two of the identified genes are linked to DNA damage and DNA repair, suggesting that DNA damage itself may play a role in the cause of obesity. It has also been recognized that obesity increases DNA damage in breast tissue of carriers of BRCA mutations and rates of tumour formation in BRCA1+ mice, indicating effect of obesity on cancer development in high-risk populations. In addition, obesity promotes cancer cell chemoresistance by decreasing fatty acid oxidation involved in cellular DNA damage response, leading to apoptotic cellular death. Obesity is also associated with a reduced capacity of oocytes to repair sperm DNA damage, leading to lower in-vitro fertilization rates in women with obesity.

SUMMARY

DNA damage and cellular responses to DNA damage can be both the result and the cause of obesity and can strongly influence the development and treatment of obesity-associated diseases.