Publications by authors named "Naheemat Modupeola Gold"
Aging is marked by a progressive decrease in physiological function and reserve capacity, which results in increased susceptibility to diseases. Understanding the mechanisms of driving aging is crucial for extending health span and promoting human longevity. Hypoxia, marked by reduced oxygen availability, has emerged as a promising area of study within aging research.
View Article and Find Full Text PDFAlcohol-associated liver disease (ALD) is a major cause of liver-related morbidity and mortality, yet clinically effective therapies for ALD remain lacking. Here, we demonstrate that alcohol intake and its metabolite, acetaldehyde (ACH), induce senescence in the liver and liver cells, respectively. To assess the therapeutic potential of targeting liver senescence in ALD, we treated ALD-affected mice with the senolytic compound ABT263 and the senomorphic NAD precursor, nicotinamide (NAM).
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- * Hypoxic conditions can lead to cellular damage and age-related health issues like heart disease, neurodegenerative disorders, and cancer by activating certain molecular mechanisms.
- * Potential treatments to counteract the negative impacts of hypoxia on aging include HIF modulators, antioxidants, and lifestyle changes, but challenges like individual differences in aging and safety of therapies highlight the need for personalized approaches.
All linear chromosomal ends have specific DNA-protein complexes called telomeres. Telomeres serve as a "molecular clock" to estimate the potential length of cell replication. Shortening of telomere length (TL) is associated with cellular senescence, aging, and various age-related diseases in humans.
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