Multifaceted role of inosine in complex diseases and human health.
Faustina Therase JeyarajVenkata Saroja VorugantiPublished in: Nutrition reviews (2024)
Purines are chemical compounds integral to health and are crucial for the synthesis of nucleic acids. They are part of DNA and RNA and participate in various metabolic and signaling processes. They also function as neurotransmitters and serve as co-substrates for activating many metabolites. Inosine, a purine nucleoside, is a breakdown product of adenosine with similar properties and a much longer half-life (15 h vs ∼5 s) than adenosine. The purpose of this narrative review is to discuss the metabolic effects of inosine and highlight its beneficial properties and implication in complex diseases such as obesity, type 2 diabetes, cancers, cardiovascular diseases, and neurodegenerative diseases. A search was performed for purine- and inosine-related articles on the University of North Carolina (UNC) Health Sciences Library, PubMed, and Google Scholar sites. Inosine is involved in the regulation of RNA editing, metabolic enzyme activity, and signaling pathways. Animal and cell culture studies have shown inosine to be anti-inflammatory, immunomodulatory, and neuroprotective, and serving as a critical regulator of immune checkpoint inhibition therapeutic response in various tumor types. Recent studies have also implicated inosine in increasing energy expenditure, browning of adipose tissue, and improving leptin sensitivity. Human studies, however, have been limited to urate-elevating properties of inosine. These findings make inosine relevant to many complex diseases, and need to be translated to humans. Future studies should be conducted to investigate the mechanisms underlying the role of inosine in adiposity, inflammation, oxidative stress, and neuronal function.
Keyphrases
- type diabetes
- oxidative stress
- human health
- adipose tissue
- insulin resistance
- cardiovascular disease
- public health
- risk assessment
- healthcare
- signaling pathway
- metabolic syndrome
- anti inflammatory
- transcription factor
- endothelial cells
- mental health
- climate change
- weight loss
- skeletal muscle
- epithelial mesenchymal transition
- glycemic control
- induced apoptosis
- young adults
- diabetic rats
- cardiovascular risk factors
- single molecule