Theobromine and related methylxanthines as inhibitors of Primary Amine Oxidase.
Padraig ShanahanJeffrey O'SullivanKeith F TiptonGemma K KinsellaBarry J RyanGary T M HenehanPublished in: Journal of food biochemistry (2018)
Methylxanthines are among the most widely consumed drugs in the world and evidence of their health benefits has been growing in recent years. Primary Amine Oxidase (PrAO) has been recognized as a therapeutic target for the amelioration of inflammatory, vascular, and neurodegenerative diseases. Previous work in our laboratories showed that caffeine inhibited Bovine PrAO with a Ki of 1.0 mM using benzylamine as substrate. This study aimed to extend our previous work and explore the possibility that related methylxanthines might influence PrAO activity. While paraxanthine, theophylline, and 7-methylxanthine had little effect on PrAO, theobromine was a noncompetitive inhibitor with a Ki of 276 ± 44 µM. The specific structural elements of methylxanthines that are required for inhibition allow us to suggest that their binding site on PrAO may be a target for therapeutics. The health benefits associated with dietary methylxanthine consumption could involve PrAO inhibition. PRACTICAL APPLICATIONS: Inhibition of PrAO by methylxanthines may be significant in conferring health benefits. The design of PrAO inhibitors based on the structural motifs identified in this study (N-methylation at specific locations) is indicated. Existing therapeutics based on a core xanthine structure can be evaluated for their effects on PrAO. PrAO inhibition must be considered as a potential mediator of the beneficial health effects of some methylxanthines. If inhibition in human tissues is comparable to, or greater than, that found in these studies it points to an important role for these compounds in human health.
Keyphrases
- human health
- public health
- healthcare
- risk assessment
- mental health
- health information
- endothelial cells
- small molecule
- climate change
- gene expression
- health promotion
- squamous cell carcinoma
- genome wide
- dna methylation
- radiation therapy
- oxidative stress
- metabolic syndrome
- neoadjuvant chemotherapy
- drug induced
- amino acid