Study to Explore Plant-Derived Trimethylamine Lyase Enzyme Inhibitors to Address Gut Dysbiosis.
Shivani SinghalVibha RaniPublished in: Applied biochemistry and biotechnology (2021)
Lifestyle complications are major health concerns around the globe and are recognized as a major factor for the development of various chronic diseases such as obesity, diabetes, inflammatory bowel diseases, cancer, and cardiac diseases. An unhealthy diet and poor lifestyle impose a serious threat to human health. Numerous studies have suggested the role of human microbiota in human health and diseases. Microbiota resides in the human body symbiotically and the composition of microorganisms is crucial for maintaining the healthy state of an individual. A dysbiotic gut microbiome is responsible for the release of toxic metabolites such as trimethylamine, lipopolysaccharides, bile acids, and uremic toxins and is associated with impaired organ functions. Dietary and herbal intervention of dysbiosis proposes a promising strategy to counteract gut alterations and repairing of the microbial ecosystem and health. The objective of the present comparative study was to observe the effect of therapeutic herbs in gut dysbiosis. In silico studies were performed to identify human microbiota associated with various diseases, ADME, and toxicity properties of phytoconstituents of "Tinospora cordifolia" and "Ocimum sanctum." Furthermore, co-interaction studies were performed to observe the affinity of selected phytochemicals against choline trimethylamine lyase, a critical enzyme involved in dysbiosis-induced human diseases. The antimicrobial potential of phytocompounds was done by the disc diffusion method. In conclusion, our work discusses the herbal intervention of gut dysbiosis and proposes a natural, safe, and effective herbal formulation to correct microbial dysbiosis and associated diseases.
Keyphrases
- human health
- risk assessment
- endothelial cells
- climate change
- weight loss
- randomized controlled trial
- cardiovascular disease
- public health
- type diabetes
- induced pluripotent stem cells
- healthcare
- metabolic syndrome
- physical activity
- high glucose
- pluripotent stem cells
- microbial community
- mental health
- molecular docking
- drug delivery
- heart failure
- ms ms
- mass spectrometry
- case control
- young adults
- weight gain
- risk factors
- diabetic rats
- health promotion
- cell wall