ARL15 and its Multiple Disease Association: Emerging Functions and Potential Therapeutic Application.

ARL15 is a member of the RAS superfamily of small GTPases and is associated with several metabolic traits, including increased risk of diabetes, rheumatoid arthritis and lipid metabolism disorders. The ARL15 gene encodes for an uncharacterized small GTP binding protein. Its precise role in human physiology remains unknown, but several genetic association studies have recognized different variants in this gene to be statistically associated with numerous traits and complex diseases. Here, we provided the unique features of ARL15 small G protein, its association with varied metabolic and lifestyle diseases, its function in vesicular and lipid trafficking, and its binding partners. We outlined this protein as a promising and emerging therapeutic target to combat metabolic disorders like cardiovascular diseases, diabetes and rheumatoid arthritis. The review provides a comprehensive description of the current advancements in ARL15 research with a perspective that focused research will position this small GTPase as a viable target for the treatment of rheumatoid arthritis.

Suramin, penciclovir, and anidulafungin exhibit potential in the treatment of COVID-19 via binding to nsp12 of SARS-CoV-2.

COVID-19, for which no confirmed therapeutic agents are available, has claimed over 48,14,000 lives globally. A feasible and quicker method to resolve this problem may be 'drug repositioning'. We investigated selected FDA and WHO-EML approved drugs based on their previously promising potential as antivirals, antibacterials or antifungals. These drugs were docked onto the nsp12 protein, which reigns the RNA-dependent RNA polymerase activity of SARS-CoV-2, a key therapeutic target for coronaviruses. Docked complexes were reevaluated using MM-GBSA analysis and the top three inhibitor-protein complexes were subjected to 100 ns long molecular dynamics simulation followed by another round of MM-GBSA analysis. The RMSF plots, binding energies and the mode of physicochemical interaction of the active site of the protein with the drugs were evaluated. Suramin, Penciclovir, and Anidulafungin were found to bind to nsp12 with similar binding energies as that of Remdesivir, which has been used as a therapy for COVID-19. In addition, recent experimental evidences indicate that these drugs exhibit antiviral efficacy against SARS-CoV-2. Such evidence, along with the significant and varied physical interactions of these drugs with the key viral enzyme outlined in this investigation, indicates that they might have a prospective therapeutic potential in the treatment of COVID-19 as monotherapy or combination therapy with Remdesivir.