Virtual high throughput screening of carbapenem derivatives as new generation carbapenemase and penicillin binding protein inhibitors: a hunt to save drug of last resort.

The advent of carbapenem resistance by the production of ß-lectamases and mutated penicillin binding proteins (PBPs) has challenged the treatment of Enterobacteriaceae. Hence there is an urgent need to establish drugs that can fit in the pipeline by overcoming those situations. The working hypothesis of the work is based on two facts, i.e., i) design of inhibitors against mutated PBPs to which present drugs cannot bind efficiently to kill pathogen by inhibiting cell wall formation, ii) design of molecules that can bind with ß-lectamases with high affinity, so that they can supplement available drugs preventing their unwanted hydrolysis. In this work, over thousands of thienamycin (first natural carbapenem) derivatives were generated and out of which non-toxic 273 molecules were used for further study. Out of which, only few followed the first hypothesis and rest obeyed the second. Ligand L5 strictly followed the first hypothesis and L1-L4 followed to a satisfactory level. Molecular dynamic simulation was performed to check post-docking stability of the pharmacophores.

High throughput screening of 7-methylpicene-1,2-diol as arylamine N-acetyltransferase (NAT) inhibitor to establish a isoniazid supplement in anti-tubercular therapy.

Mycobacterium tuberculosis (Mtb), due to its unusual organization crosses different immune barriers and causes tuberculosis. The advent of multidrug resistance tuberculosis (MDR-TB) has attained alarming situation. Hence, computational drug design has been performed in this work to find potent molecules for this purpose. Isoniazid is a widely used frontline drug against tuberculosis. But reports justified the inactivity of isoniazid on acetylation by Arylamine N-acetyltransferase (NAT). 35 countries were highlighted to have isoniazid resistance from survey in 1998. Hence, Mtb NAT has been selected as the target in the present case and hundred compounds were screened in order to find potent NAT inhibitor to raise the efficacy of isoniazid. Molecular docking with Biosolveit LeadIT and Autodock 4.2 simulation was performed. The result showed 7- methylpicene-1, 2-diol to have -26.77 and -8.26 kcal/mol score in LeadIT and Autodock 4.2. The work validated 7- methylpicene-1, 2-diol to be a potent NAT inhibitor to supplement isoniazid.