A novel series of pyrido[2,3-d]pyrimidines; pyrido[3,2-e][1,3,4]triazolo; and tetrazolo[1,5-c]pyrimidines were synthesized via different chemical transformations starting from pyrazolo[3,4-b]pyridin-6-yl)-N,N-dimethylcarbamimidic chloride 3b (prepared from the reaction of o-aminonitrile 1b and phosogen iminiumchloride). The structures of the newly synthesized compounds were elucidated based on spectroscopic data and elemental analyses. Designated compounds are subjected for molecular docking by using Auto Dock Vina software in order to evaluate the antiviral potency for the synthesized compounds against SARS-CoV-2 (2019-nCoV) main protease M pro. The antiviral activity against SARS-CoV-2 showed that tested compounds 7c, 7d, and 7e had the most promising antiviral activity with lower IC50 values compared to Lopinavir, “the commonly used protease inhibitor”. Both in silico and in vitro results are in agreement.
In the present investigation, some novel nitro Mannich bases derived from Michael type addition of activated nitro olefin, β‐nitrostyrene with various amines either primary or secondary including some amino sugars were designed and synthesized. The produced Mannich bases have been full characterized through different spectroscopic techniques. Antimicrobial evaluation has been performed against the Gram positive S. aureus and methicillin‐resistant S. aurues (MRSA) infections. 5 of the synthesized compounds represent the best candidates in the biological screening, they have exhibited good activity with MIC values range from 100 to 250 μg/ml. The active agents have been tested for pyruvate kinase inhibition activity with % of inhibition range from 30 to 79 % with IC50 in a nano molar range. They also exhibited significant Pyruvate kinase inhibition in nanomolar range with IC50 of 1066, 662, 1887, 418 and 1128 ng/ml, respectively (versus 196 ng/ml for AZD7545). Molecular docking calculations for active agents were performed. A complete conformational analysis molecular modeling utilizing Gaussian 09 program (HF/DFT) was used to verify the mode of bonding through the optimized geometries as well as essential quantum parameters were calculated using frontier energies (EHOMO & ELUMO) for the active candidates indicating the overall stability of the structure.
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