Inhibition of recombinant enzyme 3-hydroxy-3-methylglutaryl-CoA reductase from Candida glabrata by α-asarone-based synthetic compounds as antifungal agents

“…In its wild type form, HMGRCg can catalyze HMG-CoA to mevalonate through the oxidation of NADPH. 10,11 The structures of the mutated proteins were validated by stereo-chemical restriction determinations on Ramachandran plots, thus providing an a priori approximation to the 3D structure of the corresponding peptides, a necessary step for their in-silico analysis. 11 Statins and alpha-asarone are competitive inhibitors of HMGRs, blocking access to the HMG-CoA substrate.…”

“…10,11 The structures of the mutated proteins were validated by stereo-chemical restriction determinations on Ramachandran plots, thus providing an a priori approximation to the 3D structure of the corresponding peptides, a necessary step for their in-silico analysis. 11 Statins and alpha-asarone are competitive inhibitors of HMGRs, blocking access to the HMG-CoA substrate. 1,3,10,11 Simvastatin (like other statins) and alpha-asarone have an HMG-like moiety capable of replacing the thioester oxygen atom found in the HMG-CoA substrate.…”

“…11 Statins and alpha-asarone are competitive inhibitors of HMGRs, blocking access to the HMG-CoA substrate. 1,3,10,11 Simvastatin (like other statins) and alpha-asarone have an HMG-like moiety capable of replacing the thioester oxygen atom found in the HMG-CoA substrate. 3 The HMGRCg mutant in the substrate binding motif, E711Q, displayed the lowest binding energies in relation to the ligands presently examined: simvastatin, alpha-asarone and the substrate HMG-CoA.…”

“…The reduced enzymatic activity and binding energy of this mutant was not unexpected, considering that the three ligands currently tested interact with the EGCLVAS motif (of the substrate binding site). 3,10,11 According to kinetic studies on HMGRh, statins compete for the substrate HMG-CoA without affecting binding to the cofactor NADPH. 20 Hence, the substitution of an amino acid residue in the conserved sequences could possibly alter the a nity of the enzyme for its substrate HMG-CoA as well as for simvastatin and alpha-asarone, to demonstrate this, a molecular docking study was carried out.…”

“…Consequently, it has been proposed as an antifungal target. 10,11 The recombinant HMGRCg enzyme is available and its catalytic activity is still under study. Therefore, the aim of the current contribution was to generate, characterize, and overexpress ve point mutants of HMGRCg in order to explore the role of certain amino acid residues in the functioning of the catalytic domain of HMGRCg.…”

Point Mutations In Candida Glabrata 3-Hydroxy-3-Methyl Glutaryl Coenzyme A Reductase (HMGRCg) An Antifungal Target, Decrease Enzymatic Activity And Substrate/Inhibitor Affinity

“…In its wild type form, HMGRCg can catalyze HMG-CoA to mevalonate through the oxidation of NADPH. 10,11 The structures of the mutated proteins were validated by stereo-chemical restriction determinations on Ramachandran plots, thus providing an a priori approximation to the 3D structure of the corresponding peptides, a necessary step for their in-silico analysis. 11 Statins and alpha-asarone are competitive inhibitors of HMGRs, blocking access to the HMG-CoA substrate.…”

“…10,11 The structures of the mutated proteins were validated by stereo-chemical restriction determinations on Ramachandran plots, thus providing an a priori approximation to the 3D structure of the corresponding peptides, a necessary step for their in-silico analysis. 11 Statins and alpha-asarone are competitive inhibitors of HMGRs, blocking access to the HMG-CoA substrate. 1,3,10,11 Simvastatin (like other statins) and alpha-asarone have an HMG-like moiety capable of replacing the thioester oxygen atom found in the HMG-CoA substrate.…”

“…11 Statins and alpha-asarone are competitive inhibitors of HMGRs, blocking access to the HMG-CoA substrate. 1,3,10,11 Simvastatin (like other statins) and alpha-asarone have an HMG-like moiety capable of replacing the thioester oxygen atom found in the HMG-CoA substrate. 3 The HMGRCg mutant in the substrate binding motif, E711Q, displayed the lowest binding energies in relation to the ligands presently examined: simvastatin, alpha-asarone and the substrate HMG-CoA.…”

“…The reduced enzymatic activity and binding energy of this mutant was not unexpected, considering that the three ligands currently tested interact with the EGCLVAS motif (of the substrate binding site). 3,10,11 According to kinetic studies on HMGRh, statins compete for the substrate HMG-CoA without affecting binding to the cofactor NADPH. 20 Hence, the substitution of an amino acid residue in the conserved sequences could possibly alter the a nity of the enzyme for its substrate HMG-CoA as well as for simvastatin and alpha-asarone, to demonstrate this, a molecular docking study was carried out.…”

“…Consequently, it has been proposed as an antifungal target. 10,11 The recombinant HMGRCg enzyme is available and its catalytic activity is still under study. Therefore, the aim of the current contribution was to generate, characterize, and overexpress ve point mutants of HMGRCg in order to explore the role of certain amino acid residues in the functioning of the catalytic domain of HMGRCg.…”

Point Mutations In Candida Glabrata 3-Hydroxy-3-Methyl Glutaryl Coenzyme A Reductase (HMGRCg) An Antifungal Target, Decrease Enzymatic Activity And Substrate/Inhibitor Affinity

Improving Animal Immunity to Prevent Fungal Infections with Folk Remedies and Advanced Medicine

Synthesis and biological activity of fibrate-based acyl- and alkyl-phenoxyacetic methyl esters and 1,2-dihydroquinolines