Antidiabetic potential of simple carbamate derivatives: Comparative experimental and computational study

Abstract

With the increasing global burden of diabetes mellitus type 2, the search for the new drugs, with better pharmacological profile is continued. As a part of this surge, the synthesis, pharmacological in vitro and computational evaluation of five, simple carbamate derivatives, against carbohydrate digestive enzyme ?-glucosidase, is disclosed herein. Results of the experimental and computational assessment indicated that examined carbamates deterred the activity of ?-glucosidase with acceptable IC50 values ranging from 65.34 to 79.89 ?M compared to a standard drug acarbose (109.71 ?M). Similarly, studied compounds displayed in silico binding affinity for ?-glucosidase enzyme with significant binding energies. Preliminary toxicity profiles of studied carbamates against three cancerous cell lines indicated their poor activity, suggesting that significant structural modifications have to be made to improve their anticancer efficiency. Results of the present study indicate that examined carbamates were able to virtually or experimentally interact with an important target of diabetes mellitus type 2. Additionally, a new pharmacophore model is proposed featuring hydrogen bond donating carbamate -NH group, hydrogen bond accepting carbamate -OCH3 group and hydrophobic stabilization of aromatic moieties.