In-silico study and in-vitro validations for an affinity of mangiferin with aldose reductase: Investigating potential in tackling diabetic retinopathy

Type II Diabetes mellitus (T2DM) and associated complications primarily diabetic retinopathy cases are rising with an alarming rate. Prolong hyperglycemia along with the aldose reductase (AR) activity play a pivotal role in the development of oxidative stress in the aqueous humor and diabetic retinopathy. AR catalyzes conversion of glucose into sorbitol and or fructose get diffuse into lens leading to impaired electrolyte balance and cataract formation. Here in the study, affinity of mangiferin was evaluated first using in silico approaches (Docking studies) and then validated via isothermal titration calorimetry. Here in the present study aim was to check the does mangiferin do have affinity with AR, does mangiferin inhibit the AR and polyol pathway as key pathway involve in the diabetic retinopathy. Both in silico and laboratory investigations were carried out to explore the affinity of mangiferin with the aldose reductase. Swiss target prediction study showed that the AR is prime target of mangiferin in the human proteome. The molecular docking study and affinity searches were performed to seek the bonding pattern and forces involved. Docking (affinity 34.37 kcal/mol) for AR pose 1 was reported superior over the AR pose 2 (affinity -35.46 kcal/mol) against mangiferin. Mangiferin showed significant AR inhibition where IC50 reported 67.711 mu g/ml and highest inhibition was reported at 300 mu g/ml i.e. 86.44 %. On the contrary, Quercetin showed much higher inhibition of aldose reductase at similar concentration i.e. 94.47 % at 300 mu g/ml with IC50 59.6014 mu g/ml. Here, AR pose 1 showed higher affinity with the mangiferin and confirmed via Isothermal Titration Calorimetry clearly showed higher binding affinity parameters. Binding affinity of AR pose 1 with the mangiferin was higher as showed with affinity parameter determined via ITC i.e. floating association constant (Ka) reported 6.47x106, binding enthalpy (Delta H) -46.11 kJ/mol and higher binding sites (n) i. e. 1.84. Findings demonstrates that the mangiferin is promising AR inhibitor with the ADME prediction (CLR 1.119 ml/min and t1/2 1.162 h).