The disorder of thyroid gland development or thyroid dysgenesis (TH) accounts for 80-85% cases of congenital hypothyroidism (CH). Hence, the understanding of molecular etiology of TH is prerequisite. Mutations in TSHR gene is mostly associated with thyroid dysgenesis, prevent or disrupt normal development of the gland. The current study detects two nonsynonymous mutations (p.Ser508Leu, p.Asp727Glu) in transmembrane (TM)-region (Exon 10) of TSHR gene in 21 patients with dysgenesis by sequencing-based analysis. Later, transmembrane (TM)-region of TSHR protein is modelled by homology modeling. Transmembrane (TM)-region of TSHR protein is targeted by small molecules thyrogenic drugs, MS437 and MS438 to perceive the effect of mutations. The damaging effect in drug-protein complexes of mutants were envisaged by molecular docking and interactions. The binding affinity of wild type protein was much higher than the mutant cases for both of the ligands (MS437 and MS438). Molecular dynamics simulates dynamic behavior of wild type and mutant complexes. MS437-TSHR368-764MT2 and MS438-TSHR368-764MT1 show stable conformations in biological environments. Finally, PCA reveals structural and energy profile discrepancies. TSHR368-764MT1 exhibits much variations than TSHR368-764WT and TSHR368-764MT2, emphasizing more damaging pattern in TSHR368-764MT1. The study might be helpful to understand molecular etiology of thyroid dysgenesis (TH) exploring the mutational impact on TSHR protein to the interaction with agonists.

Competing Interest Statement

The authors have declared no competing interest.