Abstract

Lamellar ichthyosis (LI) is a rare inherited disease where affected infants present a extensive skin scaling characterized by hyperkeratosis. Inherited mutations in the Transglutaminase 1 (TGM1) protein is one of the known causative genetic factor for the LI. The main objective of this study is to explore the impact of LI causative missense mutations on the structural and stability aspects of TGM1 protein using structural modeling, molecular docking and molecular dynamics approaches. By testing all LI causative TMG1 mutations against multiple stability prediction methods, we found that L362R and L388P mutations positioned in the Transglut_core domain were most destabilizing to the stability of TGM1 protein. These 2 mutations were 3D protein modeled and further analyzed by molecular docking and dynamic simulation methods. Molecular docking of these TGM1 mutant structures with chitosan, a natural polyphenolic compound and known inducer for transglutaminase enzyme, has shown stable molecular interactions between the native TGM1-chitosan and TGM1(L388P)-chitosan complex, when compared to the TGM1(L362R)-chitosan complex. Interestingly, molecular dynamics analysis have also yielded similar findings, where L388P-chitosan complex is shown to develop B-sheets and attain better stability, whereas TGM1-L362R complex possessed coils over the simulation period, pointing its highly destabilizing behavior on the protein structure. This study concludes that missense mutations in Transglut_core domain of the TGM1 are deleterious to the stability and structural changes of TGM1 protein and also suggest that chitosan molecule could act as a natural activator against few pathogenic TGM1 mutations. Communicated by Ramaswamy H. Sarma

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