A three-dimensional model of the human transglutaminase 1: insights into the understanding of lamellar ichthyosis

Abstract

The stratum corneum, the outer layer of the epidermis, serves as a protective barrier to isolate the skin from the external environment. Keratinocyte transglutaminase 1 (TGase 1) catalyzes amide crosslinking between glutamine and lysine residues on precursor proteins forming the impermeable layers of the epidermal cell envelopes (CE), the highly insoluble membranous structures of the stratum corneum. Patients with the autosomal recessive skin disorder lamellar ichthyosis (LI) appear to have deficient cross-linking of the cell envelope due to mutations identified in TGase 1, linking this enzyme to LI. In the absence of a crystal structure, molecular modeling was used to generate the structure of TGase 1. We have mapped the known mutations of TGase 1 from our survey obtained from a search of PubMed and successfully predicted the impact of these mutations on LI. Furthermore, we have identified Ca²⁺ binding sites and propose that Ca²⁺ induces a cis to trans isomerization in residues near the active site as part of the enzyme transamidation activation. Docking experiments suggest that substrate binding subsequently induces the reverse cis to trans isomerization, which may be a significant part of the catalytic process. These results give an interpretation at the molecular level of previously reported mutations and lead to further insights into the structural model of TGase 1, providing a new basis for understanding LI. Figure Ribbon image of the model of the human TGase 1 structure. The side chains of residues reported to be mutated in patients with LI (34 amino acid mutation sites) are shown as spheres.