Identification and validation of two alternatively spliced novel isoforms of human a-1-antichymotrypsin

alpha-1-antichymotrypsin (ACT) is a serine proteinase inhibitor that controls the activity of proteases like chymotrypsin, cathepsin G and mast cell chymase. Familial variants of ACT results in liver and lung diseases, but it is also reported to be associated with several other disease conditions. ACT is mainly synthesized in the liver using four coding exons, namely E1, E2, E3 and E4 encoding a 423 amino acid protein that also includes a 23 amino acid signal peptide. It is found to be associated with amyloid plaques and is elevated during inflammatory response and modulates cytokine based signal transduction pathways, independent of its anti-protease activity. Therefore, the multispecificity of ACT and its non -inhibitory roles in diseased conditions warrants an assessment of possible existence of the other iso-forms. Consequently, scanning of introns, 50 and 30 region of the ACT gene using computational tools like FGENESH and FEX did indicate the presence of coding regions. Using a combined approach of bioinformatics and molecular biology, we have found one novel exon located in the intronic region between exons E1 and E2, that splices with exon E2 and replaces N-terminal exon E1, generating an ACT isoform with a novel 151 base pair N-terminus. This isoform was found to lack the signal sequence and is smaller in size but its reactive centre loop remains intact. A truncated transcript was also confirmed with an extension of the E3 by a 12 nucleotide intronic region including a stop codon. Modelling studies show that due to removal of E4 this isoform lacks the RCL. Novel isoform ACT-N lacks E1 but has a conserved RCL. However, due to loss of strands of fl-sheet A, it may also be inactive, but with ability to bind the target proteases. The novel truncated ACT-T isoform lacks the RCL and may have a non-inhibitory role. These hypothesis will need further work for functional validation. (C) 2022 Elsevier Inc. All rights reserved.