Abstract
Chymotrypsin-like elastases (CELAs) are pancreatic serine proteinases that digest dietary proteins. CELAs are typically expressed in multiple isoforms that can vary among different species. The human pancreas does not express CELA1 but secretes two CELA3 isoforms, CELA3A and CELA3B. The reasons for the CELA3 duplication and the substrate preferences of the duplicated isoforms are unclear. Here, we tested whether CELA3A and CELA3B evolved unique substrate specificities to compensate for the loss of CELA1. We constructed a phage library displaying variants of the substrate-like Schistocerca gregaria proteinase inhibitor 2 (SGPI-2) to select reversible high affinity inhibitors of human CELA3A, CELA3B, and porcine CELA1. Based on the reactive loop sequences of the phage display-selected inhibitors, we recombinantly expressed and purified 12 SGPI-2 variants and determined their binding affinities. We found that the primary specificity of CELA3A, CELA3B, and CELA1 was similar; all preferred aliphatic side chains at the so-called P1 position, the amino acid residue located directly N-terminal to the scissile peptide bond. P1 Met was an interesting exception that was preferred by CELA1 but weakly recognized by the CELA3 isoforms. The extended substrate specificity of CELA3A and CELA3B was comparable, whereas CELA1 exhibited unique interactions at several subsites. These observations indicated that the CELA1 and CELA3 paralogs have some different but also overlapping specificities and that the duplicated CELA3A and CELA3B isoforms did not evolve distinct substrate preferences. Thus, increased gene dosage rather than specificity divergence of the CELA3 isoforms may compensate for the loss of CELA1 digestive activity in the human pancreas.
Highlights
Chymotrypsin-like elastases (CELAs) are pancreatic serine proteinases that digest dietary proteins
We found that the primary specificity of CELA3A, CELA3B, and CELA1 was similar; all preferred aliphatic side chains at the socalled P1 position, the amino acid residue located directly N-terminal to the scissile peptide bond
Selection of SGPI-2 Inhibitor Variants against Human CELA3A and CELA3B and Porcine CELA1 by Phage Display— To analyze the substrate specificity of CELA3A and CELA3B, we performed directed evolution of the Schistocerca gregaria proteinase inhibitor 2 (SGPI-2) that binds in a substrate-like manner to its cognate proteinases
Summary
Selection of SGPI-2 Inhibitor Variants against Human CELA3A and CELA3B and Porcine CELA1 by Phage Display— To analyze the substrate specificity of CELA3A and CELA3B, we performed directed evolution of the Schistocerca gregaria proteinase inhibitor 2 (SGPI-2) that binds in a substrate-like manner to its cognate proteinases. When binding of inhibitor variants with P4Ј His(E1) versus Ala(E12) to CELA3A and CELA3B was tested, a similar 3.6- and 3.2-fold reduction in affinity was observed, respectively; whereas binding to porcine CELA1 was decreased by 2-fold (Fig. 6), indicating that the P4Ј position plays a minor role in determining binding affinity and does not confer selectivity among elastases. This conclusion is consistent with the published view that porcine CELA1 contains only three important subsites (S1Ј–S3Ј) interacting with the primed side of the substrate [12].
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