Effect of phosphorylation and single nucleotide polymorphisms on caspase substrates processing

In this study, we predicted how phosphorylation and SNPs affect known human caspas e proteolytic events collected in the CASBAH and Degrabase databases by applying Random Forest caspases’ substrates prediction method, as implemented in the CaspDB, and the molecular dynamics free energy simulations approach. Our analysis confirms several experimental observations. Phosphorylation could have both positive or negative regulatory effects depending on its position with respect to the caspase cleavage site. For instance, we demonstrate that phosphorylation at P1′ is the most detrimental for proteolytic efficiency of caspases. Phosphorylation at the P2 and P2′ positions also negatively affect the cleavage events. In addition, we uncovered SNPs in 11 caspase substrates capable of completely abolishing the cleavage site due to polymorphism at the P1 position. The findings presented here may be useful for determining the link between aberrant proteolysis and disease.
Source: Apoptosis - Category: Molecular Biology Source Type: research