RESUMO
cis-Aconitate decarboxylase (ACOD1, IRG1) converts cis-aconitate to the immunomodulatory and antibacterial metabolite itaconate. Although the active site residues of human and mouse ACOD1 are identical, the mouse enzyme is about fivefold more active. Aiming to identify the cause of this difference, we mutated positions near the active site in human ACOD1 to the corresponding residues of mouse ACOD1 and measured resulting activities in vitro and in transfected cells. Interestingly, Homo sapiens is the only species with methionine instead of isoleucine at residue 154 and introduction of isoleucine at this position increased the activity of human ACOD1 1.5-fold in transfected cells and 3.5-fold in vitro. Enzyme activity of gorilla ACOD1, which is almost identical to the human enzyme but has isoleucine at residue 154, was similar to the mouse enzyme in vitro. Met154 in human ACOD1 forms a sulfur-π bond to Phe381, which is positioned to impede access of the substrate to the active site. It appears that the ACOD1 sequence has changed at position 154 during human evolution, resulting in a pronounced decrease in activity. This change might have offered a selective advantage in diseases such as cancer.