Regulation of cysteine dioxygenase and γ-glutamylcysteine synthetase is associated with hepatic cysteine level

Two hepatic enzymes, cysteine dioxygenase (CDO) and γ-glutamylcysteine synthetase (GCS), play important regulatory roles in the response of cysteine metabolism to changes in dietary sulfur amino acid or protein levels. To examine the time-course of changes in CDO and GCS activities, CDO and GCS-catalytic or heavy subunit protein and mRNA levels, and cysteine and glutathione levels, we adapted rats to either a low protein (LP) or high protein (HP) diet, switched them to the opposite diet, and followed these parameters over 6 days. Hepatic CDO activity and amount, but not mRNA level, increased in response to higher protein intake; the t1/2 of change for CDO activity or protein level was 22 h for rats switched from a LP to a HP diet and 8 h for rats switched from a HP to a LP diet, suggesting that the HP diet decreased turnover of CDO. Hepatic GCS activity, catalytic subunit amount and mRNA level decreased in response to a higher protein intake. GCS catalytic subunit level changed with a similar t1/2 for both groups, but the change in GCS activity in rats switched from a LP diet to a HP diet was faster (∼16h) than for rats switched from a HP to a LP diet (∼74h). Hepatic cysteine and glutathione levels reached new steady states within 12 h (LP to HP) or 24 h (HP to LP). CDO activity appeared to be regulated at the level of protein, probably by diminished turnover of CDO in response to higher protein intake or cysteine level, whereas GCS activity appeared to be regulated both at the level of mRNA and activity state in response to the change in cysteine or protein availability. These findings support a role of cysteine concentration as a mediator of its own metabolism, favoring catabolism when cysteine is high and glutathione synthesis when cysteine is low.