Glucuronidation is a major pathway of thyroid hormone metabolism in rats, involving at least three different hepatic UDP-glucuronyltransferases (UGTs): bilirubin UGT, phenol UGT and androsterone UGT. We have studied the effects of short-term (3 days) fasting and long-term (3 weeks) food restriction to one-third of normal intake (FR33) on hepatic UGT activities for thyroxine (T4), triiodothyronine (T3), bilirubin and androsterone in male and female Wistar rats with either a functional (high activity, HA) or a defective (low activity, LA) androsterone UGT gene. Because food deprivation is known to induce centrally mediated hypothyroidism in rats, results were compared with those obtained in methimazole (MMI)-induced hypothyroid rats. Both fasting and FR33 produced largely parallel increases in T4 and bilirubin UGT activities. These effects were greater in males than in females, and were reproduced in MMI-treated rats. In male and female HA rats, fasting induced insignificant increases in T3 UGT activity and had no effect on androsterone UGT activity. In male HA rats, FR33 was associated with an increase in T3 UGT activity, while androsterone UGT activity showed little change. However, in female HA rats both T3 and androsterone UGT activities were markedly decreased by FR33. Triiodothyronine UGT activity in LA rats was strongly decreased compared with HA rats, but was not further decreased by FR33 in female LA rats, supporting the importance of androsterone UGT for T3 glucuronidation. These results demonstrate different sex-dependent effects of food deprivation on hepatic T4 and T3 glucuronidation that are associated with changes in the expression of bilirubin UGT and androsterone UGT, respectively. For the increased T4 and bilirubin UGT activities at least, these effects appear to be mediated by the hypothyroid state of the (semi)starved animals.