Most of the constitutive hepatic P450 isoforms expressed in the rat exhibit dramatic gender differences. Whereas only male hepatocytes contain CYP2A2, 2C11, and 3A2, only female hepatocytes express CYP2C12 and 3- to 4-fold greater levels of CYP2C7. This sexually dimorphic expression of hepatic P450 isoforms is regulated by the gender-dependent secretory GH profiles, i.e. episodic in males and continuous in females. In the case of the feminine GH profile, the continuous presence of the hormone in the circulation completely suppresses male-specific CYP2A2, 2C11, and 3A2, while stimulating full expression of female-dependent CYP2A1, 2C7, 2C12, and non-P450 testosterone 5alpha-reductase (type 1). The gender-dependent expression of the P450s can be reversed by exposing male rats to the continuous feminine plasma GH profile and females to the episodic masculine GH profile. Under these conditions, females will now express the male-specific isoforms and suppress the female-dependent forms, whereas the opposite will occur in the males. Nevertheless, it is not clear whether the levels of expression or suppression are comparable in male and female rats exposed to the same sex-dependent GH profiles. In the present study, we have renaturalized the circulating feminine GH profile in euthyroid-maintained, hypophysectomized female and male rats at six concentrations ranging from 3-100% of normal. Continuous monitoring of GH levels revealed indistinguishable plasma profiles in females and males at each dosage administered. In the case of females, restoration of the feminine-like plasma GH profile at a concentration that was 3% of the normal level restored expression levels (i.e. mRNA, protein, and/or catalytic activity) of female-dependent CYP2C12, 2A1, and 5alpha-reductase to 50% or greater of normal and fully suppressed expression of male-specific CYP2A2, 2C11, and 3A2. Twice the dosage of the hormone (6% of normal) was required to restore female-predominant CYP2C7 to 50% of normal in hypophysectomized female rats. In contrast, we found that all of the measured isoforms were significantly less responsive to the inductive and suppressive effects of the feminine-like GH profile when administered to male rats. While suppression of the male-specific isoforms (i.e. CYP2A2, 2C11, and 3A2) in male rats required concentrations of GH in the feminine profile 2-3 times greater than were effective in female rats, no dosage of the hormone was as effective in inducing female-dependent P450s (i.e. CYP2A1, 2C7, and 2C12) in males as in females. Clearly, the continuous feminine GH profile was more effective at inducing and suppressing gender-dependent isoforms of hepatic P450 when restored to female rats, where it is normally secreted, than in males. As GH profiles appear to be the sole factor responsible for regulating the sexually dimorphic expression of hepatic P450 isoforms in adult rats, the differential responsiveness of male and female rats to the feminine GH profile are likely to be inherently induced by irreversible imprinting during a critical developmental period.