Divergence of growth hormone actions on hepatic drug metabolism in the presence and absence of the pituitary gland

Sex- and dose-dependent effects of neonatally administered aspartate on the ultradian patterns of circulating growth hormone regulating hexobarbital metabolism and action

Rats, neonatally treated with monosodium aspartate (MSA), exhibited developmental defects through adulthood that were characterized by stunted growth, obesity, and reduced size of the liver, kidney, adrenals, and pituitary. Adult male and female rats treated with 4 mg of MSA had no detectable plasma growth hormone as determined from serial blood samples taken every 15 min for 8 consecutive hr. Associated with this loss of circulating growth hormone in the males was a dramatic decline in in vivo and in vitro hexobarbital metabolism and hepatic cytochrome P450 to female levels. The loss of plasma growth hormone in the females had no effect on the already low levels of hepatic monooxygenases. At 2 mg/g body weight, MSA produced both sex- and dose-dependent effects that were far more subtle than the full-blown obesity and growth retardation associated with the larger 4-mg dose. While the mean concentration of circulating growth hormone was reduced 70 to 90% in 2-mg-MSA-treated rats, the sexually dimorphic, ultradian patterns of growth hormone secretion were undisturbed. Affected males continued to secrete a pulse of growth hormone every 3 hr, albeit at greatly reduced amplitudes, interposed by normally undetectable baselines. Similarly, 2-mg-MSA-treated females had greatly reduced mean levels of plasma growth hormone, but with the usual secretion of multiple pulses never dropping to baseline. Surprisingly, the sex-dependent, hepatic monooxygenases, which are normally regulated by the ultradian secretions of growth hormone, were unaffected by the 2-mg MSA treatment. Our results suggest that while an ultradian pulse of circulating growth hormone is necessary for the characteristically male profile of hepatic monooxygenases, neither the amplitude of the secretory peaks nor their total growth hormone content is critical.

Effect of hypophysectomy on caffeine elimination in rats

Two groups of 8-week-old Sprague-Dawley male rats were used: 8 hypophysectomized (H[-]), operated on day 0, treated by daily sc tetracosactid (ACTHs: 10 micrograms), and thyroxine (T4:5 micrograms/100 g); 7 sham-operated, treated by sc saline solution. ACTHs, T4, saline solution were administered on days 7-16. The animals received po caffeine (CAF) 4 mg/kg as citrate salt on day 15. Ten blood samples were drawn from the tail. Plasma CAF concentrations were determined by HPLC. CAF apparent clearance and apparent volume of distribution were lower in H(-) rats than in controls: 0.281 +/- 0.072 vs 0.455 +/- 0.165 l/kg/h (-38%; P less than 0.05) and 0.520 +/- 0.239 vs 1.28 +/- 0.266 l/kg (-59%; P less than 0.01) respectively. CAF half-life was lower in H(-) rats than in controls: 1.33 +/- 0.621 vs 2.12 +/- 0.676 h (-37%; P less than 0.01). CAF is a drug with a low hepatic extraction ratio and low plasma protein binding. CAF clearance is therefore primarily dependent on intrinsic clearance, which depends on the activity of the enzymes involved in CAF metabolism. These data suggest that hepatic CAF metabolism is reduced in H(-) rats treated by SC ACTHs and T4. The decrease in CAF apparent volume of distribution is probably related to dehydration, as suggested by increase in urine flow and hematocrit. The CAF half-life was probably low because the volume of distribution was proportionally more decreased than the clearance. Our results suggest that the pituitary gland plays a role in the regulation of hepatic CAF metabolizing enzymes.

Has bovine somatotropin (BST) an effect upon drug disposition? Comparative studies in goats and cattle with sulphadimidine and antipyrine after parenteral administration of BST, zeranol and proligestone

Daily subcutaneous BST injection in lactating cows, bulls and castrated male dwarf goats did not induce significant changes in the pharmacokinetic parameters of antipyrine (AP) and sulphadimidine (SDD). Similarly, no changes were obtained after injection of slow-release BST formulations in lactating cows and non-lactating female goats. In contrast to androgenic hormones, both zeranol and proligestone had no effect upon the disposition of AP and SDD, although both synthetic hormones did induce enhanced plasma somatotropin concentrations. In goats, metabolic effects induced by zeranol and BST included significant reductions in plasma urea values, whereas plasma creatinine levels were somewhat lower after daily BST administration.

Growth hormone regulation of hepatic drug-metabolizing enzymes in the mouse

Hepatic microsomal hexobarbital hydroxylase and aminopyrine N-demethylase activities increased in adult male mice following hypophysectomy to female-like levels, eliminating the normal sexually dimorphic pattern of these enzymes. Exogenous growth hormone replacement (0.08 I.U./100 g body weight/day) re-established the lower masculine activities only when administered subcutaneously once every 12 hr. Enzyme activities remained elevated at female-like levels when the same total dose of growth hormone was infused continuously using osmotic pumps or was injected once every 6 hr. These data suggest that, despite the reversed orientation of sex differences in hepatic drug-metabolizing enzymes between rats and mice (i.e. higher enzyme activities in female mice and male rats), the basic hormonal regulatory axis is similar in the two species. Cyclic fluctuations of systemic growth hormone concentrations masculinize kinetic parameters of hepatic hexobarbital hydroxylase and aminopyrine N-demethylase in both species. Rats and mice differ in that these similar hormonal signals lower the apparent Vmax in male mice, while markedly increasing the enzyme activities in male rats. It appears more likely, therefore, that species- and sex-specific differences in the total hepatic cytochrome P-450 isoenzyme populations produce the reversed sex-dependent pattern of hexobarbital hydroxylase and aminopyrine N-demethylase.

Effects of hypophysectomy and growth hormone treatment on sex-specific forms of cytochrome P-450 in relation to drug and steroid metabolisms in rat liver microsomes

Hypophysectomy decreased the content of a male specific cytochrome P-450, P-450-male, in male rats, while it expressed P-450-male and completely depressed a female specific cytochrome P-450, P-450-female, in female rats. Intermittent injections of human growth hormone (GH), which mimic the secretion in males, restored P-450-male in hypophysectomized (Hypox) male rats and partially restored P-450-female in Hypox female rats. Continuous infusion of GH, which mimics the female secretion pattern, into Hypox male rats caused a further decrease in P-450-male content, and it caused the expression of P-450-female. In Hypox female rats, the same treatment depressed P-450-male and expressed P-450-female to the level of an intact female. These results indicate that the diurnal changes in the pattern of serum growth hormone level regulate the expression of P-450-male and P-450-female. The activities of testosterone 2 alpha- and 16 alpha-hydroxylases were closely correlated to P-450-male content with the correlation coefficients (r) of 0.955 and 0.929, respectively. Benzo(a)pyrene hydroxylation was also correlated to P-450-male content (r = 0.850). Aminopyrine N-demethylation and propoxycoumarin O-depropylation were correlated to less extents (r = 0.692 and r = 0.720), while aniline hydroxylation and O-ethylresorufin O-deethylation were not correlated to P-450-male content. These results indicate that testosterone 2 alpha- and 16 alpha-hydroxylations are closely dependent, but the metabolism of a variety of drugs are dependent to different extents on P-450-male in rat liver microsomes.

Effect of growth hormone on alcohol dehydrogenase activity in hepatocyte culture

The effect of growth hormone on the activity of alcohol dehydrogenase was determined in hepatocyte culture from normal and hypophysectomized male rats. Alcohol dehydrogenase activity was highest in hepatocytes harvested from hypophysectomized rats. The enzyme activity remained stable in hepatocytes harvested from normal rats during 2 to 6 days of culture but declined steadily in hepatocytes cultured from hypophysectomized rats. The combination of growth hormone (1 microgram per ml) and corticosterone (1 microM) increased alcohol dehydrogenase activity in hepatocytes from normal rats, while neither hormone alone had an effect. Corticosterone (1 microM) prevented the decline of the enzyme activity in hepatocytes from hypophysectomized rats, and the combination of growth hormone (1 microgram per ml) and corticosterone (1 microM) resulted in a further increase in enzyme activity. The increases in alcohol dehydrogenase, due to the exposure of the hepatocytes to the combination of growth hormone and corticosterone, were associated with increases in the rate of ethanol elimination. These observations indicate that growth hormone enhances liver alcohol dehydrogenase activity and ethanol elimination, and that this effect is dependent on the permissive influence of corticosterone.

Feminization of the hepatic monooxygenases by growth hormone is mimicked by puromycin and correlates with a decrease in male-type cytochrome P450

The hepatic monooxygenase system (MFO) was studied in hypophysectomized male rats treated with growth hormone (GH), puromycin, or both. GH significantly decreased the amount of cytochrome P450 and the activity of ethylmorphine demethylase but did not affect aniline hydroxylase or NADPH cytochrome c reductase. Puromycin significantly increased the activity of the reductase but otherwise had effects identical to GH. The agent's effects were additive. By labelling the P450 with [3H]-heme we found that GH decreased the amount of male-type (slow turnover) P450 by 56% but lowered the female-type (fast turnover) by only 10%. The hormone increased the half-life of both types by 56 and 100% respectively. We conclude that GH feminizes the MFO by decreasing the synthesis of male-type cytochrome P450.

Effect of some synthetic steroids on rat liver function

Norethynodrel proved to have moderately potent effects on hepatic function in female rats. It causes (a) loss of body mass, (b) increase in the relative liver mass, (c) rise in the protein content of liver, (d) increase in the cytochrome P-450 level, (e) reduction in the length of pentobarbital-induced sleep, and (f) increase in the rate of biotransformation of (i) aniline and (ii) aminopyrine. In contrast, ethynyl estradiol was shown to have little or no effect as judged by the same criteria, but, like norethynodrel, progesterone and estradiol, caused loss of body mass.