Effects of acute caffeine ingestion and menopause on sulfate homeostasis in women

Abstract

Inorganic sulfate is a physiological anion which is utilized in the metabolism of both endogenous compounds and xenobiotics. Its homeostasis is maintained predominantly by facilitated reabsorptive processes in the kidneys. The objectives of the present investigation were to evaluate the effects of menopausal status and caffeine ingestion on the serum concentrations and clearance of inorganic sulfate. Thirty-nine women who were classified as premenopausal, postmenopausal with or without estrogen treatment, and postmenopausal with osteoporosis participated in the study. The women were studied on two separate occasions following the ingestion of a decaffeinated beverage to which 6 mg caffeine/kg lean body mass or no caffeine was added. All women were habitual caffeine users (mean ingestion of 588 mg caffeine per day) but abstained from all caffeine sources for 2 weeks prior to the control study day. Postmenopausal women with estrogen supplementation exhibited significantly lower sulfate serum concentrations (0.24 ± 0.02 mM vs. 0.32 ± 0.04 mM in premenopausal women, mean ± SD, p < 0.05) and a decreased renal reabsorption of sulfate for the control (no caffeine) period. There was no difference in serum sulfate or sulfate reabsorption in estrogen supplemented postmenopausal women, compared with women not taking estrogen. Postmenopausal women with osteoporosis had significantly lower creatinine and sulfate clearances than postmenopausal women with estrogen supplementation which may be related to their older age, or factors related to the disease process. The 6 mg/kg dose of caffeine caused a diuresis, but no change in GFR, as indicated by urine volume and creatinine clearance values, respectively. Caffeine administration resulted in an increase in the sulfate excretion rate; there was no change in sulfate serum concentrations. The results of this investigation indicate that menopause results in decreased sulfate serum concentrations that may be the consequence of a decreased renal reabsorption of sulfate. Secondly, this investigation demonstrated that caffeine ingestion increases the urinary excretion of sulfate, an effect that may be related to the diuretic effect of caffeine or due to a caffeine-induced alteration in the renal reabsorption of sulfate.