Immunohistochemistry with a minoxidil antibody suggested that minoxidil-immunoreactivity is associated with the root sheaths, laterally orientated differentiating matrix cells, and dividing epithelial cells of cultured vibrissa follicles of pigmented and albino neonatal mice. The dermal papilla and connective tissue sheath were devoid of minoxidil-immunoreactivity. To verify that minoxodil-immunoreactivity in the follicles was specific, immunostaining was conducted with dissected whisker pads, formalin-fixed "dead" follicles, and sections of spleen, liver and kidney (non-haired organs) cultured with minoxidil. Microscopic examination revealed minoxidil-immunoreactivity in all of these tissues. Follicles and whisker pads cultured with minoxidil, then washed for one h in media were devoid of minoxidil-immunoreactivity. These data suggest that minoxidil-immunoreactivity in cultured vibrissa follicles is probably non-specific. Sections of skin from C3H and CF1 mice which were topically dosed with minoxidil (in vivo) showed no minoxidil-immunoreactivity. Autoradiography demonstrated that tritiated minoxidil was bound in vivo and in vitro only to melanin granules in pigmented follicles of rodent and human tissue. This is probably non-specific binding since melanin is known to accumulate several chemically and pharmacologically unrelated drugs. It is reasonable to conclude that, under the conditions of these experiments, minoxidil is not specifically localized in any cells of whisker, pelage or, scalp follicles.
Since previous literature suggested that estrogen-treated male mice are models for human benign prostatic hypertrophy, a series of studies was designed to examine urine retention and urogenital tract changes in rodents given chronic estradiol-17 beta (E) and dihydrotestosterone (DHT) treatments. In Study 1, intact and castrate male mice received E, DHT or E plus DHT for four weeks via subcutaneous Silastic capsules. Bladder urine volume increased in the groups given E and this effect was not altered by castration, DHT or removal of E capsules two weeks before necropsy. Estrogen treatment also increased mortality. In Study 2, intact male, intact female, adrenalectomized (Adx) male and sham Adx male mice received 16 weeks of steroid treatments. Bladder urine volume increased in all E treated groups regardless of sex or Adx. Hydronephrosis, hydroureter and increased mortality were found in the E treated mice of both sexes. Estrogen induced epithelial changes and edema of the prostate, vas deferens and the utriculus prostaticus. In further studies male rats, hamsters and guinea pigs were given several different dosages of E but no evidence of urine retention or increased mortality was found. Taken together these studies suggest that E-induced urine retention is unique to mice. Although urine retention and hydronephrosis found in the mice were similar to those in humans with BPH, the lesion that results in the urine obstruction is not similar.
To identify minoxidil target cells in hair follicles we followed the uptake of radiolabeled drug in mouse vibrissae follicles both in vitro and in vivo. Autoradiography showed that both 3H-minoxidil and 3H-minoxidil sulfate accumulated in the differentiating epithelial matrix cells superior to the dermal papilla, a distribution similar to that of pigment. Minoxidil localized in melanocytes, melanocyte processes, and areas of greater melanin concentrations within the epithelial cells. Although uptake of minoxidil was significantly less in unpigmented follicles, the drug stimulated proliferation and differentiation of both pigmented and unpigmented follicles. Labeled minoxidil bound to Sepia melanin and was displaced with unlabeled minoxidil and other electron donor drugs. This interaction with melanin acts as a targeting mechanism of minoxidil to pigmented hair follicles but has no apparent functional significance in hair growth. This work illustrates how measurement of drugs in hair may be biased by pigmentation.
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