Identification of human cytochrome P450 isozymes responsible for the in vitro oxidative metabolism of finasteride.

Finasteride, a prescription drug for the treatment of benign prostatic hypertrophy and alleviation of symptoms associated with benign prostatic hypertrophy and alleviation of symptoms associated with benign prostatic hypertrophy, has been shown to be metabolized in rat hepatic microsomes by hydroxylation at the t-butyl group (omega-OH finasteride), followed by further oxidation to the corresponding acid (omega-oic acid finasteride), with omega-aldehyde finasteride as an intermediate. In this study, we identified specific human cytochrome P450 (CYP) isozyme(s) involved in the in vitro metabolism of [14C]finasteride using CYP isozyme-selective inhibitors and microsomes containing specific recombinant human CYP isozymes (expressed in human AHH-1 TK+/-cells). Each of the three steps of the oxidative pathway was examined separately by using [14C]finasteride and its consecutive metabolites (omega-OH finasteride and omega-aldehyde finasteride) as substrates, and human liver microsomes or expressed recombinant CYP isozymes as the enzyme source. Gestodene, a mechanism-based inhibitor of CYP3A isozymes, showed a concentration-dependent inhibition of the oxidative metabolism of [14C]finasteride. In addition, the respective omega-OH finasteride and omega-oic acid finasteride metabolites were generated only by microsomes containing recombinant CYP3A4, but not the other isozymes (CYP1A1, CYP2B6, CYP2C8, CYP2C9, CYP2D6, and CYP2E1). Similar results were obtained for the oxidation of omega-OH finasteride to omega-aldehyde finasteride, suggesting that human CYP3A isozymes were involved in the oxidation of omega-OH finasteride. When omega-aldehyde finasteride was incubated with human liver microsomes in the presence of an NADPH regenerating system, both the omega-oic acid finasteride and the omega-OH finasteride were detected, suggesting that oxidative and reductive reactions were occurring simultaneously and that they were NADPH- or NADP-dependent. Inhibitors of CYP3A isozymes inhibited the oxidation of omega-aldehyde finasteride in a concentration-dependent manner; an increase in the reduction was also observed, presumably caused by inhibition of the competitive oxidative reaction. Other selective CYP inhibitors for CYP1A1/2 (alpha-naphthoflavone), CYP2C8-10 (sulfaphenazole), CYP2D6 (quinidine), and CYP2E1 (diallylsulfone) showed minor or no effects on both reactions. Consistent with these results, only microsomes containing human recombinant CYP3A4 catalyzed the oxidation of omega-aldehyde finasteride to omega-oic acid finasteride. These results indicate that the oxidation of omega-aldehyde finasteride was NADPH-dependent and was mediated at least in part by CYP3A4. In addition, NAD-dependent enzymes in cytosolic, microsomal, and mitochondrial fractions were capable of oxidizing omega-aldehyde finasteride to omega-oic acid finasteride. Other cellular fractions, particularly mitochondria, were shown to convert finasteride to omega-oic acid finasteride in a similar fashion.

Comparison of the effects of new specific azasteroid inhibitors of steroid 5 alpha-reductase on canine hyperplastic prostate: suppression of prostatic DHT correlated with prostate regression.

Four new azasteroid inhibitors of steroid 5 alpha-reductase were compared to the benchmark compound finasteride, each at a dose level of 1 mg/kg/day, as well to placebo and to castration, in seven groups of mature male beagle dogs with enlarged prostates. Prostate volumes were measured repetitively by a volume MRI method over 15 weeks of treatment. The study probed the obverse of the familiar relation between DHT and prostate growth, and provides the first documentation of a tight negative correlation between prostate regression and the prostatic concentration of DHT across a range of treatment regimens (r = -0.982). In this first direct comparison study of structure vs. in vivo activity for several azasteroids in the dog model of BPH, relative efficacy for induction of shrinkage of the dog prostate did not correlate at all with the inhibitor's relative activity against the dog 5 alpha-reductase in vitro. On the basis of the relative IC50 values it would not have been predicted that, at the dose tested, the analogue MK-434 (17 beta-benzoyl-4-aza-5 alpha-androst-1-en-3-one) was distinguished from the other inhibitors with respect to the induction of faster and more complete regression (69%) as well as greater reduction in prostatic DHT (95%), both of which approached the castrated dog levels of 75% prostatic shrinkage and > 98% reduction in DHT. Treatment with any one of the five azasteroids induced two- to five-fold increases in prostatic testosterone. However, total androgen was conserved at the placebo control level. Despite the differences noted, each azasteroid tested induced a highly significant decrease in prostatic volume that correlated tightly with a decreased prostatic DHT level in canine spontaneous BPH.

Azasteroids as inhibitors of testosterone 5 alpha-reductase in mammalian skin.

Elevated levels of testosterone 5 alpha-reductase (5 alpha-R) and its product, dihydrotestosterone are associated with a number of androgen-dependent skin conditions. A series of 4-azasteroids were tested in vitro as inhibitors of 5 alpha-R in the isolated anagen human hair follicle. Major structural requirements for maximal 5 alpha-R inhibitory activity include a 4-methyl-4-aza moiety and a bulky, lipophilic side chain at C-17. Only one compound, 17 beta-N,N-diethylcarbamyl-4-methyl-4-aza-5 alpha-androstan-3-one (4-MA), was found to be a potent 5 alpha-R inhibitor in all tissues studied: human hair follicles, foreskin (Ki = 3 nM), genital fibroblasts (Ki = 12 nM), and prostate. 17 beta-Hydroxysteroid dehydrogenase activity was not inhibited by 4-MA. With the exception of 4-MA, azasteroid IC50s varied widely in human prostate vs skin, suggesting the possible existence in man of at least two 5 alpha-R isozymes. Finasteride [N(1,1-dimethylethyl)-3-oxo-4-aza-5 alpha-androst-1-ene-17 beta-carboxamide], a delta 1 orally active, specific 5 alpha-R inhibitor exhibiting no affinity for the androgen receptor, was only modestly active in the hair follicle microassay (IC50 = 200 nM). However, it was a potent in vitro inhibitor of human foreskin and prostate 5 alpha-R. Orally administered to rats finasteride inhibited 5 alpha-R in skin. A vasodilator used to treat male pattern baldness (MPB), minoxidil, was found to be a weak inhibitor of human hair follicle 5 alpha-R (IC50 = 1000 nM). 5 alpha-R activity in frontal scalp hair follicles from a MPB subject was four times higher than in occipital follicles. 4-Azasteroids are efficient inhibitors of human skin 5 alpha-R and offer promise for the treatment of acne, hirsutism and MPB.

Identification and selective inhibition of an isozyme of steroid 5 alpha-reductase in human scalp.

Steroid 5 alpha-reductase (EC 1.3.1.22) catalyzes the reduction of testosterone to dihydrotestosterone. The 5 alpha-reductase found in human scalp has been compared with the enzyme found in prostate. The scalp reductase has a broad pH optimum centered at pH 7.0. This is distinctly different from the pH optimum of 5.5 observed with the prostatic form of the enzyme. These enzymes also differ in the Km for testosterone, which is 25-fold higher for the scalp reductase. The most significant difference between the two enzymes is their affinity for inhibitors. Two 4-azasteroids and a 3-carboxyandrostadiene are potent inhibitors of the prostatic reductase but are weak inhibitors of the scalp reductase. In contrast, several N-4-methylazasteroids are good inhibitors of the scalp reductase. These findings support a proposal that different isozymes of 5 alpha-reductase may exist in scalp and prostate. The scalp reductase was also compared to 5 alpha-reductase 1, one of the two enzymes recently cloned from human prostate [Andersson, S. & Russell, D. W. (1990) Proc. Natl. Acad. Sci. USA 87, 3640-3644; and Andersson, S., Berman, D. M., Jenkins, E. P. & Russell, D. W. (1991) Nature (London) 354, 159-161]. The characteristics of the cloned reductase 1 are comparable to those of the scalp reductase.

Topical anti-androgenicity of a new 4-azasteroid in the hamster.

The topical anti-androgenic activity of L-651,580 (methyl 3-oxo-4-methyl-4-aza-5 alpha-androst-1-ene-17 beta-carboxylate) was established in a series of for experiments using castrated male hamsters. During each 21-day experiment, the animals received a daily subcutaneous injection of 40 micrograms testosterone propionate or 20 micrograms dihydrotestosterone propionate. Test compound in 25 microliters of gel was applied daily to the left flank organ. Compounds assayed included L-651,580, WIN 17,665 (17 alpha-propyltestosterone), and SH-434 (17 beta-hydroxy-1 alpha-methyl-17 alpha-propyl-5 alpha-androstan-3-one). Endpoints were flank organ area, sebaceous gland area, and prostate weight. Very similar results were obtained with L-651,580 and WIN 17,665. Daily doses of 0.25 mg or more of either compound usually produced a significant reduction in the areas of treated flank organs and sebaceous glands underlying treated flank organs. Neither compound caused significant changes in the area of the contralateral flank organs and sebaceous glands, which indicated they possess little or no systemic activity at topically effective treatment levels. In direct comparisons, SH-434 was less anti-androgenic than L-651,580 or WIN 17,665, although in one experiment, 0.5 mg/d of SH-434 significantly reduced the area of treated flank organs and sebaceous glands. Neither WIN 17,665 nor SH-434 caused a change in prostate weight; however, in one of four tests, a significant decrease was induced by the 0.5 mg/d level of L-651,580. The results of these experiments show that the topical anti-androgenicity of L-651,580 compares very favorably with that of WIN 17,665 and SH-434. They also indicate that the topical administration of effective dosage levels of L-651,580 causes few, if any, systemic effects.

Effect of castration, DES, flutamide, and the 5 alpha-reductase inhibitor, MK-906, on the growth of the Dunning rat prostatic carcinoma, R-3327.

Male rats bearing implants of the Dunning rat prostatic carcinoma, R-3327, were used in a 42-day study to determine the effect of castration or orally administered flutamide (FL), DES (diethylstilbestrol) or the 5 alpha-reductase inhibitor, MK-906, on the growth of this androgen-responsive cancer. The rate of growth and final weights of the tumor and the ventral prostate (VP) were all reduced (P less than 0.05) by castration. Flutamide (25 mg/kg/day) significantly decreased tumor and VP weights in intact rats and castrates given 100 micrograms/day (SC) of testosterone propionate (TP) or dihydrotestosterone propionate (DHTP). It also significantly retarded tumor growth rate in TP- or DHTP-treated castrates and was marginally effective in intact animals. DES (100 micrograms/kg/day) reduced (P less than 0.05) tumor and VP weights of intact rats but did not significantly affect tumor growth rate or weight in castrates given TP or DHTP. These results indicated that the effect of DES on tumor growth is caused by its inhibition of the secretion or release of the gonadotropins necessary for testicular androgen production. MK-906 (25 mg/kg/day) affected neither the gross nor the histomorphology of the tumor in intact rats or castrates given TP or DHTP. Further, it caused no histological changes in the testes of intact rats. It did, however, significantly reduce VP weight in intact animals and TP-treated castrates but not in those given DHTP. This illustrates that the anti-androgenicity of MK-906 stems from its inhibition of DHT formation. The failure of MK-906 to influence tumor growth in the TP-treated castrates strongly suggests that the R-3327 tumor can respond to testosterone directly. If that is true, then its growth is unlikely to be affected by a pure 5 alpha-reductase inhibitor such as MK-906. In ancillary experiments, tumors from MK-906-treated animals were found to have reduced levels of DHT and, when assayed in vitro, to have a reduced capacity to convert [3H]-T to [3H]-DHT.

Azasteroids: structure-activity relationships for inhibition of 5 alpha-reductase and of androgen receptor binding.

A series of steroids, primarily 4-azasteroids, were prepared and tested in vitro as inhibitors of human and rat prostatic 5 alpha-reductase and of binding of dihydrotestosterone to the rat androgen receptor. The primary structural modifications were changes of the A ring and of moieties attached at the C-17 position of the steroid nucleus. New A-ring modifications included the 4-cyano-3-oxo-delta 4 system in the carbocyclic series and 1 alpha-CN, 1 alpha-CH3, 1 alpha,2 alpha-CH2, 2 beta-F, 2-aza, 2-oxa, and A-homo changes in the 3-oxo-4-aza series. In addition, 4-azasteroids with a D-homo ring or methyl substitution at C-7 (alpha and beta) or C-16 (alpha and beta) were prepared. The majority of the C-17 substituents were prepared from reactive intermediates derived from the 17 beta-COOH. Enhanced 5 alpha-reductase inhibition in both the human and rat enzyme assays is seen with 4-CN substitution on 3-oxo-delta 4 steroids and with a C-17 side chain incorporating a lipophilically substituted semipolar group on the 4-aza-3-oxo-5 alpha-androstane nucleus. Fewer highly active compounds were found in the human enzyme assay than in the rat assay. Structural requirements for inhibition of the rat androgen receptor are much different from those for inhibition of the enzyme. The 17 beta-OH moiety enhances potency more than any other feature while introduction of double bonds at C-1 or C-5 in the azasteroid gives a small improvement. Azasteroids unsubstituted at the 4-position show greatly diminished receptor activity.

Prostatic effects induced in dogs by chronic or acute oral administration of 5 alpha-reductase inhibitors.

A series of 4-azasteroidal 5 alpha-reductase inhibitors was tested in dogs to determine the effect of chronic (35-44 day) oral administration on prostate size and histology and acute oral administration on prostatic concentrations of testosterone (T) and dihydrotestosterone (DHT). The extent to which the results of the two tests were correlated was also studied in order to see whether the acute test could be used to predict activity in the chronic test. Six delta 1 analogs of the potent 5 alpha-reductase inhibitor, 4-MA (17 beta-N,N-diethylcarbamoyl-4-aza-4-methyl-5 alpha-androstan-3-one) were uniformly active at low dosage levels (less than or equal to 3 mg/kg) in both types of assay whereas several C1-C2 saturated analogs exhibited little activity in the chronic test. The nature of the side chain and whether there was a methyl or a proton at 4-N did not dramatically influence the activity of delta 1 compounds. There was a broad general agreement between the results of the two kinds of test in that if a compound acutely decreased the prostatic concentration of DHT it was likely to reduce prostate size and alter prostatic histology when given on a chronic basis.

5 Alpha-reductase inhibitory and anti-androgenic activities of some 4-azasteroids in the rat.

Inhibition of 5 alpha-reductase and anti-androgenicity were studied in rats treated with various 4-azasteroids. The known inhibitor, N,N-diethyl-4-methyl-3-oxo-4-aza-5 alpha-androstane-17 beta-carboxamide (4-MA) served as a reference compound, and analogs of this basic molecule were assayed. Enhancement of enzyme inhibitory potency was usually seen with delta 1 analogs, whereas reduction in activity was noted with substitutuents such as delta 5, a spirotetrahydrofuran ring at C-17 or 4-deaza groups. Many of the 4-azasteroids had a much greater oral anti-androgenic effect against testosterone propionate (TP) than dihydrotestosterone propionate (DHTP). This difference in activity versus the two androgens is believed to reflect the necessity for TP to undergo reduction to DHT before becoming capable of stimulating prostatic growth. Inhibition of 5 alpha-reductase by active compounds prevented the conversion, thereby producing an anti-androgenic effect. In this regard, certain delta 1 analogs of 4-MA, particularly those bearing a 17 beta-(N-tert butylcarbamoyl) group, proved very effective against TP but were relatively inactive versus DHTP.

Selenium dioxide oxidation of vitamin D3 acetate to a dimer of 1-oxotransvitamin D3 acetate.

The treatment of vitamin D3 acetate with selenium dioxide and t-butyl hydroperoxide leads to a mixture from which a Diels-Alder dimer of 1-oxotransvitamin D3 acetate was isolated.

Species differences in prostatic steroid 5 alpha-reductases of rat, dog, and human.

The conversion of testosterone to 5 alpha-dihydrotestosterone by prostate particulates from rats, dogs, and humans was investigated, and significant species differences were found with their pH profiles, affinities for 4-azasteroidal inhibitors, and sensitivities to mercuric sulfhydryl reagents. The pH optima for the rat (pH 7), the dog (pH 6), and the human (pH 5) enzyme are significantly different. Mersalyl acid and p-hydroxymercuribenzoate inactivate only the rat 5 alpha-reductase, but not the human or dog enzyme. The rank orders of potencies of 24 3-oxo-4-azasteroids to inhibit 5 alpha-reductases of the rat, dog, and human prostate are different. The variation of the 17 beta-functional groups of the inhibitors demonstrates clearly the species differences. Those inhibitors with a 17 beta-diethylcarbamoyl, 17 beta-diisopropylcarbamoyl, 17 beta-t-butylcarbamoyl, or 17 beta-secbutylcarbonyl functional group are approximately equipotent as inhibitors of the rat and human enzymes, whereas they are only 0.1-15% as potent as inhibitors of the dog enzyme. On the other hand, those inhibitors with a 17 beta-spiroether functional group are most potent as inhibitors of the rat enzyme, are 15-50% as potent as inhibitors of the dog enzyme, and are 0.2-0.4% as potent as inhibitors of the human enzyme. Those inhibitors with a 17 beta-n-octylcarbamoyl, 17 beta-(1-carboxyethyl), or 17 beta-(1-carboxy-3-butyl) functional group are 2-3 orders of magnitude less potent as inhibitors of the dog and human enzymes than as inhibitors of the rat enzyme. These results suggest that prostatic 5 alpha-reductases of rats, dogs, and humans are significantly different. In spite of the significant species differences in inhibitor affinities, where determined, inhibition of the rat, dog and human enzymes by these compounds is competitive with testosterone. These 3-oxo-4-azasteroids have a similar rank order of potency as inhibitors of 5 alpha-reductase in human normal, benign hyperplastic, and cancerous prostates, indicating that the inhibitor-binding sites of 5 alpha-reductase in the prostate in different pathological states are similar. The affinities of the 3-oxo-4-azasteroids for rat prostatic cytosol receptor were determined. Five of these 5 alpha-reductase inhibitors have no significant affinity for the androgen receptor, whereas others do have an affinity for the receptor.

Photoaffinity labeling of steroid 5 alpha-reductase of rat liver and prostate microsomes.

21-Diazo-4-methyl-4-aza-5 alpha-pregnane-3,20-dione (Diazo-MAPD) inhibits steroid 5 alpha-reductase in liver microsomes of female rats with a Ki value of 8.7 +/- 1.7 nM, and the inhibition is competitive with testosterone. It also inhibits the binding of a 5 alpha-reductase inhibitor, [3H] 17 beta-N,N-diethylcarbamoyl-4-methyl-4-aza-5 alpha-androstan-3-one ([3H]4-MA), to the enzyme in liver microsomes. The inhibition of 5 alpha-reductase activity and of inhibitor binding activity by diazo-MAPD becomes irreversible upon UV irradiation. [1,2-3H]Diazo-MAPD binds to a single high affinity site (Kd 8 nM, 125 pmol binding sites/mg of protein) in liver microsomes of female rats, and this binding requires NADPH. Without UV irradiation, this binding is reversible, and it becomes irreversible upon UV irradiation. Both the initial reversible binding and the subsequent irreversible conjugation after UV irradiation are inhibited by inhibitors (diazo-MAPD and 4-MA) and substrates (progesterone and testosterone) of 5 alpha-reductase, but they are not inhibited by 5 alpha-reduced steroids (5 alpha-dihydrotestosterone and 5 alpha-androstan-3 alpha, 17 beta-diol). NADPH stimulates the binding of [3H] diazo-MAPD to microsomes of male rat liver and prostate. UV irradiation also induces conjugation of [3H] diazo-MAPD to these microsomes. Photoaffinity labeled liver microsomes of female rats were solubilized and fractionated by high performance gel filtration. The radioactive conjugate eluted in one major peak at Mr 50,000.

Azasteroids as inhibitors of rat prostatic 5 alpha-reductase.

A series of A-ring heterocyclic steroids has been prepared and tested for inhibition of rat prostatic steroid 5 alpha-reductase in vitro. Strikingly high inhibitory activity was found with a group of 17 beta-substituted 4-methyl-4-aza-5 alpha-androstan-3-ones. These compounds were prepared from 3-keto-delta 4-precursors by oxidative (O3 or NaIO4-KMnO4) A-ring cleavage followed, in turn, by ring closure with an amine and hydrogenation over platinum catalyst. Other A-ring azasteroids were made by Beckmann rearrangement of oximes of 2-oxo-A-nor, 3-oxo- and 4-oxo-5 alpha-androstanes. An A-nor-2-oxo-3-azasteroid was prepared by oxidative decarbonylation of a precursor 2,3-dioxo-4-azasteroid with m-chloroperbenzoic acid. A-ring modifications of the 4-azasteroids included delta 1-unsaturation, 2- and 4-substituents, and 3-carbonyl replacements. Side chains at the 17-position were varied with an emphasis on carboxylate derivatives (salts, esters, and amides).

4-Azasteroidal 5 alpha-reductase inhibitors without affinity for the androgen receptor.

In efforts to develop potent 5 alpha-reductase inhibitors without affinity for the androgen receptor, synthetic 3-oxo-5 alpha-steroids were tested for their ability to inhibit 5 alpha-reductase, using [14C]testosterone as the substrate, and for their ability to inhibit the binding of [3H]5 alpha-dihydrotestosterone to the androgen receptor of rat prostate cytosol. 2',3' alpha-Tetrahydrofuran-2'-spiro-17-(5 alpha-androstan-3-one) is not an inhibitor of 5 alpha-reductase and has a high affinity for the androgen receptor; substitution of the -CH2- at the 4-position with N-H resulted in a good inhibitor of 5 alpha-reductase. The 4-N-CH3 derivative is even more active, whereas the N-CH2-CH3 derivative is inactive. These 4-aza derivatives have much lower affinity for the androgen receptor than the parent compound. The 4-N-H derivatives of several 3-oxo-5 alpha-steroids were found to be 20-100% as potent as their corresponding 4-N-CH3 analogs as inhibitors of 5 alpha-reductase, whereas their androgen receptor affinities were at least 40-fold lower than their 4-N-CH3 analogs. Their 5 beta-isomers did not inhibit either 5 alpha-reductase or the androgen receptor binding of [3H]5 alpha-dihydrotestosterone. Two of these 4-N-H steroids, 17 beta-N,N-diethylcarbamoyl-4-aza-5 alpha-androstan-3-one and 17 beta-N, N-diisopropylcarbamoyl-4-aza-5 alpha-androstan-3-one, are potent 5 alpha-reductase inhibitors with Ki values equal to 29.2 +/- 1.7 and 12.6 +/- 0.8 nM, respectively, but have little affinity for the androgen receptor. The inhibition of 5 alpha-reductase by both compounds is competitive with testosterone. When [3H]testosterone was incubated with minced rat prostate in the presence of either of these two 4-azasteroids, the nuclear concentration of 5 alpha-dihydrotestosterone decreased and that of testosterone increased. The total nuclear uptake of testosterone plus 5 alpha-dihydrotestosterone was not significantly affected. These 4-azasteroids should be useful for investigating the importance of 5 alpha-reductase in androgen action in vivo.

12. Androgens: Pharmacodynamics and antagonists. Biochemical and biological studies with 4-aza-steroidal 5 alpha-reductase inhibitors.

A series of 4-aza-3-oxosteroids were found to be good inhibitors of steroid 5 alpha-reductase. Two of these compounds. 17 beta-N,N-diethylcarbamoyl-4-methyl-4-aza-5 alpha-androstan-3-one (4-MA) and 4-methyl-4-aza-5 alpha-pregnan-3-one-20(s)-carboxylate, inhibit 5 alpha-reductase competitively with testosterone (T) with Ki values of 5 and 1.7 nM, respectively. These 5 alpha-reductase inhibitors also have an affinity to the androgen receptor which is orders of magnitude lower than that of 5 alpha-dihydrotestosterone (DHT), spironolactone and cyproterone acetate. 4-MA decreases the prostatic concentration of DHT and increases that of T in intact male rats and in castrates given T or its propionate derivative. 4-MA is a better inhibitor of T-induced growth than of DHT-induced growth of the prostate and seminal vesicles in castrated rats. It decreases the weight of the prostate and seminal vesicles in intact rats and that of the prostate in dogs. It has no significant antifertility activity in rats. In pregnant rats, 4-MA reduces the ano-genital distance of male fetuses. 4-MA has no significant androgenic, estrogenic, progestational, antiprogestational or antigonadotrophic activity.

Binding of a 4-methyl-4-aza-steroid to 5 alpha-reductase of rat liver and prostate microsomes.

A tritium labeled 5 alpha-reductase inhibitor, [1,2-3H] 17 beta-N,N-diethylcarbamoyl-4-methyl-4-aza-5 alpha-androstan-3-one ([3H]4-MA), binds reversibly to a high affinity site (Kd, 6.5 nM) in liver microsomes from male rats. The binding requires a nicotinamide nucleotide coenzyme; NADH is at least 100 times less potent than NADPH, and NADP+, NAD+, flavin adenine dinucleotide, coenzyme A, and ADP are inactive. The relative potencies of 13 steroids as inhibitors of the binding of [3H]4-MA to liver microsomes correlate with their relative potencies as inhibitors of the conversion of [14C]testosterone to [14C]5 alpha-dihydrotestosterone by liver microsomes. Comparison of liver microsomes from mature female rats and microsomes from mature male rat liver, ventral prostate, spleen, kidney, and skeletal muscle shows that their NADPH-dependent [3H]4-MA binding capacities correlate with their levels of 5 alpha-reductase activity. These results suggest that [3H]4-MA binds specifically to 5 alpha-reductase in a NADPH-dependent manner. 5 alpha-Reductase was solubilized from liver microsomes with a detergent, Lubrol-WX, and the solubilized enzyme also binds [3H]4-MA. The relative potencies of 13 steroids as inhibitors of rat ventral prostate and liver 5 alpha-reductase are the same, strongly suggesting that the 5 alpha-reductases in the two tissues are the same.

Effect of a new 5 alpha-reductase inhibitor on size, histologic characteristics, and androgen concentrations of the canine prostate.

Mature male beagles were used in studies designed to determine the effect of the steroidal 5 alpha-reductase inhibitor 17 beta-N,N-diethylcarbamoyl-4-aza-4-methyl-5 alpha-androstan-3-one (4-MA) on size, histology, and androgen concentration of the prostate. Subcutaneous administration of 3 or 15 mg/kg/day for 43 days caused a sharp decline in prostate volume. flattening of prostatic epithelial cells, vacuolization of the cytoplasm and pycnosis of the nuclei. Whereas serum testosterone levels remained normal in dogs injected with 3 mg/kg/day, they were lower in those that received 15 mg/kg/day. Concentration of both testosterone and 5 alpha-dihydrotestosterone were reduced in the prostates of dogs that had received either 3 or 15 mg/kg/day of 4-MA. The 15 mg/kg/day level also appeared to adversely affect spermatogenesis. In a 43-day study, 4-MA given orally once each day at levels of 0.1, 0.3, or 1 mg/kg failed to cause a significant decrease in prostate volume. However, daily divided oral doses totaling 1 or 3 mg/kg were given in a 42-day test and both treatment levels produced significant reductions in prostate size.