Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0376358 (prostate cancer)
 59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A total of 28 untreated patients with asymptomatic, stage D prostate cancer was randomized in a double-blinded fashion to receive finasteride (10 mg. per day), a 5 alpha-reductase inhibitor or placebo. Patients were evaluated at 3-week intervals by rectal examination, and serum prostate specific antigen (PSA) and prostatic acid phosphatase (PAP) levels, and at 6-week intervals by bone scan and transrectal ultrasound determinations of prostatic volume. Patients stopped the medication at week 6 at the discretion of the investigator when PSA levels increased from baseline. After 12 weeks all patients were reevaluated. Of the patients 13 received finasteride and 15 received placebo. The 2 groups did not differ statistically with respect to patient age, initial PSA and PAP level, or the extent of metastases on initial bone scan. A statistically significant decrease in the median percentage change from baseline in PSA at weeks 3 and 6 occurred in the finasteride group compared to the placebo group (-22.9% versus -2.9% and -15.1% versus +11.7%, respectively, p less than 0.05). Finasteride had no effect upon PAP, serum testosterone, prostatic volume or appearance of bone scans. A decrease in serum PSA in the finasteride treatment group suggests that finasteride exerts a minor effect in patients with prostate cancer. This effect does not approach that seen with medical or surgical castration yet because of the potency preserving feature and the lack of toxicity finasteride may warrant further study in the treatment of prostate cancer.
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PMID:Multicenter, randomized, double-blind, placebo controlled study to investigate the effect of finasteride (MK-906) on stage D prostate cancer. 138 74

The androgen dihydrotestosterone is synthesized by the enzyme steroid 5 alpha-reductase, and it is required for growth and development of the prostate. We used immunohistochemistry to examine the expression of the type 2 isozyme of 5 alpha-reductase in benign prostatic hyperplasia and prostate cancer. The type 2 isozyme is highly expressed within stromal cells in both disease states. No type 2 isozyme is detectable in a lymph node metastasis. Immunoblotting studies show that androgen ablation therapies substantially decrease isozyme expression in the epididymis but have a lesser effect on expression in the prostate. Finasteride therapy (2 weeks to 3 years) did not abolish expression of the prostatic type 2 isozyme nor did this drug treatment induce expression of the type 1 isozyme.
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PMID:Expression and regulation of steroid 5 alpha-reductase 2 in prostate disease. 751 76

Finasteride is a specific 5-alpha-reductase inhibitor that has been shown to reduce prostate size and decrease serum levels of prostate specific antigen (PSA). Among men who received finasteride (5 mg/day) for 12 months in North American clinical trials and in whom prostate cancer was not diagnosed the median percentage change in PSA was -50% (5-95% range: -81% to +20%). At baseline 72% had PSA < or = 4.0 ng/ml and 93% had PSA < or = 10.0 ng/ml. After 12 months on finasteride, 75% had PSA < or = 2.0 ng/ml and 95% had PSA < or = 5.0 ng/ml. Thus, the proportion of BPH patients with PSA levels of 2.0 ng/ml and 5.0 ng/ml after 12 months of treatment was comparable to the proportion with pretreatment PSA levels of 4.0 ng/ml and 10.0 ng/ml. Among the 10 men in these trials subsequently diagnosed with prostate cancer while on long-term finasteride therapy (5 mg/day), the median percentage change in PSA was -26% (range: -48% to +12%). Limited experience with finasteride in men with prostate cancer suggests that the reduction in PSA of malignant origin appears to be no greater than the percentage reduction in PSA of benign origin. These effects on PSA have not been shown to confer any therapeutic benefit. Physicians using finasteride should be aware of its effect on PSA levels.
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PMID:The effect of finasteride on prostate-specific antigen in men with benign prostatic hyperplasia. 767 30

Finasteride is a synthetic 4-azasteroid that is a specific competitive inhibitor of 5 alpha-reductase, an intracellular enzyme that converts testosterone to dihydrotestosterone (DHT). It has no binding affinity for androgen receptor sites and itself possesses no androgenic, antiandrogenic, or other steroid hormone-related properties. It is well absorbed after oral administration, with absolute bioavailability in humans of 63% (range 34-108%). The mean time to maximum concentration is 1-2 hours, and it is approximately 90% plasma protein bound. The elimination half-life averages 6-8 hours. The agent is metabolized to a series of five metabolites, of which two are active and possess less than 20% of the 5 alpha-reductase activity of finasteride. Little is known about potential drug interactions, although they appear to be minimal and not clinically relevant. The drug is indicated for the treatment of symptomatic benign prostatic hyperplasia. Its efficacy in regression of prostate gland enlargement is rapid and predictable, although correlation with subsequent improvement in urinary flow and symptoms is highly variable. Dosages of 0.5-100 mg/day regress prostate enlargement; the recommended dosage is 5 mg once/day. Finasteride may hold promise for other DHT-mediated disorders such as acne, facial hirsutism, frontal lobe alopecia, and prostate cancer, but its use in these conditions remains investigational. The frequency of adverse drug events is low, with the most common side effects being impotence, decreased libido, and decreased volume of ejaculate. No reports of intentional overdose have been reported, and dosages of up to 80 mg/day for 3 months have been taken without adverse effect.
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PMID:Finasteride: the first 5 alpha-reductase inhibitor. 768 28

Finasteride is a novel therapeutic agent that selectively inhibits the enzyme 5 alpha-reductase, thereby reducing prostatic dihydrotestosterone (DHT) levels and prostate size. In men with symptomatic benign prostatic hyperplasia (BPH), these effects have been associated with improvements in peak urinary flow rate and urological symptoms; withdrawal from therapy, however, results in regrowth of the adenoma and long term therapy is therefore necessary. Although the magnitude of clinical improvement seen with finasteride has been perceived to be modest [especially when compared with that associated with transurethral resection of the prostate (TURP)], it has been maintained in the medium term (up to 2 years) and thus may represent significant reversal of disease progression. Such beneficial effects, however, may not become apparent until completion of at least 6 months of therapy. Furthermore, since clinical studies have been unable to proactively identify a responsive subgroup, a trial period of 6 or possibly 12 months is necessary to assess patient responsiveness. Despite these potential shortcomings, the benefits of therapy appear to outweigh the risks. Indeed, finasteride is well tolerated; most adverse events have been related to sexual dysfunction (decreased libido, ejaculation disorders and impotence) and occurred in only a small proportion (about 2 to 3%) of patients. Moreover, although there has been concern that finasteride might mask the detection of prostate cancer through its decremental effects on serum prostate specific antigen (PSA) levels, careful monitoring in clinical trials appears to have avoided this problem. Thorough pretreatment assessment and periodic follow-up examinations for malignancy are therefore required in clinical practice. The role of finasteride in the treatment of patients with BPH is still emerging and will no doubt gain in clarity with further planned investigations. TURP (or other invasive procedures such as the insertion of prostatic stents in patients unsuitable for resection), continues to be the mainstay of therapy for those patients with severe symptomatic BPH. However, available data support a first line role for finasteride in the treatment of patients with uncomplicated symptomatic BPH. Within this setting, finasteride appears to offer a needed additional treatment option for those patients in whom surgery is not indicated, and may be of special benefit to the considerable proportion of patients who opt not to undergo prostatectomy.
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PMID:Finasteride. A review of its potential in the treatment of benign prostatic hyperplasia. 769 5

Finasteride is the first of a new class of 5 alpha-reductase inhibitors which allows selective androgen deprivation affecting dihydrotestosterone (DHT) levels in target organs such as the prostate and scalp hair without effecting circulating levels of testosterone thus preserving the desired androgen mediated effects on muscle strength, bone density and sexual function. Finasteride has been demonstrated to produce significant effects in men with an enlarged prostate gland. The long-term data now emerging suggests that progression of benign prostatic hyperplasia (BPH) may be arrested providing additional long term benefits. Experimental uses in prostate cancer prevention and male pattern baldness offer new and exciting possibilities for this class of compounds.
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PMID:Finasteride: a clinical review. 856 56

5 alpha-reductase (5 alpha R) activity in two human prostate cancer cell lines was compared to that in benign prostatic hyperplasia (BPH) tissue and COS cells transfected with and expressing the human genes for 5 alpha-reductase type 1 (5 alpha R1) and type 2 (5 alpha R2). Comparisons were based on pH profiles and sensitivities to selective inhibitors of 5 alpha-reductase In the cancer lines, activity was greatest over the pH range 7-8, compared to a sharp peak of activity between pH 5-5.5 in BPH tissue and COS cells expressing 5 alpha R2. Finasteride and SKF105,657 were potent inhibitors of 5 alpha-reductase activity in BPH tissue and COS cells expressing 5 alpha R2, but weak inhibitors in the cancer lines and in COS cells expressing 5 alpha R1. In contrast, UK117,026 was a more potent inhibitor of 5 alpha-reductase activity in the prostate cancer cell lines and in COS cells expressing 5 alpha R1. These data indicate that human prostate cancer cell lines express 5 alpha-reductase activity similar to that in COS cells transfected with 5 alpha R1, but different from that in BPH tissue. This may be a consequence of in vitro culture. Alternatively, it may reflect a change occurring as a result of neoplastic transformation in which case it will be important to select appropriate inhibitors in the clinic.
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PMID:5 alpha-reductase expression by prostate cancer cell lines and benign prostatic hyperplasia in vitro. 863 34

The effects of various means of interfering with androgen action on rat coagulating gland, ventral prostate, lateral type 1 prostate, lateral type 2 prostate, and dorsal prostate were examined morphologically and quantitatively by assessing DNA content, wet weight, protein content, and zinc concentrations. Adult male Sprague-Dawley rats were subjected to 2 weeks of interfering with androgen action by treatment with Leuprolelin (a luteinizing hormone-releasing hormone analog), Finasteride (a 5 alpha-reductase inhibitor), or diethylstilbestrol (DES), or by physical castration. For all prostatic lobes, inhibition of 5 alpha-reductase elicited the smallest reduction in prostatic wet weight, DNA and protein contents, and zinc concentration. The most profound reductions in all parameters were elicited by castration. Treatments with DES and Leuprolelin gave intermediate effects with DES being the more effective in reducing all parameters in all prostatic lobes. Morphological changes elicited by all forms of androgen blockade were reduction of epithelial height, relative increase of connective tissue, reduction in ductal diameter, length, and number. The order of effectiveness of the various treatments on morphological features was as described above. While all forms of androgen blockade elicited similar effects throughout the prostate, differences in response to all forms of interference with androgen action were observed in different lobes of the prostate with regard to wet weight, DNA and protein contents, and zinc concentration as well as morphological effects. Regressive changes at the morphological level were particularly striking in the coagulating gland and ventral prostate, and indistinct in the lateral type 2 prostate. Prostatic zinc concentration in both normal and androgen-deprived rats was the highest in the lateral type 2 prostate and was reduced by interfering with androgen action to the greatest extent in the dorsolateral prostate (lateral type 1 and type 2, and dorsal prostate). The distribution of zinc correlated with the expression of metallothionein, which was detected by immunocytochemistry only in the lateral type 2 prostate of both normal and androgen deprived rats. Intraprostatic heterogeneity of zinc and metallothionein expression emphasizes interlobar differences in biological function within the rat prostate. The mechanism of development of regional heterogeneity within the prostate may shed light on the pathogenesis of prostatic proliferative diseases (prostatic hyperplasia and prostatic cancer) that initially owe their development to focal changes within large cell populations.
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PMID:Influence of diethylstilbestrol, Leuprolelin (a luteinizing hormone-releasing hormone analog), Finasteride (a 5 alpha-reductase inhibitor), and castration on the lobar subdivisions of the rat prostate. 868 49

The prevalence of BPH is high in elderly men with more than 60% of patients over the age of 60 experiencing some form of prostatism. Balancing the superior benefit of TUR/P are the small but significant risks and complications of surgery and the high cost of the procedure. The WHO guidelines recommend finasteride or alpha-blockers as treatment options for men with bothersome symptoms. Finasteride therapy reduces the volume of the hyperplastic prostate gland by more than 20%, improves the urinary flow rate and the symptoms associated with bladder outlet obstruction. Although statistically significant, results obtained with finasteride are just slightly better than placebo and TUR/P still offers the greatest improvement of symptoms. Finasteride is well tolerated and adverse events are rare. However, it decreases serum PSA (prostate specific antigen) by 50%, suggesting careful monitoring and exclusion of prostate cancer before initiation and during therapy. Current research is focusing on developing new 5-alpha-reductase inhibitors (type I and II) using polyunsaturated fatty acids and nonsteroidal inhibitors. Given the multifactorial nature of BPH, further clinical trials combining 5-alpha-reductors inhibitors and 5-alpha-receptor blockers are still needed.
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PMID:[The effect of 5-alpha-reductase inhibitors on benign prostatic hyperplasia]. 876 1

Finasteride is a potent 5 alpha-reductase inhibitor that has shown limited success in men treated for benign prostatic hyperplasia (success is defined as a decrease in the symptoms associated with urinary tract obstruction, and as increases in the urinary flow rate). 5 alpha-reductase is necessary for the prostatic conversion of testosterone to dihydrotesterone (DHT), the specific steroid that stimulates prostate transitional zone growth. Finasteride reduces the size of the prostate gland by 20%, but this does not correlate well with improvement in symptoms. Finasteride is well absorbed after oral administration and, while the rate of absorption may be slowed postprandially, the presence of food has no effect on the total bioavailability. Finasteride is widely distributed, but since its pharmacological effects are very specific to inhibition of 5 alpha-reductase, and since only the prostate gland, the scalp, and the genital skin contain high concentrations of this enzyme, few adverse reactions will be seen in other organ systems. Finasteride undergoes extensive hepatic metabolism to essentially inactive metabolites, which are eliminated through the bile and urine. The terminal elimination half-life (t1/2z) is 4.7 to 7.1 hours; but despite this, slow accumulation occurs with multiple doses. Values of t1/2z are higher in elderly men, but no dosage adjustments are necessary. Likewise, no dosage adjustments are necessary for patients with renal dysfunction, since the metabolites which accumulate are relatively inactive and well tolerated, and because greater faecal excretion of the metabolites occurs in these patients. The effect of hepatic dysfunction on the metabolism of finasteride is unknown. Therapeutic doses of finasteride produce a rapid and pronounced effect in reducing both plasma and prostate tissue levels of DHT. Doses below 0.5 mg/day do not produce much suppression of DHT levels, and doses above 5 mg/day have little additional benefit. A single dose of finasteride suppresses serum DHT levels for up to 4 days, longer than would be expected from the serum terminal elimination half-life (t1/2z) of the drug: this is probably due to the high affinity that finasteride has for the 5 alpha-reductase enzyme. Serum testosterone levels increase in patients receiving finasteride, but are not normally outside the upper limits of the normal range. Serum prostate-specific antigen (PSA) levels decrease with finasteride administration; the baseline for investigation of prostate cancer with elevated PSA levels should be one-half of the normal range. In responders to finasteride, the prostate gland shrinks in volume by about 20%, urinary flow rate improves by approximately 3 ml/s, and symptoms are relieved. The response to finasteride appears to be maximal at doses of 5 mg/day. For most men receiving finasteride, these effects will persist for at least the 5 years that long term studies have been conducted. Serum DHT levels increase again when finasteride therapy is discontinued, probably resulting in the return of the hyperplasia, decreased urine flow and obstructive symptoms. Finasteride is well tolerated, with loss of libido and sexual potency being the most commonly reported adverse reactions. No drug interactions with finasteride have been reported.
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PMID:Clinical pharmacokinetics and pharmacodynamics of finasteride. 884 25


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