Faris Azzouni scite author profile

Despite the discovery of 5 alpha-reduction as an enzymatic step in steroid metabolism in 1951, and the discovery that dihydrotestosterone is more potent than testosterone in 1968, the significance of 5 alpha-reduced steroids in human diseases was not appreciated until the discovery of 5 alpha-reductase type 2 deficiency in 1974. Affected males are born with ambiguous external genitalia, despite normal internal genitalia. The prostate is hypoplastic, nonpalpable on rectal examination and approximately 1/10th the size of age-matched normal glands. Benign prostate hyperplasia or prostate cancer does not develop in these patients. At puberty, the external genitalia virilize partially, however, secondary sexual hair remains sparse and male pattern baldness and acne develop rarely. Several compounds have been developed to inhibit the 5 alpha-reductase isozymes and they play an important role in the prevention and treatment of many common diseases. This review describes the basic biochemical properties, functions, tissue distribution, chromosomal location, and clinical significance of the 5 alpha-reductase isozyme family.

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5α‐reductase type 3 expression in human benign and malignant tissues: A comparative analysis during prostate cancer progression

Godoy

Kawinski

et al. 2010

The Prostate

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BACKGROUND A third isozyme of human 5α-steroid reductase, 5α-reductase-3, was identified in prostate tissue at the mRNA level. However, the levels of 5α-reductase-3 protein expression and its cellular localization in human tissues remain unknown. METHODS A specific monoclonal antibody was developed, validated, and used to characterize for the first time the expression of 5α-reductase-3 protein in 18 benign and 26 malignant human tissue types using immunostaining analyses. RESULTS AND CONCLUSIONS In benign tissues, 5α-reductase-3 immunostaining was high in conventional androgen-regulated human tissues, such as skeletal muscle and prostate. However, high levels of expression also were observed in non-conventional androgen-regulated tissues, which suggest either multiples target tissues for androgens or different functions of 5α-reductase-3 among human tissues. In malignant tissues, 5α-reductase-3 immunostaining was ubiquitous but particularly over-expressed in some cancers compared to their benign counterparts, which suggests a potential role for 5α-reductase-3 as a biomarker of malignancy. In benign prostate, 5α-reductase-3 immunostaining was localized to basal epithelial cells, with no immunostaining observed in secretory/luminal epithelial cells. In high-grade prostatic intraepithelial neoplasia (HGPIN), 5α-reductase-3 immunostaining was localized in both basal epithelial cells and neoplastic epithelial cells characteristic of HGPIN. In androgen-stimulated and castration-recurrent prostate cancer (CaP), 5α-reductase-3 immunostaining was present in most epithelial cells and at similar levels, and at levels higher than observed in benign prostate. Analyses of expression and functionality of 5α-reductase-3 in human tissues may prove useful for development of treatment for benign prostatic enlargement and prevention and treatment of CaP.

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The First 100 Consecutive, Robot-assisted, Intracorporeal Ileal Conduits: Evolution of Technique and 90-day Outcomes

et al. 2013

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Prostate cancer cells differ in testosterone accumulation, dihydrotestosterone conversion, and androgen receptor signaling response to steroid 5α-reductase inhibitors

Godoy

Azzouni

et al. 2013

Prostate

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BACKGROUND Blocking 5α-reductase-mediated testosterone conversion to dihydrotestosterone (DHT) with finasteride or dutasteride is the driving hypothesis behind two prostate cancer prevention trials. Factors affecting intracellular androgen levels and the androgen receptor (AR) signaling axis need to be examined systematically in order to fully understand the outcome of interventions using these drugs. METHODS The expression of three 5α-reductase isozymes, as determined by immunohistochemistry and qRT-PCR, was studied in five human prostate cancer cell lines. Intracellular testosterone and DHT were analyzed using mass spectrometry. A luciferase reporter assay and AR-regulated genes were used to evaluate the modulation of AR activity. RESULTS Prostate cancer cells were capable of accumulating testosterone to a level 15–50 times higher than that in the medium. The profile and expression of 5α-reductase isozymes did not predict the capacity to convert testosterone to DHT. Finasteride and dutasteride were able to depress testosterone uptake in addition to lowering intracellular DHT. The inhibition of AR activity following drug treatment often exceeded the expected response due to reduced availability of DHT. The ability to maintain high intracellular testosterone might compensate for the shortage of DHT. CONCLUSIONS The biological effect of finasteride or dutasteride appears to be complex and may depend on the interplay of several factors, which include testosterone turnover, enzymology of DHT production, ability to use testosterone and DHT interchangeably, and propensity of cells for off-target AR inhibitory effect.

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Role of 5α-reductase inhibitors in benign prostatic diseases

Azzouni

Mohler

2012

Prostate Cancer Prostatic Dis

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Testosterone is the most abundant androgen in serum. Intracellularly, testosterone is converted to dihydrotestosterone, the preferred ligand for androgen receptor transactivation, by the enzyme 5α-reductase. Three 5α-reductase isozymes have been discovered and they are expressed ubiquitously in human tissues. Testosterone and dihydrotestosterone have different but complimentary functions. Dihydrotestosterone has 2-5 times higher binding affinity for the androgen receptor than testosterone, and 10-fold higher potency of inducing androgen receptor signaling than testosterone. The role of dihydrotestosterone was discovered after the description of 5α-reductase type 2 deficiency in 1974, where affected males have normal internal but ambiguous external genitalia. Neither BPH nor prostate cancer has been reported in these patients. Currently, two 5α-reductase inhibitors are available for clinical use. This review will discuss the important clinical trials of 5α-reductase inhibitors in the treatment of benign prostatic diseases.

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Faris Azzouni

The 5 Alpha-Reductase Isozyme Family: A Review of Basic Biology and Their Role in Human Diseases

5α‐reductase type 3 expression in human benign and malignant tissues: A comparative analysis during prostate cancer progression

The First 100 Consecutive, Robot-assisted, Intracorporeal Ileal Conduits: Evolution of Technique and 90-day Outcomes

Prostate cancer cells differ in testosterone accumulation, dihydrotestosterone conversion, and androgen receptor signaling response to steroid 5α-reductase inhibitors

Role of 5α-reductase inhibitors in benign prostatic diseases

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