Effect of Androgen Ablation on Prostatic Cell Differentiation in Dogs

Autor:	Ruba Al-Omari, M Daradka, F Shidaifat
Rok vydání:	2004
Předmět:	Male Pathology medicine.medical_specialty medicine.drug_class Cellular differentiation Vimentin Biology Random Allocation Cytokeratin Dogs Endocrinology Testis medicine Animals Castration Prostate gland growth Muscle Cells Stem Cells Mesenchymal stem cell Prostate Cell Differentiation Epithelial Cells General Medicine Androgen Actins Epithelium medicine.anatomical_structure Androgens biology.protein Keratins Immunostaining
Zdroj:	Endocrine Research. 30:327-334
ISSN:	1532-4206 0743-5800
DOI:	10.1081/erc-200033196
Popis:	This study was conducted to gain further insight into the role of androgen in maintaining a balanced prostate gland growth in dogs. Effects of castration on prostatic cell were assessed by comparing the expression level of high molecular weight cytokeratin (HMW), alpha-actin, and vimentin in intact and castrated dogs. Mature dogs were castrated while they were under general anesthesia and were killed after 1 month. Mature prostate gland structures from intact dogs are characterized by the presence of differentiated columnar secretary epithelial cells and progenitor basal cells that are located within acini and ducts embedded in a thin fibromuscular tissue. Basal cells were distinguished from secretory epithelial cells by HMW cytokeratin immunostaining, which is expressed specifically by basal cells but not by epithelial cells. Castration-induced secretory epithelial cell death, leave the basal cells intact to form a continuous layer lining the atrophied acini. However, the survived basal cells lost their capacity to differentiate to secretory epithelial cells. In addition, androgen ablation induced remarkable reorganization of the cellular components of the fibromuscular compartment. In intact dogs, this compartment of prostate gland is composed mainly of differentiated smooth muscles and scattered mesenchymal muscles as reflected by the high and low actin and vimentin expressions, respectively. Castration for 1 month induced a progressive shift toward mesenchymal cells, which appeared to occupy most of the fibromuscular compartment. Based on these findings, it appears that androgen acts to maintain a steady state of prostate gland by driving the differentiation of prostatic cells and by maintaining its fully differentiated state.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::c64ccb1a0075472daa02ce35a98a4d72 https://doi.org/10.1081/erc-200033196 Zobrazit plný text záznamu Plný text ve formátu PDF Plný text ve formátu HTML
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