OBJECTIVES: Cellular senescence is a unique cellular response pathway thought to be closely associated with the aging process. The senescent phenotype is characterized by the loss of a cell's ability to respond to proliferative and apoptotic stimuli even while normal metabolic activity and vitality is maintained. Recently, a novel biomarker, senescent-associated beta-galactosidase (SA-beta-gal), was found to identify cells with the senescent phenotype. In the present study, we examined whether human prostatic epithelial cells adopt a senescence-associated phenotype after prolonged culture and analyzed a series of human benign prostatic hyperplasia (BPH) specimens to determine whether the cellular senescence process might be a factor in the development of BPH. METHODS: A primary culture of epithelial cells was established from the normal tissue of the peripheral zone of a radical prostatectomy specimen and was serially passaged until senescence. Forty-three human prostate specimens were obtained subsequent to radical prostatectomy or transrectal ultrasound-guided biopsy. The cultured cells and tissue specimens were histochemically stained to reveal the expression of SA-beta-gal, the cellular senescence biomarker. RESULTS: As has been reported for other types of cultured cells, human prostatic epithelial cells demonstrated widespread expression of the cellular senescence marker, SA-beta-gal, on prolonged culture. In our survey of hypertrophied human prostate tissues, 17 specimens (40%) of the 43 analyzed demonstrated positive staining for SA-beta-gal. In these tissues, SA-beta-gal expression was noted only in the epithelial cells. No statistical correlation (P = 0.42) between the chronologic age of the patient donor and SA-beta-gal expression was found. However, a high prostate weight (greater than 55 g) was found to correlate strongly with the expression of the SA-beta-gal biomarker (P = 0. 0001). CONCLUSIONS: Cultured prostatic epithelial cells expressed SA-beta-gal on reaching replicative senescence in vitro. The survey of human BPH specimens for the senescent marker showed that prostatic epithelial cells in patients with BPH with more advanced enlargement of the prostate (greater than 55 g prostate weight) expressed SA-beta-gal, and the prostates from patients with BPH that weighed less than 55 g tended to lack senescent epithelial cells. On the basis of these results, we propose that the accumulation of senescent epithelial cells may play a role in the development of the prostatic enlargement associated with BPH.
OBJECTIVES: Cellular senescence is a unique cellular response pathway thought to be closely associated with the aging process. The senescent phenotype is characterized by the loss of a cell's ability to respond to proliferative and apoptotic stimuli even while normal metabolic activity and vitality is maintained. Recently, a novel biomarker, senescent-associated beta-galactosidase (SA-beta-gal), was found to identify cells with the senescent phenotype. In the present study, we examined whether human prostatic epithelial cells adopt a senescence-associated phenotype after prolonged culture and analyzed a series of humanbenign prostatic hyperplasia (BPH) specimens to determine whether the cellular senescence process might be a factor in the development of BPH. METHODS: A primary culture of epithelial cells was established from the normal tissue of the peripheral zone of a radical prostatectomy specimen and was serially passaged until senescence. Forty-three human prostate specimens were obtained subsequent to radical prostatectomy or transrectal ultrasound-guided biopsy. The cultured cells and tissue specimens were histochemically stained to reveal the expression of SA-beta-gal, the cellular senescence biomarker. RESULTS: As has been reported for other types of cultured cells, human prostatic epithelial cells demonstrated widespread expression of the cellular senescence marker, SA-beta-gal, on prolonged culture. In our survey of hypertrophiedhuman prostate tissues, 17 specimens (40%) of the 43 analyzed demonstrated positive staining for SA-beta-gal. In these tissues, SA-beta-gal expression was noted only in the epithelial cells. No statistical correlation (P = 0.42) between the chronologic age of the patientdonor and SA-beta-gal expression was found. However, a high prostate weight (greater than 55 g) was found to correlate strongly with the expression of the SA-beta-gal biomarker (P = 0. 0001). CONCLUSIONS: Cultured prostatic epithelial cells expressed SA-beta-gal on reaching replicative senescence in vitro. The survey of human BPH specimens for the senescent marker showed that prostatic epithelial cells in patients with BPH with more advanced enlargement of the prostate (greater than 55 g prostate weight) expressed SA-beta-gal, and the prostates from patients with BPH that weighed less than 55 g tended to lack senescent epithelial cells. On the basis of these results, we propose that the accumulation of senescent epithelial cells may play a role in the development of the prostatic enlargement associated with BPH.
Authors: Andrei Seluanov; David Mittelman; Olivia M Pereira-Smith; John H Wilson; Vera Gorbunova Journal: Proc Natl Acad Sci U S A Date: 2004-04-28 Impact factor: 11.205
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