PURPOSE: The bladder can be considered a target organ for the actions of estrogen. Decreases in circulating estrogen after menopause have been associated with bladder dysfunctions, including incontinence and detrusor instability. We determined the effects of estrogen on rabbit bladder contractile function and morphology. MATERIALS AND METHODS: Female New Zealand White rabbits were ovariectomized or sham operated and treated with vehicle or estradiol (1 mg/kg weekly) for 5 weeks. Serum estradiol concentration was monitored every 2 weeks. After treatment each rabbit was anesthetized, the bladder was catheterized, cystometry was performed, and the bladder was removed for contractile and morphological studies. Apoptosis in paraffin embedded rabbit bladder tissue was detected using in situ end-labeling, specifically terminal deoxynucleotidyl-transferase nick end labeling or the TUNEL assay. RESULTS: Ovariectomy resulted in a 50% decrease in circulating estrogen and estradiol treatment resulted in a 5-fold increase. Ovariectomy had no significant effects on bladder capacity, micturition pressure or bladder weight; whereas estradiol treatment resulted in significant increases in bladder capacity and bladder weight. Ovariectomy resulted in a decreased rate of tension generation in response to field stimulation, carbachol and KCl. Estradiol resulted in increased contractile responses to FS and carbachol, and an increased rate of tension generation for carbachol and KCl. Histologically ovariectomy resulted in significant urothelial apoptosis, which was not present in the sham operated or estradiol treated groups. Estradiol treatment resulted in the appearance of large cytoplasmic vacuoles in the urothelium and significant smooth muscle hypertrophy. CONCLUSIONS: These findings demonstrate that bladder function and structure can be significantly affected by modulating the circulating estrogen level. In addition, estrogen given in pharmacological doses can have a significant hypertrophic effect on bladder smooth muscle, resulting in increased contractile function.
PURPOSE: The bladder can be considered a target organ for the actions of estrogen. Decreases in circulating estrogen after menopause have been associated with bladder dysfunctions, including incontinence and detrusor instability. We determined the effects of estrogen on rabbit bladder contractile function and morphology. MATERIALS AND METHODS: Female New Zealand White rabbits were ovariectomized or sham operated and treated with vehicle or estradiol (1 mg/kg weekly) for 5 weeks. Serum estradiol concentration was monitored every 2 weeks. After treatment each rabbit was anesthetized, the bladder was catheterized, cystometry was performed, and the bladder was removed for contractile and morphological studies. Apoptosis in paraffin embedded rabbit bladder tissue was detected using in situ end-labeling, specifically terminal deoxynucleotidyl-transferase nick end labeling or the TUNEL assay. RESULTS: Ovariectomy resulted in a 50% decrease in circulating estrogen and estradiol treatment resulted in a 5-fold increase. Ovariectomy had no significant effects on bladder capacity, micturition pressure or bladder weight; whereas estradiol treatment resulted in significant increases in bladder capacity and bladder weight. Ovariectomy resulted in a decreased rate of tension generation in response to field stimulation, carbachol and KCl. Estradiol resulted in increased contractile responses to FS and carbachol, and an increased rate of tension generation for carbachol and KCl. Histologically ovariectomy resulted in significant urothelial apoptosis, which was not present in the sham operated or estradiol treated groups. Estradiol treatment resulted in the appearance of large cytoplasmic vacuoles in the urothelium and significant smooth muscle hypertrophy. CONCLUSIONS: These findings demonstrate that bladder function and structure can be significantly affected by modulating the circulating estrogen level. In addition, estrogen given in pharmacological doses can have a significant hypertrophic effect on bladder smooth muscle, resulting in increased contractile function.
Authors: Fabio Lorenzetti; Miriam Dambros; Marcos Castro; Marcelo L Ribeiro; Daniel D C Miranda; Valdemar Ortiz Journal: Int Urogynecol J Pelvic Floor Dysfunct Date: 2007-02-28
Authors: Alpha Dian-Yu Lin; Anita Mannikarottu; Barry A Kogan; Catherine Whitbeck; Robert E Leggett; Robert M Levin Journal: Mol Cell Biochem Date: 2007-01-03 Impact factor: 3.396
Authors: Robert M Levin; Li Xia; Wu Wei; Catherine Schuler; Robert E Leggett; Alpha D-Y Lin Journal: Mol Cell Biochem Date: 2017-05-08 Impact factor: 3.396
Authors: Ann T Hanna-Mitchell; Dudley Robinson; Linda Cardozo; Karel Everaert; Georgi V Petkov Journal: Neurourol Urodyn Date: 2016-02 Impact factor: 2.696
Authors: L Elaine Waetjen; Katherine Leung; Sybil L Crawford; Mei-Hua Huang; Ellen B Gold; Gail A Greendale Journal: Menopause Date: 2013-04 Impact factor: 2.953
Authors: Alexandra Rehfuss; Catherine Schuler; Christina Maxemous; Robert E Leggett; Robert M Levin Journal: Int Urogynecol J Date: 2009-12-03 Impact factor: 2.894