Age-dependent expression of Pten and Smad4 genes in the urogenital system of Wistar rats.

PURPOSE: To analyze Pten and Smad4 gene expression in the urogenital system of Wistar rats in differents ages. METHODS: Pten and Smad4 mRNA expression was assessed in the bladder, ventral prostate, testis, ovaries, and uterus by real-time PCR. Statistical analysis using the ANOVA (p<0.05). RESULTS: Pten levels showed a progressive age-dependent increase in the bladder (male and female) and prostate and were elevated in the ovaries of the middle-aged. In the uterus, no statistically significant differences were observed; in the testis, increased and decreased levels were seen in young adult and middle-aged rats, respectively. Smad4 expression was downregulated in the ovaries of the pubertal group but increased in the middle age group. In the uterus, Smad4 expression in the oldest group was higher than the others groups. In the testis, Smad4 expression steadily declined with age; in the prostate, it was higher in middle-aged rats than in younger rats. A similar trend was observed in the bladder of male and female middle-aged rats, compared with the pubertal group. CONCLUSION: The changes in phosphatase tensin homologue and Smad4 mRNA expression in Wistar rats appear to be associated with hormonal modifications in puberty and may be related to early follicular and testicular development.

Age-dependent expression of Pten and Smad4 genes in the urogenital system of Wistar rats

PURPOSE: To analyze Pten and Smad4 gene expression in the urogenital system of Wistar rats in differents ages. METHODS: Pten and Smad4 mRNA expression was assessed in the bladder, ventral prostate, testis, ovaries, and uterus by real-time PCR. Statistical analysis using the ANOVA (p<0.05). RESULTS: Pten levels showed a progressive age-dependent increase in the bladder (male and female) and prostate and were elevated in the ovaries of the middle-aged. In the uterus, no statistically significant differences were observed; in the testis, increased and decreased levels were seen in young adult and middle-aged rats, respectively. Smad4 expression was downregulated in the ovaries of the pubertal group but increased in the middle age group. In the uterus, Smad4 expression in the oldest group was higher than the others groups. In the testis, Smad4 expression steadily declined with age; in the prostate, it was higher in middle-aged rats than in younger rats. A similar trend was observed in the bladder of male and female middle-aged rats, compared with the pubertal group. CONCLUSION: The changes in phosphatase tensin homologue and Smad4 mRNA expression in Wistar rats appear to be associated with hormonal modifications in puberty and may be related to early follicular and testicular development. .

Glutamine supplementation prevents collagen expression damage in healthy urinary bladder caused by radiotherapy.

OBJECTIVE: Patients who have had pelvic radiotherapy as part of their cancer therapy may develop subsequent urinary bladder effects such as hyperactive bladder, incontinence, and dysuria. Therefore, the goal of this study was to evaluate whether glutamine supplementation could prevent collagen expression damage in healthy urinary bladder caused by radiotherapy. METHODS: Fifteen adult Wistar rats were separated into a control group that received food and water ad libitum (C group), an irradiated group that received a single pelvic radiation dose of 1164 cGy (I group), and an irradiated group supplemented with l-glutamine every day during the entire experimental period (0.65 g/kg of body weight; I+G group). All animals were sacrificed 15 d after irradiation. The extracellular matrix and muscle were quantified by a morphometric method. Picro Sirius Red was used to visualize the different collagen types. Reverse transcription-polymerase chain reaction and immunohistochemistry were used to determine collagen type I and III expressions. RESULTS: The extracellular matrix (C group 36.84±4.37, I group 31.64±5.00, I+G group 35.53±2.60, P=0.0001), muscle (C group 36.43±6.15, I group 29.39±7.08, I+G group 31.38±3.14, P=0.0001), and gene expressions of collagen type I (C group 1.067±0.31, I group 0.579±0.17, I+G group 1.816±0.66, P=0.0009) and type III (C group 0.99±0.28, I group 0.54±0.13, I+G group 1.07±0.28, P=0.0080) were decreased in the I group. Apart from muscle, glutamine supplementation prevented these alterations. Immunohistochemistry and Picro Sirius Red showed similar results. CONCLUSION: Supplementation with l-glutamine seems to prevent bladder wall damage in relation to extracellular matrix volumetric density and collagen expression. These results suggest that glutamine supplementation could be efficient in protecting healthy tissues from the adverse effects of radiotherapy.