机构地区:[1]Department of Urology, the University of Tokyo, Tokyo, Japan [2]Department of Urology, Kyosai Hospital, Tokyo, Japan [3]Department of Surgical Oncology, the University of Tokyo, Tokyo, Japan [4]Institute of Health Biosciences, the University of Tokushima Graduate School, Tokushima, Japan
出 处:《Open Journal of Urology》2015年第8期123-132,共10页泌尿学期刊(英文)
摘 要:The incidence of calcium oxalate stone in men is higher than that in women. We evaluated the association between the androgen receptor (AR) and urinary oxalate excretion using Crefloxed male androgen receptor-knockout (ARKO) mice (ARL-/Y) and floxed mice (ARL+/Y) as control. Four-teen-week-old ARL-/Y and ARL+/Y mice were fed distilled water. Drinking water was then swapped for 0.5% ethylene glycol (EG). Urinary oxalate was measured on days 0, 14, and 28. Urinary calcium, inorganic phosphorus, citrate, uric acid, and ion-actibity products of calcium oxalate (APCaOx) in mouse, AP (CaOx)-indexMOUSE, were evaluated on days 0 and 15. On day 28, livers were harvested to measure mRNA expression of enzymes. Urinary oxalate excretion was significantly higher in ARL+/Y than in ARL-/Y mice 14 and 28 days after EG treatment (p L-/Y mice exhibited atrophic testes and low serum testosterone, both ARKO and control mice were orchiectomized and implanted DHT pellets (ARL-/Y-ORX-DHT, and ARL+/Y-ORX-DHT), and the same experiments as above were performed. EG loading for 14 and 28 days resulted in significantly higher excretion in ARL+/Y-ORX-DHT mice than ARL-/Y-ORX-DHT mice (p < 0.005). AP(CaOx)-indexMOUSE was significantly higher in ARL+/Y-ORX-DHT mice than in ARL-1/Y-ORX-DHT mice. mRNA expression levels of glycolate oxidase (GO) in liver were lower in ARKO mice than in control ones. AR modulates the excretion of oxalate in urine after EG treatment, which may be associated with increased oxalate synthesis by activated GO in the liver via the AR pathway.The incidence of calcium oxalate stone in men is higher than that in women. We evaluated the association between the androgen receptor (AR) and urinary oxalate excretion using Crefloxed male androgen receptor-knockout (ARKO) mice (ARL-/Y) and floxed mice (ARL+/Y) as control. Four-teen-week-old ARL-/Y and ARL+/Y mice were fed distilled water. Drinking water was then swapped for 0.5% ethylene glycol (EG). Urinary oxalate was measured on days 0, 14, and 28. Urinary calcium, inorganic phosphorus, citrate, uric acid, and ion-actibity products of calcium oxalate (APCaOx) in mouse, AP (CaOx)-indexMOUSE, were evaluated on days 0 and 15. On day 28, livers were harvested to measure mRNA expression of enzymes. Urinary oxalate excretion was significantly higher in ARL+/Y than in ARL-/Y mice 14 and 28 days after EG treatment (p L-/Y mice exhibited atrophic testes and low serum testosterone, both ARKO and control mice were orchiectomized and implanted DHT pellets (ARL-/Y-ORX-DHT, and ARL+/Y-ORX-DHT), and the same experiments as above were performed. EG loading for 14 and 28 days resulted in significantly higher excretion in ARL+/Y-ORX-DHT mice than ARL-/Y-ORX-DHT mice (p < 0.005). AP(CaOx)-indexMOUSE was significantly higher in ARL+/Y-ORX-DHT mice than in ARL-1/Y-ORX-DHT mice. mRNA expression levels of glycolate oxidase (GO) in liver were lower in ARKO mice than in control ones. AR modulates the excretion of oxalate in urine after EG treatment, which may be associated with increased oxalate synthesis by activated GO in the liver via the AR pathway.
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