母体及断奶后暴露于果糖的大鼠膀胱黏膜胰岛素信号受损，易引发与代谢综合征相关的膀胱过度活动。

Impaired insulin signaling at the bladder mucosa facilitates metabolic syndrome-associated bladder overactivity in rats with maternal and post-weaning fructose exposure.

作者信息

Lee Wei-Chia, Wu Kay L H, Tain You-Lin, Leu Steve, Cheng Yuan-Tso, Chan Julie Y H

机构信息

Division of Urology, Kaohsiung Chang Gung Memorial Hospital, Chang Gung University College of Medicine, Kaohsiung, Taiwan.

Institute for Translational Research in Biomedicine, Kaohsiung Chang Gung Memorial Hospital, Kaohsiung, Taiwan.

出版信息

J Formos Med Assoc. 2023 Mar;122(3):258-266. doi: 10.1016/j.jfma.2022.09.013. Epub 2022 Oct 4.

DOI:10.1016/j.jfma.2022.09.013

PMID:36207218

Abstract

BACKGROUND/PURPOSE: Metabolic syndrome (MetS) and overactive bladder might share common pathophysiologies. Environmental fructose exposure during pre- and postnatal periods of rats may program MetS-associated bladder overactivity. We explored the dysregulated insulin signalling at bladder mucosa, as a common mechanism, in facilitating bladder overactivity in rats with MetS induced by maternal and post-weaning fructose diet.

METHODS

Male offspring of Sprague-Dawley rats were subject into 4 groups by maternal and post-weaning diets (i.e., Control/Control, Fructose/Control, Control/Fructose and Fructose/Fructose by diets). Micturition behavior was evaluated. Acidic ATP solution was used to elicit cystometric reflex along with insulin counteraction. Concentration-response curves to insulin were plotted. The canonical signalling pathway of insulin was evaluated in the bladder mucosal using Western blotting. Levels of detrusor cGMP and urinary NO plus NO were measured.

RESULTS

Male offspring with any fructose exposure presents traits of MetS and bladder overactivity. We observed all fructose exposure groups have the poor urodynamic response to insulin during ATP solution stimulation and poor insulin-activated detrusor relaxation in organ bath study. Compared to controls, the Control/Fructose and Fructose/Fructose groups showed the increased phosphorylation levels of IRS1 (Ser) and IRS2 (Ser); thus, suppressed the downstream effectors and urinary NOx/detrusor cGMP levels. The Fructose/Control group showed the compensatory increase of phospho-AKT (Ser) and phospho-eNOS/eNOS levels, but decreased in eNOS, phospho-eNOS, urinary NOx, and detrusor cGMP levels.

CONCLUSION

Our results show dysregulated insulin signalling at bladder mucosa should be a common mechanism of MetS-associated bladder overactivity programmed by pre-and postnatal fructose diet.

摘要

背景/目的：代谢综合征（MetS）和膀胱过度活动症可能具有共同的病理生理学机制。大鼠产前和产后暴露于环境果糖中可能会引发与MetS相关的膀胱过度活动。我们探讨了膀胱黏膜中胰岛素信号失调这一共同机制，以促进由母体和断奶后果糖饮食诱导的MetS大鼠的膀胱过度活动。

方法

将Sprague-Dawley大鼠的雄性后代根据母体和断奶后的饮食分为4组（即对照组/对照组、果糖组/对照组、对照组/果糖组和果糖组/果糖组）。评估排尿行为。使用酸性ATP溶液引发膀胱测压反射并进行胰岛素拮抗作用。绘制胰岛素的浓度-反应曲线。使用蛋白质免疫印迹法评估膀胱黏膜中胰岛素的经典信号通路。测量逼尿肌cGMP水平以及尿液中NO和NO₂的含量。

结果

任何果糖暴露组的雄性后代均表现出MetS和膀胱过度活动的特征。我们观察到，在ATP溶液刺激期间，所有果糖暴露组对胰岛素的尿动力学反应均较差，并且在器官浴研究中胰岛素激活的逼尿肌松弛也较差。与对照组相比，对照组/果糖组和果糖组/果糖组的IRS1（Ser）和IRS2（Ser）磷酸化水平升高；因此，抑制了下游效应物以及尿液中NOx/逼尿肌cGMP水平。果糖组/对照组显示磷酸化AKT（Ser）和磷酸化eNOS/eNOS水平代偿性增加，但eNOS、磷酸化eNOS、尿液中NOx和逼尿肌cGMP水平降低。

结论

我们的结果表明，膀胱黏膜中胰岛素信号失调应该是产前和产后果糖饮食引发的与MetS相关的膀胱过度活动的共同机制。

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母体及断奶后暴露于果糖的大鼠膀胱黏膜胰岛素信号受损，易引发与代谢综合征相关的膀胱过度活动。

Impaired insulin signaling at the bladder mucosa facilitates metabolic syndrome-associated bladder overactivity in rats with maternal and post-weaning fructose exposure.

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