Urology Division, Department of Surgery, Hospital for Sick Children, Toronto, ON, Canada.
Developmental and Stem Cell Biology, Research Institute, Hospital for Sick Children, Toronto, ON, Canada.
FASEB J. 2020 Mar;34(3):3594-3615. doi: 10.1096/fj.201900547RR. Epub 2020 Jan 27.
Current and potential medical therapy for obstruction-induced myopathic bladder dysfunction (from benign prostatic hyperplasia or posterior urethral valves) focuses on symptoms. The persistent tissue pathology and dysfunction after release of obstruction is often deemed irreversible without any systematic therapeutic approaches. As rapamycin can attenuate bladder smooth muscle hypertrophy and dysfunction during the genesis of partial obstruction in vivo, we tested whether rapamycin could improve persistent function after release of obstruction (de-obstruction or REL). Female Sprague-Dawley rat bladders were partially obstructed (PBO) by suturing around both the urethra and a para-urethral steel rod, then removing the rod. One day prior to release of obstruction (preREL), voiding parameters and residual urine volume of preREL+future rapa, preREL+future veh groups were recorded. Release of obstruction (REL) was performed by suture removal following 6 weeks of PBO. For 4 more weeks after the de-obstruction, REL animals were randomized to rapamycin (REL+rapa) or vehicle (REL+veh). PBO for 6 weeks were used as positive controls. In shams, the urethra was exposed, but no suture tied. Voiding parameters and residual urine volume were measured prior to sacrifice of sham and REL+veh or REL+rapa, and PBO. Rapamycin efficacy was tested by pair-wise comparison of changes in individual voiding data from preREL+future veh or preREL+future rapa versus REL+veh or REL+rapa, respectively, as well as by comparisons of REL+veh to REL+rapa groups. Bladders were weighed and processed for a high-throughput QPCR array, and histopathology. Bladder/body mass ratios with PBO increased significantly and remained higher in the release phase in REL+veh animals. REL+rapa versus REL+veh improved residual volumes and micturition fractions toward sham levels. Three genes encoding extracellular proteins, BMP2, SOD3, and IGFBP7, correlated with functional improvement by Pearson's correlations. The promoters of these genes showed enrichment for several motifs including circadian E-boxes. While obstruction and REL augmented CLOCK and NPAS2 expression above sham levels, rapamycin treatment during release significantly blocked their expression. This experimental design of pharmaco-intervention during the de-obstruction phase revealed a novel pathway dysregulated during the clinically relevant treatment phase of obstructive bladder myopathy.
目前和潜在的用于梗阻性肌病性膀胱功能障碍(由良性前列腺增生或后尿道瓣膜引起)的医学治疗方法侧重于症状。在解除梗阻后,持续的组织病理学和功能障碍通常被认为是不可逆转的,而没有任何系统的治疗方法。由于雷帕霉素可以减轻体内部分梗阻形成过程中的膀胱平滑肌肥大和功能障碍,我们测试了雷帕霉素是否可以改善解除梗阻后的持续功能(去梗阻或 REL)。雌性 Sprague-Dawley 大鼠的膀胱通过在尿道和旁尿道钢棒周围缝合来部分梗阻(PBO),然后取出钢棒。在解除梗阻前一天(preREL),记录 preREL+未来 rapamycin、preREL+未来 veh 组的排尿参数和残余尿量。在 PBO 6 周后进行解除梗阻(REL)。在去梗阻后 4 周,REL 动物被随机分为雷帕霉素(REL+rapa)或载体(REL+veh)组。PBO 6 周作为阳性对照。在假手术中,只暴露尿道,但不结扎缝线。在牺牲假手术和 REL+veh 或 REL+rapa 以及 PBO 之前,测量排尿参数和残余尿量。通过比较 preREL+未来 veh 或 preREL+未来 rapa 与 REL+veh 或 REL+rapa 的个体排尿数据的变化来测试雷帕霉素的疗效,以及比较 REL+veh 与 REL+rapa 组。测量膀胱重量并进行高通量 QPCR 阵列和组织病理学处理。PBO 后膀胱/体重比显著增加,在 REL+veh 动物的释放阶段仍然较高。与 REL+veh 相比,REL+rapa 改善了残余尿量和排尿分数,使其接近假手术水平。三个编码细胞外蛋白的基因,BMP2、SOD3 和 IGFBP7,通过 Pearson 相关性与功能改善相关。这些基因的启动子显示出对包括昼夜节律 E 盒在内的几个基序的富集。虽然梗阻和 REL 使 CLOCK 和 NPAS2 的表达高于假手术水平,但在释放期间给予雷帕霉素治疗可显著阻断其表达。这种在去梗阻阶段进行药物干预的实验设计揭示了在阻塞性膀胱肌病的临床相关治疗阶段中失调的新途径。
