超声 Hedgehog 对人横纹括约肌的调节：治疗压力性尿失禁的潜在意义。

Sonic hedgehog regulation of human rhabdosphincter muscle:Potential implications for treatment of stress urinary incontinence.

机构信息

Department of Urology, University of Illinois at Chicago, Chicago, Illinois.

Department of Urology, Loyola University Stritch School of Medicine, Maywood, Illinois.

出版信息

Neurourol Urodyn. 2018 Nov;37(8):2551-2559. doi: 10.1002/nau.23813. Epub 2018 Sep 6.

DOI:10.1002/nau.23813

PMID:30187971

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6241312/

Abstract

AIMS

Rhabdosphincter (RS) muscle injury occurs during prostatectomy, and is a leading cause of stress urinary incontinence (SUI). Current SUI treatments engender significant side effects, which negatively impact patient quality of life. Thus an unmet need exists to develop novel RS regeneration methods. We have shown that Sonic hedgehog (SHH) is a critical regulator of penile smooth muscle, and we have developed novel peptide amphiphile nanofiber hydrogel delivery of SHH protein to the penis to regenerate smooth muscle after prostatectomy induced injury. If similar SHH signaling mechanisms regulate RS muscle homeostasis, this innovative technology may be adapted for RS regeneration post-prostatectomy. We examine the SHH pathway in human RS muscle.

METHODS

Human RS obtained during radical cystoprostatectomy (n = 13), underwent SHH pathway analysis. Primary cultures were established (n = 5), and RS cells were treated with SHH protein, SHH inhibitor, or PBS (control). Immunohistochemical analysis for SHH pathway, skeletal muscle actin, and trichrome stain were performed. RS growth was quantified at 3 and 6 days.

RESULTS

SHH, it is receptors patched and smoothened, and transcriptional activators, GLI proteins, were identified in human RS muscle. At 3 and 6 days, RS cells increased 62% and 78% (P = 0.0001) with SHH treatment and decreased 40% (P = 0.0001) and 18% (P = 0.039) with SHH inhibition.

CONCLUSIONS

The SHH pathway was identified in human RS. RS growth increased with SHH treatment, indicating intervention may be possible to enhance RS regeneration, and impact SUI. Peptide amphiphile delivery of SHH may be applicable for RS regeneration and SUI prevention.

摘要

目的

前列腺切除术会导致横纹括约肌（RS）肌肉损伤，这是导致压力性尿失禁（SUI）的主要原因。目前的 SUI 治疗方法会产生显著的副作用，从而对患者的生活质量产生负面影响。因此，需要开发新的 RS 再生方法。我们已经表明，Sonic hedgehog（SHH）是阴茎平滑肌的关键调节因子，我们已经开发了新型的肽两亲物纳米纤维水凝胶递送 SHH 蛋白，以在前列腺切除术后损伤后再生平滑肌。如果类似的 SHH 信号机制调节 RS 肌肉的稳态，那么这种创新技术可能适用于前列腺切除术后的 RS 再生。我们研究了人类 RS 肌肉中的 SHH 途径。

方法

在根治性膀胱前列腺切除术期间获得的人类 RS（n=13）进行了 SHH 途径分析。建立了原代培养物（n=5），并用 SHH 蛋白、SHH 抑制剂或 PBS（对照）处理 RS 细胞。进行了 SHH 途径、骨骼肌肌动蛋白和三色染色的免疫组织化学分析。在第 3 天和第 6 天测量 RS 生长。

结果

在人类 RS 肌肉中鉴定出 SHH、它的受体 patched 和 smoothened 以及转录激活因子 GLI 蛋白。在第 3 天和第 6 天，用 SHH 处理后 RS 细胞分别增加了 62%和 78%（P=0.0001），而用 SHH 抑制剂处理后则分别减少了 40%（P=0.0001）和 18%（P=0.039）。

结论

在人类 RS 中鉴定出了 SHH 途径。RS 生长随 SHH 处理而增加，表明可能可以通过干预来增强 RS 再生，从而影响 SUI。肽两亲物递送 SHH 可能适用于 RS 再生和 SUI 预防。

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