前列腺切除术、糖尿病和 Peyronie 病患者的人海绵体组织原代培养中的 Sonic Hedgehog 信号转导。
Sonic Hedgehog Signaling in Primary Culture of Human Corpora Cavernosal Tissue From Prostatectomy, Diabetic, and Peyronie's Patients.
机构信息
Department of Urology, University of Illinois at Chicago, Chicago, IL.
UTHealth, The University of Texas Health Science Center at Houston, Department of Diagnostic and Biomedical Sciences, Houston, TX.
出版信息
J Sex Med. 2022 Aug;19(8):1228-1242. doi: 10.1016/j.jsxm.2022.04.010. Epub 2022 Jun 23.
BACKGROUND
Cavernous nerve (CN) injury causes penile remodeling, including smooth muscle apoptosis and increased collagen, which results in erectile dysfunction (ED), and prevention of this remodeling is critical for novel ED therapy development.
AIM
We developed 2 peptide amphiphile (PA) hydrogel delivery vehicles for Sonic hedgehog (SHH) protein to the penis and CN, which effectively suppress penile distrophic remodeling (apoptosis and fibrosis), in vivo in a rat CN injury model, and the aim of this study is to determine if SHH PA can be used to regenerate human corpora cavernosal smooth muscle deriving from multiple ED origins.
METHODS
Corpora cavernosal tissue was obtained from prostatectomy, diabetic, hypertension, cardiovascular disease and Peyronie's (control) patients (n = 21). Primary cultures (n = 21) were established, and corpora cavernosal cells were treated with SHH protein, MSA (control), 5E1 SHH inhibitor, and PBS (control). Growth was quantified by counting the number of cells at 3-4 days. Statistics were performed by ANOVA with Scheffe's post hoc test. Concentration of SHH protein for maximal growth was optimized, and a more active SHH protein examined.
OUTCOMES
Cultures were characterized by immunohistochemical analysis with ACTA2, CD31, nNOS and P4HB, and smooth muscle was quantified in comparison to DAPI.
RESULTS
Cultures established were >97% smooth muscle. SHH protein increased growth of smooth muscle cells from prostatectomy, diabetic, and Peyronie's patients in a similar manner (49%-51%), and SHH inhibition decreased growth (20%-33%). There was no difference in growth using 25 ug and 10 ug SHH protein, suggesting a threshold concentration of SHH protein above which smooth muscle growth is enhanced. A more active lipid modified SHH peptide further enhanced growth (15%), indicating a more robust growth response. SHH increased growth in smooth muscle cells from hypertension (37%) and cardiovascular disease (32%) patients. SHH protein increased growth under normal and high glucose conditions, suggesting that high glucose conditions that may be present in under controlled diabetic patients would not detract from SHH regenerative capacity.
CLINICAL IMPLICATIONS
SHH PA would be beneficial to enhance smooth muscle regeneration in patients with ED of multiple etiologies.
STRENGTHS AND LIMITATIONS
Understanding how human corpora cavernosal tissue responds to SHH treatment is critical for clinical translation of SHH PA to ED patients.
CONCLUSION
Corpora cavernosal smooth muscle from all ED patients responded to SHH treatment with increased growth. Stupp, SI. Sonic Hedgehog Signaling in Primary Culture of Human Corpora Cavernosal Tissue From Prostatectomy, Diabetic, and Peyronie's Patients. J Sex Med 2022;19:1228-1242.
背景
海绵体神经(CN)损伤导致阴茎重塑,包括平滑肌细胞凋亡和胶原增加,导致勃起功能障碍(ED),预防这种重塑对于新的 ED 治疗发展至关重要。
目的
我们开发了 2 种肽两亲物(PA)水凝胶输送载体用于将 Sonic hedgehog(SHH)蛋白递送到阴茎和 CN,在大鼠 CN 损伤模型中,这些载体有效地抑制了阴茎营养不良性重塑(凋亡和纤维化),本研究的目的是确定 SHH PA 是否可用于再生源自多种 ED 病因的人海绵体平滑肌。
方法
从前列腺切除术、糖尿病、高血压、心血管疾病和 Peyronie 病(对照)患者中获得海绵体组织(n=21)。建立原代培养物(n=21),并用 SHH 蛋白、MSA(对照)、5E1 SHH 抑制剂和 PBS(对照)处理海绵体细胞。在第 3-4 天通过计数细胞数来量化生长。通过方差分析和 Scheffe 事后检验进行统计学分析。优化 SHH 蛋白的最佳浓度,检测更具活性的 SHH 蛋白。
结果
培养物通过 ACTA2、CD31、nNOS 和 P4HB 的免疫组织化学分析进行特征描述,并与 DAPI 比较定量平滑肌。
结论
所有 ED 患者的海绵体平滑肌对 SHH 治疗均有反应,增加了生长。Stupp,SI。Sonic Hedgehog 信号在前列腺切除术、糖尿病和 Peyronie 病患者的原代培养人海绵体组织中的作用。J Sex Med 2022;19:1228-1242。
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