Rate of castration-induced prostate stroma regression is reduced in a mouse model of benign prostatic hyperplasia.

IF 1.5 Q3 UROLOGY & NEPHROLOGY
American journal of clinical and experimental urology Pub Date : 2023-02-25 eCollection Date: 2023-01-01
Renyuan Zhang, Shalini Singh, Chunliu Pan, Bo Xu, Jon Kindblom, Kevin H Eng, John J Krolewski, Kent L Nastiuk
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Abstract

Benign prostatic hyperplasia (BPH) is a non-neoplastic proliferative disease producing lower urinary tract symptoms related to the resulting enlarged prostate. BPH is pathologically characterized by hyperplastic growth in both epithelial and stromal compartments. Androgen signaling is essential for prostate function and androgen blockade is the second-line medical therapy to relieve symptoms of BPH. Here we examined the prostates of probasin promoter-driven prolactin (Pb-PRL) transgenic mice, a robust model of BPH that spontaneously develops prostate enlargement, to investigate prostate regression in response to surgical castration. Serial ultrasound imaging demonstrated very uniform self-limited growth of Pb-PRL prostate volume that is consistent with the benign, limited cellular proliferation characteristic of BPH and that contrasts with the highly variable, exponential growth of murine prostate cancer models. Castration elicited only a partial reduction in prostate volume, relative to castration-induced regression of the normal prostate gland. The anti-androgen finasteride induced a diminished reduction of Pb-PRL prostate volume versus castration. The limited extent of Pb-PRL mouse prostate volume regression correlated with the initial volume of the stromal compartment, suggesting a differential sensitivity of the epithelial and stromal compartments to androgen withdrawal. Indeed, two-dimensional morphometric analyses revealed a distinctly reduced rate of regression for the stromal compartment in Pb-PRL mice. The myofibroblast component of the Pb-PRL prostate stroma appeared normal, but the stromal compartment contained more fibroblasts and extracellular collagen deposition. Like normal prostate, the rate of regression of the Pb-PRL prostate was partially dependent on TGFß and TNF signaling, but unlike the normal prostate, the extent of castration-induced regression was not affected by TGFß or TNF blockade. Our studies show that androgen deprivation can effectively reduce the overall volume of hyperplastic prostate, but the stromal compartment is relatively resistant, suggesting additional therapies might be required to offer an effective treatment for the clinical manifestations of BPH.

在良性前列腺增生症小鼠模型中,阉割诱导的前列腺基质消退率降低。
良性前列腺增生症(BPH)是一种非肿瘤性增生性疾病,会产生与前列腺增生有关的下尿路症状。良性前列腺增生症的病理特征是上皮和基质增生。雄激素信号对前列腺功能至关重要,阻断雄激素是缓解良性前列腺增生症症状的二线药物疗法。在这里,我们对自发出现前列腺增生的强健良性前列腺增生症模型--益母草素启动子驱动的催乳素(Pb-PRL)转基因小鼠的前列腺进行了检查,以研究前列腺退化对手术阉割的反应。连续的超声波成像显示,Pb-PRL前列腺体积的自限性增长非常均匀,这与良性前列腺增生症特有的良性、有限的细胞增殖相一致,与小鼠前列腺癌模型的高度可变、指数式增长形成鲜明对比。相对于阉割诱导的正常前列腺消退,阉割仅导致前列腺体积部分缩小。与阉割相比,抗雄激素非那雄胺诱导的 Pb-PRL 前列腺体积减少幅度较小。Pb-PRL 小鼠前列腺体积缩小的有限程度与基质区的初始体积相关,这表明上皮和基质区对雄激素戒断的敏感性不同。事实上,二维形态计量分析显示,Pb-PRL 小鼠基质区的体积缩小率明显降低。Pb-PRL小鼠前列腺基质中的肌成纤维细胞成分看起来正常,但基质区含有更多的成纤维细胞和细胞外胶原沉积。与正常前列腺一样,Pb-PRL前列腺的退化速度部分取决于TGFß和TNF信号转导,但与正常前列腺不同的是,阉割诱导的退化程度不受TGFß或TNF阻断的影响。我们的研究表明,雄激素剥夺能有效减少增生性前列腺的总体体积,但基质区的抵抗力相对较弱,这表明可能需要额外的疗法才能有效治疗良性前列腺增生症的临床表现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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