Cyclopamine functions as a suppressor of benign prostatic hyperplasia by inhibiting epithelial and stromal cell proliferation via suppression of the Hedgehog signaling pathway

Yao, Yuan; Zhu, Wen‐Xiong; Liu, Tao; He, Jun; Zhou, Qing; Zhou, Xing; Zhang, Xi; Yang, Jing

doi:10.3892/ijmm.2020.4569

Cited by 9 publications

(9 citation statements)

References 37 publications

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“…Recently, Yuan and colleagues had reported that CYC administration suppressed BPH by inhibiting epithelial and stromal cell proliferation 39 . In their study, only primary cultured rat prostate cells and rat models were used.…”

Section: Discussionmentioning

confidence: 99%

Smoothened inhibition leads to decreased cell proliferation and suppressed tissue fibrosis in the development of benign prostatic hyperplasia

et al. 2021

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Benign prostatic hyperplasia (BPH) is a common disease in aging males. It has been proven that the Hedgehog (HH) is implied as an effective and fundamental regulatory growth factor signal for organogenesis, homeostasis, and regeneration. Smoothened (SMO), as the major control point of HH signals, activates aberrantly in most human solid tumors. However, the specific function of SMO and its downstream glioma-associated oncogene (GLI) family in BPH has not been well understood. Here, we first revealed that the SMO cascade was upregulated in BPH tissues and was localized in both the stromal and the epithelium compartments of human prostate tissues. Cyclopamine, as a specific SMO inhibitor, was incubated with BPH-1 and WPMY-1, and intraperitoneally injected into a BPH rat model established by castration with testosterone supplementation. SMO inhibition could induce cell apoptosis, cell cycle arrest at the G0/G1 phase, and a reduction of tissue fibrosis markers, both in vitro and in vivo. Finally, a tissue microarray, containing 104 BPH specimens, was constructed to analyze the correlations between the expression of SMO cascade and clinical parameters. The GLI2 was correlated positively with nocturia and negatively with fPSA. The GLI3 was in a positive relationship with International Prostate Symptom Score and nocturia. In conclusion, our study suggested that SMO cascade could play important roles in the development of BPH and it might be rediscovered as a promising therapeutic target for BPH.

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Section: Discussionmentioning

confidence: 99%

Smoothened inhibition leads to decreased cell proliferation and suppressed tissue fibrosis in the development of benign prostatic hyperplasia

et al. 2021

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“…In the results of GO enrichment analysis, we found that up-regulated DEGs were signi cantly enriched in redox, which was consistent with previous studies that the redox system was associated with the development of BPH 43 , and that GO terms enriched in down-regulated DEGs were associated with ion transport 44 , whereas up down-regulated DEGs were enriched in hormonal regulation, and previous studies had demonstrated the involvement of both androgens and estrogens in the progression of BPH 45,46 . In addition, the results of KEGG analysis suggested that the most signi cant pathway was small molecules, which had been shown in previous studies to in uence cell cycle, apoptosis, proliferation, and proliferation [47][48][49] , whereas the up-regulated DEGs were most signi cantly enriched in pathways associated with IGFs and IGFBPs, which have been previously shown to be associated with BPH 50,51 , and inhibition of IGF-1 secretion inhibited the proliferation of prostate epithelial cells 52 , and up-and down-regulated DEGs were also predominantly co-enriched in small molecule compound-related pathways, suggesting that this pathway might play an important role in steroid hormones-induced BPH. To further explore steroid hormonesinduced genomic differences in mice, we used GSEA and GSVA.…”

Section: Discussionmentioning

confidence: 68%

Comparative RNA-sequencing analysis of the prostate in a mouse model of benign prostatic hyperplasia with bladder outlet obstruction

Tang

Liu

Ren

et al. 2022

Preprint

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In aging men, BPH is a chronic disease that leads to progressive lower urinary tract symptoms (LUTS) caused by obstruction of the bladder outlet (BOO). Patients with LUTS (such as frequency and urgency) and complications of BOO (such as hydronephrosis and bladder stones) are at risk of serious health problems. Nevertheless, clinical treatment is complicated and uncertain. BPH is caused by hormonal imbalances related to androgen and estrogen, but the exact mechanism is still unknown, even the animal model is not fully understood. However, there are no large-scale data to explain this mechanism. A BPH mouse model was established using mixed slow-release pellets of testosterone (T) and estradiol (E2), and we detected gene expression in mouse prostate tissue using RNA-seq, and verified the results using qRT-PCR, and used bioinformatics methods to analyze the differentially expressed genes (DEGs).

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“…As observed in other studies, the Hedgehog agonist purmorphamine was more efficient in inducing osteoblast differentiation at a concentration of 2 μM [ 14 , 15 , 55 ]. The Hedgehog antagonist cyclopamine inhibited the osteoblast differentiation and because the concentration of 1000 nM seems to induce some toxicity specifically based on its effect on Opn gene expression and ALP activity, we selected 10 nM as it was more efficient than 100 nM in inhibiting osteoblast differentiation [ 56 , 57 , 58 ]. In agreement with previous studies, the Notch antagonist DAPT at the concentration of 20 µM was more osteogenic [ 33 , 59 , 60 ].…”

Section: Discussionmentioning

confidence: 99%

Effects of Modulation of the Hedgehog and Notch Signaling Pathways on Osteoblast Differentiation Induced by Titanium with Nanotopography

Souza

Adolpho

Lopes

et al. 2023

JFB

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Background: The events of bone formation and osteoblast/titanium (Ti) interactions may be affected by Hedgehog and Notch signalling pathways. Herein, we investigated the effects of modulation of these signalling pathways on osteoblast differentiation caused by the nanostructured Ti (Ti-Nano) generated by H2SO4/H2O2. Methods: Osteoblasts from newborn rat calvariae were cultured on Ti-Control and Ti-Nano in the presence of the Hedgehog agonist purmorphamine or antagonist cyclopamine and of the Notch antagonist N-(3,5-Difluorophenacetyl)-L-alanyl]-S-phenylglycine t-butyl ester (DAPT) or agonist bexarotene. Osteoblast differentiation was evaluated by alkaline phosphatase activity and mineralization, and the expression of Hedgehog and Notch receptors was also evaluated. Results: In general, purmorphamine and DAPT increased while cyclopamine and bexarotene decreased osteoblast differentiation and regulated the receptor expression on both Ti surfaces, with more prominent effects on Ti-Nano. The purmorphamine and DAPT combination exhibited synergistic effects on osteoblast differentiation that was more intense on Ti-Nano. Conclusion: Our results indicated that the Hedgehog and Notch signalling pathways drive osteoblast/Ti interactions more intensely on nanotopography. We also demonstrated that combining Hedgehog activation with Notch inhibition exhibits synergistic effects on osteoblast differentiation, especially on Ti-Nano. The uncovering of these cellular mechanisms contributes to create strategies to control the process of osseointegration based on the development of nanostructured surfaces.

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Cyclopamine functions as a suppressor of benign prostatic hyperplasia by inhibiting epithelial and stromal cell proliferation via suppression of the Hedgehog signaling pathway

Cited by 9 publications

References 37 publications

Smoothened inhibition leads to decreased cell proliferation and suppressed tissue fibrosis in the development of benign prostatic hyperplasia

Smoothened inhibition leads to decreased cell proliferation and suppressed tissue fibrosis in the development of benign prostatic hyperplasia

Comparative RNA-sequencing analysis of the prostate in a mouse model of benign prostatic hyperplasia with bladder outlet obstruction

Effects of Modulation of the Hedgehog and Notch Signaling Pathways on Osteoblast Differentiation Induced by Titanium with Nanotopography

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