Ramy Goueli scite author profile

Benign prostatic hyperplasia (BPH), a nonmalignant enlargement of the prostate, is among the most common diseases affecting aging men, but the underlying molecular features remain poorly understood, and therapeutic options are limited. Here we employ a comprehensive molecular investigation of BPH, including genomic, transcriptomic and epigenetic profiling. We find no evidence of neoplastic features in BPH: no evidence of driver genomic alterations, including low coding mutation rates, mutational signatures consistent with aging tissues, minimal copy number alterations, and no genomic rearrangements. At the epigenetic level, global hypermethylation is the dominant process. Integrating transcriptional and methylation signatures identifies two BPH subgroups with distinct clinical features and signaling pathways, validated in two independent cohorts. Finally, mTOR inhibitors emerge as a potential subtype-specific therapeutic option, and men exposed to mTOR inhibitors show a significant decrease in prostate size. We conclude that BPH consists of distinct molecular subgroups, with potential for subtype-specific precision therapy.

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Efficacy, Safety, and Durability of 532 nm Laser Photovaporization of the Prostate with GreenLight 180 W XPS in Men with Acute Urinary Retention

Goueli

Meskawi

Thomas

et al. 2017

Journal of Endourology

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Lower Urinary Tract Symptoms, Benign Prostatic Hyperplasia, and Urinary Retention

Goueli

Lee

2018

Medical Clinics of North America

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Reshaping of the androgen-driven chromatin landscape in normal prostate cells by early cancer drivers and effect on therapeutic sensitivity

Grbeša

Augello²,

Liu³

et al. 2021

Cell Reports

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SUMMARY The normal androgen receptor (AR) cistrome and transcriptional program are fundamentally altered in prostate cancer (PCa). Here, we profile the chromatin landscape and AR-directed transcriptional program in normal prostate cells and show the impact of SPOP mutations, an early event in prostate tumorigenesis. In genetically normal mouse prostate organoids, SPOP mutation results in accessibility and AR binding patterns similar to that of human PCa. Consistent with dependence on AR signaling, castration of SPOP mutant mouse models results in the loss of neoplastic phenotypes, and human SPOP mutant PCa shows a favorable response to AR-targeted therapies. Together, these data validate mouse prostate organoids as a robust model for studying epigenomic and transcriptional alterations in normal prostate, provide valuable datasets for further studies, and show that a single genomic alteration may be sufficient to reprogram the chromatin of normal prostate cells toward oncogenic phenotypes, with potential therapeutic implications for AR-targeting therapies.

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Ramy Goueli

Integrative multiplatform molecular profiling of benign prostatic hyperplasia identifies distinct subtypes

Efficacy, Safety, and Durability of 532 nm Laser Photovaporization of the Prostate with GreenLight 180 W XPS in Men with Acute Urinary Retention

Lower Urinary Tract Symptoms, Benign Prostatic Hyperplasia, and Urinary Retention

Reshaping of the androgen-driven chromatin landscape in normal prostate cells by early cancer drivers and effect on therapeutic sensitivity

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