Genomic analysis of benign prostatic hyperplasia implicates cellular relandscaping in disease pathogenesis
Lance W. Middleton, Zhewei Shen, Sushama Varma, Anna S. Pollack, Xue Gong, Shirley Zhu, Chunfang Zhu, Joseph W. Foley, Sujay Vennam, Robert T. Sweeney, Karen Tu, Jewison Biscocho, Okyaz Eminaga, Rosalie Nolley, Robert Tibshirani, James D. Brooks, Robert B. West, Jonathan R. Pollack
Lance W. Middleton, Zhewei Shen, Sushama Varma, Anna S. Pollack, Xue Gong, Shirley Zhu, Chunfang Zhu, Joseph W. Foley, Sujay Vennam, Robert T. Sweeney, Karen Tu, Jewison Biscocho, Okyaz Eminaga, Rosalie Nolley, Robert Tibshirani, James D. Brooks, Robert B. West, Jonathan R. Pollack
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Research Article Cell biology Oncology

Genomic analysis of benign prostatic hyperplasia implicates cellular relandscaping in disease pathogenesis

Abstract

Benign prostatic hyperplasia (BPH) is the most common cause of lower urinary tract symptoms in men. Current treatments target prostate physiology rather than BPH pathophysiology and are only partially effective. Here, we applied next-generation sequencing to gain insight into BPH. By RNA-Seq, we uncovered transcriptional heterogeneity among BPH cases, where a 65-gene BPH stromal signature correlated with symptom severity. Stromal signaling molecules bone morphogenetic protein 5 (BMP5) and CXC chemokine ligand 13 (CXCL13) were enriched in BPH while estrogen-regulated pathways were depleted. Notably, BMP5’s addition to cultured prostatic myofibroblasts altered their expression profile toward a BPH profile that included the BPH stromal signature. RNA-Seq also suggested an altered cellular milieu in BPH, which we verified by immunohistochemistry and single-cell RNA-Seq. In particular, BPH tissues exhibited enrichment of myofibroblast subsets but also depletion of neuroendocrine cells and an estrogen receptor–positive fibroblast cell type residing near the epithelium. By whole-exome sequencing, we uncovered somatic single-nucleotide variants in BPH, of uncertain pathogenic significance but indicative of clonal cell expansions. Thus, genomic characterization of BPH has identified a clinically relevant stromal signature and new candidate disease pathways (including a likely role for BMP5 signaling) and reveals BPH to be not merely a hyperplasia, but rather a fundamental relandscaping of cell types.

Authors

Lance W. Middleton, Zhewei Shen, Sushama Varma, Anna S. Pollack, Xue Gong, Shirley Zhu, Chunfang Zhu, Joseph W. Foley, Sujay Vennam, Robert T. Sweeney, Karen Tu, Jewison Biscocho, Okyaz Eminaga, Rosalie Nolley, Robert Tibshirani, James D. Brooks, Robert B. West, Jonathan R. Pollack

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Figure 3

BMP5 addition to cultured prostate cells supports role in BPH disease process.

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BMP5 addition to cultured prostate cells supports role in BPH disease pr...
(A) Addition of BMP5 (250 ng/ml) to RWPE-1 prostate epithelial and WPMY-1 myofibroblast cells activates the canonical SMAD pathway, demonstrated by 15- to 20-fold increased phospho-SMAD1/5/9 on Western blot. (B) BMP5 addition (concentrations indicated) to RWPE-1 cells increases cell numbers. Mean (red) and SD (blue) shown. Multiplicity-adjusted P values generated from 1-way ANOVA with post hoc comparison to no BMP5 control (Dunnett’s test); *P < 0.05. Data are representative of 3 independent experiments, each done with 2 samples assayed per concentration. (C) Addition of BMP5 (250 ng/ml) to RWPE-1 cells leads to dispersed cell growth (with fewer cell clusters) and to increased Transwell migration. Mean and SD shown; P value generated from 2-tailed Student’s t test. Data are representative of 2 independent experiments, each done with 3 samples assayed per condition. (D and E) BMP5 addition to RWPE-1 and WPMY-1 cells generates a transcriptional response significantly enriched for BPH (vs. normal prostate) overexpressed genes (left), and with WPMY-1 cells for BPH stromal signature genes (center), but not AR/secretory signature genes (right). Gene set enrichment analysis (GSEA) enrichment score P values are indicated.