Spatial transcriptomics identifies candidate stromal drivers of benign prostatic hyperplasia
Anna S. Pollack, Christian A. Kunder, Noah Brazer, Zhewei Shen, Sushama Varma, Robert B. West, Gerald R. Cunha, Laurence S. Baskin, James D. Brooks, Jonathan R. Pollack
Anna S. Pollack, Christian A. Kunder, Noah Brazer, Zhewei Shen, Sushama Varma, Robert B. West, Gerald R. Cunha, Laurence S. Baskin, James D. Brooks, Jonathan R. Pollack
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Research Article Cell biology Reproductive biology

Spatial transcriptomics identifies candidate stromal drivers of benign prostatic hyperplasia

Abstract

Benign prostatic hyperplasia (BPH) is the nodular proliferation of the prostate transition zone in older men, leading to urinary storage and voiding problems that can be recalcitrant to therapy. Decades ago, John McNeal proposed that BPH originates with the “reawakening” of embryonic inductive activity by adult prostate stroma, which spurs new ductal proliferation and branching morphogenesis. Here, by laser microdissection and transcriptional profiling of the BPH stroma adjacent to hyperplastic branching ducts, we identified secreted factors likely mediating stromal induction of prostate glandular epithelium and coinciding processes. The top stromal factors were insulin-like growth factor 1 (IGF1) and CXC chemokine ligand 13 (CXCL13), which we verified by RNA in situ hybridization to be coexpressed in BPH fibroblasts, along with their cognate receptors (IGF1R and CXCR5) on adjacent epithelium. In contrast, IGF1 but not CXCL13 was expressed in human embryonic prostate stroma. Finally, we demonstrated that IGF1 is necessary for the generation of BPH-1 cell spheroids and patient-derived BPH cell organoids in 3D culture. Our findings partially support historic speculations on the etiology of BPH and provide what we believe to be new molecular targets for rational therapies directed against the underlying processes driving BPH.

Authors

Anna S. Pollack, Christian A. Kunder, Noah Brazer, Zhewei Shen, Sushama Varma, Robert B. West, Gerald R. Cunha, Laurence S. Baskin, James D. Brooks, Jonathan R. Pollack

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Figure 5

IGF1 and CXCL13 receptors are expressed in adjacent prostate ductal epithelium.

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IGF1 and CXCL13 receptors are expressed in adjacent prostate ductal epit...
(A) H&E stain of Hub-8. Inner stroma (yellow star) and outer stroma (blue star) are indicated; scale bar is 500 μm. (BF) Two-color RNA in situ hybridization (RISH) of Hub-8 shown for (B and E) IGF1 (blue) and IGF1R (red), (C and F) CXCL13 (blue) and CXCR5 (red), and (D) negative control probes. Note, 2-color RISH for IGF1/IGF1R and CXCL13/CXCR5 was conducted on 3 additional BPH hubs (Supplemental Table 4). (G) IHC of Ki-67 identifies proliferating ductal epithelial cells adjacent to IGF1+ stroma. Arrows identify representative Ki-67+ cells. (H) Increased proliferating (Ki-67+) ductal epithelial cells on the side facing the inner/inductive stroma. Data from 4 hubs (see Supplemental Figure 2, quantified as Ki-67+ cells per millimeter duct; scale bar is 500 µm, and all figure insets are an additional 1.6× magnification. Mean ± SD shown. *P < 0.05; 2-sided paired Student’s t test. (I) Two-color IHC identifies B cells (CD20, brown) and T cells (CD3, red) within both the inner and outer stroma of hubs. Note, 2-color IHC for CD20/CD3 was conducted on 1 additional BPH hub (Hub-7).