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1.
Nat Methods ; 21(10): 1830-1842, 2024 Oct.
Article in English | MEDLINE | ID: mdl-39227721

ABSTRACT

Cell-cell communication (CCC) is essential to how life forms and functions. However, accurate, high-throughput mapping of how expression of all genes in one cell affects expression of all genes in another cell is made possible only recently through the introduction of spatially resolved transcriptomics (SRT) technologies, especially those that achieve single-cell resolution. Nevertheless, substantial challenges remain to analyze such highly complex data properly. Here, we introduce a multiple-instance learning framework, Spacia, to detect CCCs from data generated by SRTs, by uniquely exploiting their spatial modality. We highlight Spacia's power to overcome fundamental limitations of popular analytical tools for inference of CCCs, including losing single-cell resolution, limited to ligand-receptor relationships and prior interaction databases, high false positive rates and, most importantly, the lack of consideration of the multiple-sender-to-one-receiver paradigm. We evaluated the fitness of Spacia for three commercialized single-cell resolution SRT technologies: MERSCOPE/Vizgen, CosMx/NanoString and Xenium/10x. Overall, Spacia represents a notable step in advancing quantitative theories of cellular communications.


Subject(s)
Cell Communication , Gene Expression Profiling , Single-Cell Analysis , Transcriptome , Single-Cell Analysis/methods , Humans , Cell Communication/genetics , Gene Expression Profiling/methods , Animals
2.
J Pathol ; 263(3): 300-314, 2024 07.
Article in English | MEDLINE | ID: mdl-38606616

ABSTRACT

Steroid 5α reductase 2 (SRD5A2) converts testosterone to dihydrotestosterone and is crucial for prostatic development. 5α reductase inhibitors (5ARI) reduce prostate size in benign prostate hyperplasia (BPH) and ameliorate lower urinary tract symptoms secondary to BPH. However, the mechanisms of 5ARI functioning are still not fully understood. Here, we used a Srd5a2-/- mouse model and employed single-cell RNA sequencing to explore the impact of SRD5A2 absence on prostate cellular heterogeneity. Significant alterations in luminal epithelial cell (LE) populations were observed, alongside an increased proportion and proliferative phenotype of estrogen receptor 1 (ESR1)+ LE2 cells, following an SRD5A2-independent ESR1 differentiation trajectory. LE2 cells exhibited enhanced estrogen response gene signatures, suggesting an alternative pathway for prostate growth when SRD5A2 is absent. Human prostate biopsy analysis revealed an inverse correlation between the expressions of SRD5A2 and LE2 markers (ESR1/PKCα), and an inverse correlation between SRD5A2 and the clinical efficiency of 5ARI. These findings provide insights into 5ARI resistance mechanisms and potential alternative therapies for BPH-related lower urinary tract symptoms. © 2024 The Pathological Society of Great Britain and Ireland.


Subject(s)
3-Oxo-5-alpha-Steroid 4-Dehydrogenase , Epithelial Cells , Estrogen Receptor alpha , Membrane Proteins , Mice, Knockout , Prostate , Prostatic Hyperplasia , 3-Oxo-5-alpha-Steroid 4-Dehydrogenase/metabolism , 3-Oxo-5-alpha-Steroid 4-Dehydrogenase/genetics , Male , Animals , Estrogen Receptor alpha/metabolism , Estrogen Receptor alpha/genetics , Prostate/pathology , Prostate/metabolism , Humans , Prostatic Hyperplasia/pathology , Prostatic Hyperplasia/metabolism , Prostatic Hyperplasia/genetics , Epithelial Cells/metabolism , Epithelial Cells/pathology , Membrane Proteins/metabolism , Membrane Proteins/genetics , Mice , 5-alpha Reductase Inhibitors/pharmacology , Cell Proliferation , Disease Models, Animal , Cell Differentiation , Lower Urinary Tract Symptoms/pathology , Lower Urinary Tract Symptoms/metabolism
3.
Prostate ; 84(5): 441-459, 2024 Apr.
Article in English | MEDLINE | ID: mdl-38168866

ABSTRACT

BACKGROUND: The medical therapy of prostatic symptoms (MTOPS) trial randomized men with symptoms of benign prostatic hyperplasia (BPH) and followed response of treatment with a 5α-reductase inhibitor (5ARI), an alpha-adrenergic receptor antagonist (α-blocker), the combination of 5ARI and α-blocker or no medical therapy (none). Medical therapy reduced risk of clinical progression by 66% but the reasons for nonresponse or loss of therapeutic response in some patients remains unresolved. Our previous work showed that prostatic glucocorticoid levels are increased in 5ARI-treated patients and that glucocorticoids can increased branching of prostate epithelia in vitro. To understand the transcriptomic changes associated with 5ARI treatment, we performed bulk RNA sequencing of BPH and control samples from patients who received 5ARI versus those that did not. Deconvolution analysis was performed to estimate cellular composition. Bulk RNA sequencing was also performed on control versus glucocorticoid-treated prostate epithelia in 3D culture to determine underlying transcriptomic changes associated with branching morphogenesis. METHOD: Surgical BPH (S-BPH) tissue was defined as benign prostatic tissue collected from the transition zone (TZ) of patients who failed medical therapy while control tissue termed Incidental BPH (I-BPH) was obtained from the TZ of men undergoing radical prostatectomy for low-volume/grade prostatic adenocarcinoma confined to the peripheral zone. S-BPH patients were divided into four subgroups: men on no medical therapy (none: n = 7), α-blocker alone (n = 10), 5ARI alone (n = 6) or combination therapy (α-blocker and 5ARI: n = 7). Control I-BPH tissue was from men on no medical therapy (none: n = 8) or on α-blocker (n = 6). A human prostatic cell line in 3D culture that buds and branches was used to identify genes involved in early prostatic growth. Snap-frozen prostatic tissue taken at the time of surgery and 3D organoids were used for RNA-seq analysis. Bulk RNAseq data were deconvoluted using CIBERSORTx. Differentially expressed genes (DEG) that were statistically significant among S-BPH, I-BPH, and during budding and branching of organoids were used for pathway analysis. RESULTS: Transcriptomic analysis between S-BPH (n = 30) and I-BPH (n = 14) using a twofold cutoff (p < 0.05) identified 377 DEG (termed BPH377) and a cutoff < 0.05 identified 3377 DEG (termed BPH3377). Within the S-BPH, the subgroups none and α-blocker were compared to patients on 5ARI to reveal 361 DEG (termed 5ARI361) that were significantly changed. Deconvolution analysis of bulk RNA seq data with a human prostate single cell data set demonstrated increased levels of mast cells, NK cells, interstitial fibroblasts, and prostate luminal cells in S-BPH versus I-BPH. Glucocorticoid (GC)-induced budding and branching of benign prostatic cells in 3D culture was compared to control organoids to identify early events in prostatic morphogenesis. GC induced 369 DEG (termed GC359) in 3D culture. STRING analysis divided the large datasets into 20-80 genes centered around a hub. In general, biological processes induced in BPH supported growth and differentiation such as chromatin modification and DNA repair, transcription, cytoskeleton, mitochondrial electron transport, ubiquitination, protein folding, and cholesterol synthesis. Identified signaling pathways were pooled to create a list of DEG that fell into seven hubs/clusters. The hub gene centrality was used to name the network including AP-1, interleukin (IL)-6, NOTCH1 and NOTCH3, NEO1, IL-13, and HDAC/KDM. All hubs showed connections to inflammation, chromatin structure, and development. The same approach was applied to 5ARI361 giving multiple networks, but the EGF and sonic hedgehog (SHH) hub was of particular interest as a developmental pathway. The BPH3377, 5ARI363, and GC359 lists were compared and 67 significantly changed DEG were identified. Common genes to the 3D culture included an IL-6 hub that connected to genes identified in BPH hubs that defined AP1, IL-6, NOTCH, NEO1, IL-13, and HDAC/KDM. CONCLUSIONS: Reduction analysis of BPH and 3D organoid culture uncovered networks previously identified in prostatic development as being reinitiated in BPH. Identification of these pathways provides insight into the failure of medical therapy for BPH and new therapeutic targets for BPH/LUTS.


Subject(s)
5-alpha Reductase Inhibitors , Prostatic Hyperplasia , Male , Humans , 5-alpha Reductase Inhibitors/pharmacology , 5-alpha Reductase Inhibitors/therapeutic use , Prostate/pathology , Prostatic Hyperplasia/drug therapy , Prostatic Hyperplasia/genetics , Prostatic Hyperplasia/pathology , Critical Pathways , Glucocorticoids/pharmacology , Glucocorticoids/therapeutic use , Interleukin-13/therapeutic use , Interleukin-6 , Hedgehog Proteins , Adrenergic alpha-Antagonists/therapeutic use , Gene Expression Profiling , Drug Therapy, Combination , Chromatin
4.
Mol Cell ; 63(6): 976-89, 2016 09 15.
Article in English | MEDLINE | ID: mdl-27594448

ABSTRACT

Prostate inflammation has been suggested as an etiology for benign prostatic hyperplasia (BPH). We show that decreased expression of the androgen receptor (AR) in luminal cells of human BPH specimens correlates with a higher degree of regional prostatic inflammation. However, the cause-and-effect relationship between the two events remains unclear. We investigated specifically whether attenuating AR activity in prostate luminal cells induces inflammation. Disrupting luminal cell AR signaling in mouse models promotes cytokine production cell-autonomously, impairs epithelial barrier function, and induces immune cell infiltration, which further augments local production of cytokines and chemokines including Il-1 and Ccl2. This inflammatory microenvironment promotes AR-independent prostatic epithelial proliferation, which can be abolished by ablating IL-1 signaling or depleting its major cellular source, the macrophages. This study demonstrates that disrupting luminal AR signaling promotes prostate inflammation, which may serve as a mechanism for resistance to androgen-targeted therapy for prostate-related diseases.


Subject(s)
Epithelial Cells/metabolism , Homeostasis/genetics , Macrophages/metabolism , Prostate/metabolism , Prostatic Hyperplasia/genetics , Receptors, Androgen/genetics , Animals , Cell Proliferation , Chemokine CCL2/genetics , Chemokine CCL2/immunology , Chemokine CXCL10/genetics , Chemokine CXCL10/immunology , Epithelial Cells/immunology , Epithelial Cells/pathology , Gene Expression Regulation , Homeostasis/immunology , Humans , Inflammation , Interleukin-1alpha/genetics , Interleukin-1alpha/immunology , Interleukin-1beta/genetics , Interleukin-1beta/immunology , Leukocyte Common Antigens/genetics , Leukocyte Common Antigens/immunology , Macrophages/immunology , Macrophages/pathology , Male , Mice , Neutrophil Infiltration , Prostate/immunology , Prostate/pathology , Prostatic Hyperplasia/immunology , Prostatic Hyperplasia/metabolism , Prostatic Hyperplasia/pathology , Receptors, Androgen/immunology , Signal Transduction , Stromal Cells/immunology , Stromal Cells/metabolism , Stromal Cells/pathology
5.
Development ; 147(15)2020 08 14.
Article in English | MEDLINE | ID: mdl-32586976

ABSTRACT

Kidney formation requires the coordinated growth of multiple cell types including the collecting ducts, nephrons, vasculature and interstitium. There is a long-held belief that interactions between progenitors of the collecting ducts and nephrons are primarily responsible for kidney development. However, over the last several years, it has become increasingly clear that multiple aspects of kidney development require signaling from the interstitium. How the interstitium orchestrates these various roles is poorly understood. Here, we show that during development the interstitium is a highly heterogeneous patterned population of cells that occupies distinct positions correlated to the adjacent parenchyma. Our analysis indicates that the heterogeneity is not a mere reflection of different stages in a linear developmental trajectory but instead represents several novel differentiated cell states. Further, we find that ß-catenin has a cell autonomous role in the development of a medullary subset of the interstitium and that this non-autonomously affects the development of the adjacent epithelia. These findings suggest the intriguing possibility that the different interstitial subtypes may create microenvironments that play unique roles in development of the adjacent epithelia and endothelia.


Subject(s)
Cell Differentiation , Kidney Tubules, Collecting/embryology , Signal Transduction , Animals , Kidney Tubules, Collecting/cytology , Mice , Mice, Transgenic , Stromal Cells/cytology , Stromal Cells/metabolism
6.
J Pathol ; 256(4): 427-441, 2022 04.
Article in English | MEDLINE | ID: mdl-34928497

ABSTRACT

Benign prostatic hyperplasia (BPH) is a progressive expansion of peri-urethral prostate tissue common in aging men. Patients with enlarged prostates are treated with 5-alpha reductase inhibitors (5ARIs) to shrink prostate volume by blocking the conversion of testosterone to dihydrotestosterone (DHT). A reduction in DHT levels can elicit atrophy and apoptosis of prostate secretory luminal cells, which results in a favorable clinical response characterized by improved lower urinary tract symptoms. However, the histologic response to 5ARI treatment is often heterogeneous across prostate acini and lower urinary tract symptoms can persist to require surgical intervention. We used two spatial profiling approaches to characterize gene expression changes across histologically normal and atrophied regions in prostates from 5ARI-treated men. Objective transcriptomic profiling using the Visium spatial gene expression platform showed that 5ARI-induced atrophy of prostate luminal cells correlated with reduced androgen receptor signaling and increased expression of urethral club cell genes including LTF, PIGR, OLFM4, SCGB1A1, and SCGB3A1. Prostate luminal cells within atrophied acini adapted to decreased DHT conditions by increasing NF-κB signaling and anti-apoptotic BCL2 expression, which may explain their survival. Using GeoMx digital spatial profiling with a probe set to assess ~18 000 RNA targets, we confirmed that atrophied acini expressing SCGB3A1 displayed higher levels of club cell markers compared with histologically normal acini with NKX3-1 expression. In addition, club-like cells within regions of 5ARI-induced atrophy closely resembled true club cells from the prostatic urethra. A comparison of histologically normal regions from 5ARI-treated men and histologically normal regions from untreated men revealed few transcriptional differences. Taken together, our results describe a heterogeneous response to 5ARI treatment where cells in atrophied acini undergo an adaptation from a prostate secretory luminal to a club cell-like state in response to 5ARI treatment. © 2021 The Pathological Society of Great Britain and Ireland.


Subject(s)
Lower Urinary Tract Symptoms , Prostatic Hyperplasia , 5-alpha Reductase Inhibitors/pharmacology , 5-alpha Reductase Inhibitors/therapeutic use , Atrophy/pathology , Dihydrotestosterone/pharmacology , Humans , Lower Urinary Tract Symptoms/drug therapy , Lower Urinary Tract Symptoms/pathology , Male , Prostate/pathology , Prostatic Hyperplasia/drug therapy , Prostatic Hyperplasia/genetics , Prostatic Hyperplasia/pathology
7.
Dev Biol ; 473: 50-58, 2021 05.
Article in English | MEDLINE | ID: mdl-33529704

ABSTRACT

The prostate develops by epithelial budding and branching processes that occur during fetal and postnatal stages. The adult prostate demonstrates remarkable regenerative capacity, with the ability to regrow to its original size over multiple cycles of castration and androgen administration. This capacity for controlled regeneration prompted the search for an androgen-independent epithelial progenitor in benign prostatic hyperplasia (BPH) and prostate cancer (PCa). BPH is hypothesized to be a reawakening of ductal branching, resulting in the formation of new proximal glands, all while androgen levels are decreasing in the aging male. Advanced prostate cancer can be slowed with androgen deprivation, but resistance eventually occurs, suggesting the existence of an androgen-independent progenitor. Recent studies indicate that there are multiple castration-insensitive epithelial cell types in the proximal area of the prostate, but not all act as progenitors during prostate development or regeneration. This review highlights how recent cellular and anatomical studies are changing our perspective on the identity of the prostate progenitor.


Subject(s)
Prostate/metabolism , Prostate/pathology , Stem Cells/metabolism , Androgen Antagonists/metabolism , Androgens/metabolism , Animals , Cell Differentiation , Epithelial Cells/metabolism , Humans , Male , Organogenesis , Prostate/embryology , Prostatic Hyperplasia/metabolism , Prostatic Neoplasms/metabolism
8.
Prostate ; 82(12): 1162-1169, 2022 09.
Article in English | MEDLINE | ID: mdl-35652548

ABSTRACT

BACKGROUND: Current AUA guidelines recommend 5 alpha reductase inhibitor (5ARI) treatment for patients with obstructive benign prostatic hyperplasia (BPH) that display prostate volume ≥30 cc and total prostate specific antigen (PSA) ≥1.5 ng/ml. However, BPH is highly pleomorphic and response to 5ARIs is highly variable. An understanding of cellular composition based on a noninvasive PSA density test could lead to improved clinical decision making. METHODS: The histological composition of 307 BPH specimens was scored by a pathologist for stromo-glandular content and associated with total PSA, prostate volume, PSA density and other clinical variables using univariate and multivariate linear regression. RESULTS: The percentage of glandular composition in prostates of 5ARI-naïve men was positively and independently associated with PSA and PSA density. It was determined through statistical modeling that a PSA density ≤0.05 ng/ml2 associated with a glandular composition of ≤30% with 76% sensitivity. CONCLUSIONS: PSA density could provide a decisive variable for estimating BPH cellular content and may eventually improve selection of patients for 5ARI treatment. Further work is needed to demonstrate that patients with higher glandular content are more responsive to 5ARI treatment.


Subject(s)
Prostatic Hyperplasia , 5-alpha Reductase Inhibitors/therapeutic use , Humans , Male , Prostate/pathology , Prostate-Specific Antigen , Prostatic Hyperplasia/pathology
9.
Prostate ; 82(14): 1378-1388, 2022 10.
Article in English | MEDLINE | ID: mdl-35821619

ABSTRACT

BACKGROUND: The development of benign prostatic hyperplasia (BPH) and medication-refractory lower urinary tract symptoms (LUTS) remain poorly understood. This study attempted to characterize the pathways associated with failure of medical therapy for BPH/LUTS. METHODS: Transitional zone tissue levels of cholesterol and steroids were measured in patients who failed medical therapy for BPH/LUTS and controls. Prostatic gene expression was measured using qPCR and BPH cells were used in organoid culture to study prostatic branching. RESULTS: BPH patients on 5-α-reductase inhibitor (5ARI) showed low levels of tissue dihydrotestosterone (DHT), increased levels of steroid 5-α-reductase type II (SRD5A2), and diminished levels of androgen receptor (AR) target genes, prostate-specific antigen (PSA), and transmembrane serine protease 2 (TMPRSS2). 5ARI raised prostatic tissue levels of glucocorticoids (GC), whereas alpha-adrenergic receptor antagonists (α-blockers) did not. Nuclear localization of GR in prostatic epithelium and stroma appeared in all patient samples. Treatment of four BPH organoid cell lines with dexamethasone, a synthetic GC, resulted in budding and branching. CONCLUSIONS: After failure of medical therapy for BPH/LUTS, 5ARI therapy continued to inhibit androgenesis but a 5ARI-induced pathway increased tissue levels of GC not seen in patients on α-blockers. GC stimulation of organoids indicated that the GC receptors are a trigger for controlling growth of prostate glands. A 5ARI-induced pathway revealed GC activation can serve as a master regulator of prostatic branching and growth.


Subject(s)
Lower Urinary Tract Symptoms , Prostatic Hyperplasia , 3-Oxo-5-alpha-Steroid 4-Dehydrogenase , 5-alpha Reductase Inhibitors/pharmacology , Dihydrotestosterone/metabolism , Glucocorticoids/metabolism , Glucocorticoids/pharmacology , Humans , Hyperplasia/metabolism , Hyperplasia/pathology , Lower Urinary Tract Symptoms/pathology , Male , Membrane Proteins/metabolism , Prostate/pathology , Prostatic Hyperplasia/genetics
10.
J Pathol ; 255(2): 141-154, 2021 10.
Article in English | MEDLINE | ID: mdl-34173975

ABSTRACT

Stromal-epithelial interactions are critical to the morphogenesis, differentiation, and homeostasis of the prostate, but the molecular identity and anatomy of discrete stromal cell types is poorly understood. Using single-cell RNA sequencing, we identified and validated the in situ localization of three smooth muscle subtypes (prostate smooth muscle, pericytes, and vascular smooth muscle) and two novel fibroblast subtypes in human prostate. Peri-epithelial fibroblasts (APOD+) wrap around epithelial structures, whereas interstitial fibroblasts (C7+) are interspersed in extracellular matrix. In contrast, the mouse displayed three fibroblast subtypes with distinct proximal-distal and lobe-specific distribution patterns. Statistical analysis of mouse and human fibroblasts showed transcriptional correlation between mouse prostate (C3+) and urethral (Lgr5+) fibroblasts and the human interstitial fibroblast subtype. Both urethral fibroblasts (Lgr5+) and ductal fibroblasts (Wnt2+) in the mouse contribute to a proximal Wnt/Tgfb signaling niche that is absent in human prostate. Instead, human peri-epithelial fibroblasts express secreted WNT inhibitors SFRPs and DKK1, which could serve as a buffer against stromal WNT ligands by creating a localized signaling niche around individual prostate glands. We also identified proximal-distal fibroblast density differences in human prostate that could amplify stromal signaling around proximal prostate ducts. In human benign prostatic hyperplasia, fibroblast subtypes upregulate critical immunoregulatory pathways and show distinct distributions in stromal and glandular phenotypes. A detailed taxonomy of leukocytes in benign prostatic hyperplasia reveals an influx of myeloid dendritic cells, T cells and B cells, resembling a mucosal inflammatory disorder. A receptor-ligand interaction analysis of all cell types revealed a central role for fibroblasts in growth factor, morphogen, and chemokine signaling to endothelia, epithelia, and leukocytes. These data are foundational to the development of new therapeutic targets in benign prostatic hyperplasia. © 2021 The Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.


Subject(s)
Cellular Microenvironment/physiology , Fibroblasts/cytology , Prostate/cytology , Animals , Extracellular Matrix , Humans , Male , Mice , Prostatic Hyperplasia/pathology , Single-Cell Analysis
11.
Prostate ; 81(13): 944-955, 2021 09.
Article in English | MEDLINE | ID: mdl-34288015

ABSTRACT

BACKGROUND: Little is known about how benign prostatic hyperplasia (BPH) develops and why patients respond differently to medical therapy designed to reduce lower urinary tract symptoms (LUTS). The Medical Therapy of Prostatic Symptoms (MTOPS) trial randomized men with symptoms of BPH and followed response to medical therapy for up to 6 years. Treatment with a 5α-reductase inhibitor (5ARI) or an alpha-adrenergic receptor antagonist (α-blocker) reduced the risk of clinical progression, while men treated with combination therapy showed a 66% decrease in risk of progressive disease. However, medical therapies for BPH/LUTS are not effective in many patients. The reasons for nonresponse or loss of therapeutic response in the remaining patients over time are unknown. A better understanding of why patients fail to respond to medical therapy may have a major impact on developing new approaches for the medical treatment of BPH/LUTS. Prostaglandins (PG) act on G-protein-coupled receptors (GPCRs), where PGE2 and PGF2 elicit smooth muscle contraction. Therefore, we measured PG levels in the prostate tissue of BPH/LUTS patients to assess the possibility that this signaling pathway might explain the failure of medical therapy in BPH/LUTS patients. METHOD: Surgical BPH (S-BPH) was defined as benign prostatic tissue collected from the transition zone (TZ) of patients who failed medical therapy and underwent surgical intervention to relieve LUTS. Control tissue was termed Incidental BPH (I-BPH). I-BPH was TZ obtained from men undergoing radical prostatectomy for low-volume, low-grade prostatic adenocarcinoma (PCa, Gleason score ≤ 7) confined to the peripheral zone. All TZ tissue was confirmed to be cancer-free. S-BPH patients divided into four subgroups: patients on α-blockers alone, 5ARI alone, combination therapy (α-blockers plus 5ARI), or no medical therapy (none) before surgical resection. I-BPH tissue was subgrouped by prior therapy (either on α-blockers or without prior medical therapy before prostatectomy). We measured prostatic tissue levels of prostaglandins (PGF2α , PGI2 , PGE2 , PGD2 , and TxA2 ), quantitative polymerase chain reaction levels of mRNAs encoding enzymes within the PG synthesis pathway, cellular distribution of COX1 (PTGS1) and COX2 (PTGS2), and tested the ability of PGs to contract bladder smooth muscle in an in vitro assay. RESULTS: All PGs were significantly elevated in TZ tissues from S-BPH patients (n = 36) compared to I-BPH patients (n = 15), regardless of the treatment subgroups. In S-BPH versus I-BPH, mRNA for PG synthetic enzymes COX1 and COX2 were significantly elevated. In addition, mRNA for enzymes that convert the precursor PGH2 to metabolite PGs were variable: PTGIS (which generates PGI2 ) and PTGDS (PGD2 ) were significantly elevated; nonsignificant increases were observed for PTGES (PGE2 ), AKR1C3 (PGF2α ), and TBxAS1 (TxA2 ). Within the I-BPH group, men responding to α-blockers for symptoms of BPH but requiring prostatectomy for PCa did not show elevated levels of COX1, COX2, or PGs. By immunohistochemistry, COX1 was predominantly observed in the prostatic stroma while COX2 was present in scattered luminal cells of isolated prostatic glands in S-BPH. PGE2 and PGF2α induced contraction of bladder smooth muscle in an in vitro assay. Furthermore, using the smooth muscle assay, we demonstrated that α-blockers that inhibit alpha-adrenergic receptors do not appear to inhibit PG stimulation of GPCRs in bladder muscle. Only patients who required surgery to relieve BPH/LUTS symptoms showed significantly increased tissue levels of PGs and the PG synthetic enzymes. CONCLUSIONS: Treatment of BPH/LUTS by inhibition of alpha-adrenergic receptors with pharmaceutical α-blockers or inhibiting androgenesis with 5ARI may fail because of elevated paracrine signaling by prostatic PGs that can cause smooth muscle contraction. In contrast to patients who fail medical therapy for BPH/LUTS, control I-BPH patients do not show the same evidence of elevated PG pathway signaling. Elevation of the PG pathway may explain, in part, why the risk of clinical progression in the MTOPS study was only reduced by 34% with α-blocker treatment.


Subject(s)
Lower Urinary Tract Symptoms/drug therapy , Prostaglandins/metabolism , Prostate/metabolism , Prostatic Hyperplasia/drug therapy , 5-alpha Reductase Inhibitors/therapeutic use , Adrenergic alpha-Antagonists/therapeutic use , Aged , Humans , Lower Urinary Tract Symptoms/etiology , Lower Urinary Tract Symptoms/metabolism , Male , Middle Aged , Prostatic Hyperplasia/complications , Prostatic Hyperplasia/metabolism , Treatment Failure
12.
J Urol ; 206(Suppl 3): e796, 2021 09.
Article in English | MEDLINE | ID: mdl-34346772

ABSTRACT

INTRODUCTION AND OBJECTIVE: Prune Belly Syndrome (PBS) is characterized by bladder dysmyogenesis, yielding a dysfunctional compliant thick wall with excess collagen deposition. To dissect the cellular heterogeneity and gene expression networks altered in PBS, we report the cell type composition and transcriptional activity of PBS human bladder by using single cell RNA sequencing (scRNA-seq). METHODS: Using IRB-approved methods, bladder dome from 2 PBS and 6 non-PBS control (CO) males underwent fresh single-cell digestion. scRNA-seq was performed and 5277 and 31828 bladder cells from PBS and CO patients was detected, respectively. Cell type clusters were graphically displayed by Uniform Manifold Approximation and Projection (UMap) plot and differentially expressed genes (DEGs) were generated to assign each cluster identity. KEGG (Kyoto Encyclopedia of Genes and Genomes) pathway analysis was performed for PBS affected genes. RESULTS: We identified 17 distinct bladder cell clusters, including 6 fibroblast (1, 2, 3, and 4, immunofibroblast, myofibroblast), 1 smooth muscle (SM), and 2 urothelial (umbrella and basal+intermediate) clusters (Fig 1A-B). Counts of individual cell types were expressed as relative proportions, identifying significant PBS fibroblast enrichment, (67% PBS vs 40% CO). Five of 6 PBS fibroblast sub-types are proportionately fewer in number than in CO. The exception is a dominant fibroblast sub-type we label as fibroblast 4, (61% of all PBS fibroblasts vs <10% CO fibroblast subtypes). SM and urothelial cell populations are dramatically reduced in PBS (SM: 5% PBS vs 11% CO and urothelial: <1% PBS vs 7% CO) (Fig 1C-E). PBS fibroblast DEGs, but not SM cells, are enriched in collagen genes. Fibroblast markers (DCN and PLA2G2A) and SM genes (DES, TPM2 and TAGLN) are reduced (by 4, 13, 2, 4, and 2x respectively) in PBS cells (Fig 1G). KEGG pathways analysis for fibroblasts and SM showed a highly similar enrichment for neurodegenerative disease pathways (Fig 1H-I). CONCLUSIONS: Using scRNA-seq, we identified and characterized the disarrayed cell type populations in PBS bladders, generating their unbiased transcriptomic signatures which highlight commonality with neurodegenerative diseases. This PBS transcriptomic map is a step toward potential markers for diagnosis and therapeutic intervention.[Figure: see text]Source of Funding:NIH DK100483, DK127589 PI: Baker, L.

13.
J Urol ; 205(1): 137-144, 2021 Jan.
Article in English | MEDLINE | ID: mdl-32856980

ABSTRACT

PURPOSE: Current serum tumor markers for testicular germ cell tumor are limited by low sensitivity. Growing evidence supports the use of circulating miR-371a-3p as a superior marker for malignant (viable) germ cell tumor management. We evaluated the real-world application of serum miR-371a-3p levels in detecting viable germ cell tumor among patients undergoing partial or radical orchiectomy. MATERIALS AND METHODS: Serum samples were collected from 69 consecutive patients before orchiectomy. Performance characteristics of serum miR-371a-3p were compared with conventional serum tumor markers (⍺-fetoprotein/ß-human chorionic gonadotropin/lactate dehydrogenase) between patients with viable germ cell tumor and those without viable germ cell tumor on orchiectomy pathology. Relative miR-371a-3p levels were correlated with clinical course. The Kruskal-Wallis test and linear and ordinal regression models were used for analysis. RESULTS: For detecting viable germ cell tumor, combined conventional serum tumor markers had a specificity of 100%, sensitivity of 58% and AUC of 0.79. The miR-371a-3p test showed a specificity of 100%, sensitivity of 93% and AUC of 0.978. Median relative expression of miR-371a-3p in viable germ cell tumor cases was more than 6,800-fold higher than in those lacking viable germ cell tumor. miR-371a-3p levels correlated with composite stage (p=0.006) and, among composite stage I cases, independently associated with embryonal carcinoma percentage (p=0.0012) and tumor diameter (p <0.0001). Six patients underwent orchiectomy after chemotherapy and were correctly predicted to have presence or absence of viable germ cell tumor by the miR-371a-3p test. CONCLUSIONS: If validated, the miR-371a-3p test can be used in conjunction with conventional serum tumor markers to aid clinical decision making. A positive miR-371a-3p test in patients after preoperative chemotherapy or with solitary testes could potentially guide subsequent orchiectomy or observation.


Subject(s)
Biomarkers, Tumor/blood , Circulating MicroRNA/blood , MicroRNAs/blood , Neoplasms, Germ Cell and Embryonal/diagnosis , Orchiectomy , Testicular Neoplasms/diagnosis , Adult , Case-Control Studies , Chemotherapy, Adjuvant , Clinical Decision-Making/methods , Feasibility Studies , Humans , Male , Middle Aged , Neoadjuvant Therapy/methods , Neoplasm Staging , Neoplasms, Germ Cell and Embryonal/blood , Neoplasms, Germ Cell and Embryonal/pathology , Neoplasms, Germ Cell and Embryonal/therapy , Preoperative Period , Testicular Neoplasms/blood , Testicular Neoplasms/pathology , Testicular Neoplasms/therapy , Testis/pathology , Testis/surgery , Watchful Waiting
14.
Int J Mol Sci ; 22(23)2021 Dec 03.
Article in English | MEDLINE | ID: mdl-34884905

ABSTRACT

The prostate is vulnerable to two major age-associated diseases, cancer and benign enlargement, which account for significant morbidity and mortality for men across the globe. Prostate cancer is the most common cancer reported in men, with over 1.2 million new cases diagnosed and 350,000 deaths recorded annually worldwide. Benign prostatic hyperplasia (BPH), characterised by the continuous enlargement of the adult prostate, symptomatically afflicts around 50% of men worldwide. A better understanding of the biological processes underpinning these diseases is needed to generate new treatment approaches. Developmental studies of the prostate have shed some light on the processes essential for prostate organogenesis, with many of these up- or downregulated genes expressions also observed in prostate cancer and/or BPH progression. These insights into human disease have been inferred through comparative biological studies relying primarily on rodent models. However, directly observing mechanisms of human prostate development has been more challenging due to limitations in accessing human foetal material. Induced pluripotent stem cells (iPSCs) could provide a suitable alternative as they can mimic embryonic cells, and iPSC-derived prostate organoids present a significant opportunity to study early human prostate developmental processes. In this review, we discuss the current understanding of prostate development and its relevance to prostate-associated diseases. Additionally, we detail the potential of iPSC-derived prostate organoids for studying human prostate development and disease.


Subject(s)
Induced Pluripotent Stem Cells/cytology , Prostate/growth & development , Prostatic Hyperplasia/pathology , Prostatic Neoplasms/pathology , Cell Differentiation , Humans , Induced Pluripotent Stem Cells/pathology , Male , Organogenesis , Prostate/cytology , Prostate/pathology , Tissue Culture Techniques
15.
Prostate ; 80(11): 872-884, 2020 08.
Article in English | MEDLINE | ID: mdl-32497356

ABSTRACT

BACKGROUND: Castration-insensitive epithelial progenitors capable of regenerating the prostate have been proposed to be concentrated in the proximal region based on facultative assays. Functional characterization of prostate epithelial populations isolated with individual cell surface markers has failed to provide a consensus on the anatomical and transcriptional identity of proximal prostate progenitors. METHODS: Here, we use single-cell RNA sequencing to obtain a complete transcriptomic profile of all epithelial cells in the mouse prostate and urethra to objectively identify cellular subtypes. Pan-transcriptomic comparison to human prostate cell types identified a mouse equivalent of human urethral luminal cells, which highly expressed putative prostate progenitor markers. Validation of the urethral luminal cell cluster was performed using immunostaining and flow cytometry. RESULTS: Our data reveal that previously identified facultative progenitors marked by Trop2, Sca-1, KRT4, and PSCA are actually luminal epithelial cells of the urethra that extend into the proximal region of the prostate, and are resistant to castration-induced androgen deprivation. Mouse urethral luminal cells were identified to be the equivalent of previously identified human club and hillock cells that similarly extend into proximal prostate ducts. Benign prostatic hyperplasia (BPH) has long been considered an "embryonic reawakening," but the cellular origin of the hyperplastic growth concentrated in the periurethral region is unclear. We demonstrate an increase in urethral luminal cells within glandular nodules from BPH patients. Urethral luminal cells are further increased in patients treated with a 5-α reductase inhibitor. CONCLUSIONS: Our data demonstrate that cells of the proximal prostate that express putative progenitor markers, and are enriched by castration in the proximal prostate, are urethral luminal cells and that these cells may play an important role in the etiology of human BPH.


Subject(s)
Prostate/cytology , Stem Cells/cytology , Urethra/cytology , Adolescent , Adult , Animals , Antigens, Neoplasm/metabolism , Cell Adhesion Molecules/metabolism , Epithelial Cells/cytology , Epithelial Cells/metabolism , Humans , Male , Mice , Mice, Inbred C57BL , Prostate/metabolism , Stem Cells/metabolism , Urethra/metabolism , Young Adult
16.
Prostate ; 79(11): 1256-1266, 2019 08.
Article in English | MEDLINE | ID: mdl-31212370

ABSTRACT

BACKGROUND: SULT2B1b (sulfotransferase family cytosolic 2B member 1b) catalyzes the sulfate conjugation of substrates such as cholesterol and oxysterols. Our laboratory has previously shown that SULT2B1b inhibition modulates androgen receptor signaling and induces apoptosis in prostate cancer cells. However, the functions of SULT2B1b in the prostate remain poorly understood. METHODS: We characterized the expression pattern of SULT2B1b in human benign prostate hyperplasia (BPH) as well as prostate cancer to determine the relationship between SULT2B1b and prostate diseases, using immunohistochemistry, immunofluorescence staining, immunoblot, and real-time polymerase chain reaction. RESULTS: SULT2B1b was strongly detected in the prostate epithelium but was absent in the stroma. Significantly lower SULT2B1b was found in primary cancer cells compared with adjacent normal epithelial cells. SULT2B1b further decreased in metastatic cancer cells. Most interestingly, we found, for the first time, that SULT2B1b was much more concentrated in the luminal layer than in the basal layer in both normal prostate and BPH samples. The stronger presence of SULT2B1b in luminal epithelial cells was confirmed by costaining with luminal and basal markers and in sorted paired luminal and basal cells. SULT2B1b expression was induced with prostate organoid differentiation. CONCLUSIONS: SULT2B1b inversely correlates with prostate cancer status, with the highest level in the normal epithelium and lowest in the advanced metastatic prostate cancer. Furthermore, SULT2B1b is mostly located within the luminal layer of the prostate epithelium, suggesting that it may be implicated in luminal differentiation.


Subject(s)
Adenocarcinoma/metabolism , Prostate/metabolism , Prostatic Hyperplasia/metabolism , Prostatic Neoplasms/metabolism , Sulfotransferases/metabolism , Animals , Epithelium/metabolism , Humans , Immunohistochemistry , Male , Mice , Tissue Array Analysis
17.
Prostate ; 78(11): 839-848, 2018 08.
Article in English | MEDLINE | ID: mdl-29740846

ABSTRACT

BACKGROUND: Prostate stiffness and increased collagen content both associate with the presence of urinary symptoms in men but mechanisms responsible, including impact of age and androgens, are unknown. Dogs develop prostate-related urinary dysfunction similar to humans, but mechanisms are also unknown. Mice have been used to examine how prostatic collagen accumulation affects voiding but whether mouse prostatic collagen organization resembles human or dog has not been evaluated. Here, we have constructed the first comprehensive, comparative maps of collagen architecture in canine, human, and mouse prostate and test whether canine prostatic collagen content is increased by aging and reduced by castration. METHODS: Complete transverse prostate sections were stained with picrosirius red and imaged with confocal microscopy to reveal and compare collagen architecture across species. Canine prostatic collagen fiber length, diameter, and density in prostatic urethral, periurethral, peripheral, and capsular regions were quantified and compared among four experimental groups: young intact, young neutered, old intact, and old neutered dogs. RESULTS: Surprisingly, the majority of collagen was localized to the prostatic urethra in canine, human, and mouse. In canine and human, capsular regions also featured a dense collagen network but it appeared less dense than around prostatic urethra. Older, intact male canines exhibited overall denser prostate collagen fibers and had thicker capsular fibers than young, intact males. Prostatic glandular regions undergo dramatic atrophy and regression following castration, and our finding of neutered animals having increased collagen fiber density in both periurethral and peripheral regions is consistent with glandular contraction and increased proportion of stroma. CONCLUSIONS: Collagen architecture in dog appears similar to that in humans when cross sections are compared side-by-side. Canine collagen organization is affected by both age and androgen status, suggesting these factors may contribute to collagen accumulation in some males.


Subject(s)
Collagen/metabolism , Prostate/cytology , Prostate/metabolism , Animals , Castration , Dogs , Humans , Male , Mice , Mice, Inbred C57BL
18.
J Pathol ; 243(4): 457-467, 2017 12.
Article in English | MEDLINE | ID: mdl-28940538

ABSTRACT

Benign prostatic hyperplasia is the most common proliferative abnormality of the prostate. All men experience some prostatic growth as they age, but the rate of growth varies among individuals. Steroid 5α-reductase 2 (SRD5A2) is a critical enzyme for prostatic development and growth. Previous work indicates that one-third of adult prostatic samples do not express SRD5A2, secondary to epigenetic modifications. Here we show that the level of oestradiol is dramatically elevated, concomitant with significant upregulation of oestrogen response genes, in prostatic samples with methylation at the SRD5A2 promoter. The phosphorylation of oestrogen receptor-α in prostatic stroma is upregulated when SRD5A2 expression is absent. We show that tumour necrosis factor (TNF)-α suppresses SRD5A2 mRNA and protein expression, and simultaneously promotes expression of aromatase, the enzyme responsible for conversion of testosterone to oestradiol. Concomitant suppression of SRD5A2 and treatment with TNF-α synergistically upregulate the aromatase levels. The data suggest that, in the absence of prostatic SRD5A2, there is an androgenic to oestrogenic switch. These findings have broad implications for choosing appropriate classes of medications for the management of benign and malignant prostatic diseases. Copyright © 2017 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.


Subject(s)
3-Oxo-5-alpha-Steroid 4-Dehydrogenase/genetics , DNA Methylation , Epigenesis, Genetic , Estradiol/metabolism , Membrane Proteins/genetics , Prostate/enzymology , Prostatic Hyperplasia/enzymology , Prostatic Hyperplasia/genetics , Testosterone/metabolism , 3-Oxo-5-alpha-Steroid 4-Dehydrogenase/metabolism , Aromatase/genetics , Aromatase/metabolism , Boston , Cells, Cultured , Dihydrotestosterone/metabolism , Estrogen Receptor alpha/genetics , Estrogen Receptor alpha/metabolism , Gene Expression Regulation, Enzymologic , Humans , Male , Membrane Proteins/metabolism , Phosphorylation , Promoter Regions, Genetic , Prostate/drug effects , Prostate/pathology , Prostatic Hyperplasia/pathology , RNA Interference , Signal Transduction , Stromal Cells/metabolism , Texas , Transfection , Tumor Necrosis Factor-alpha/pharmacology
19.
Differentiation ; 97: 23-32, 2017.
Article in English | MEDLINE | ID: mdl-28923776

ABSTRACT

Despite the advancement of transgenic and gene knockout animal models in the prostate cancer research, there is still a need for utilizing xenograft models. Xenografts can be grown in multiple sites/organs within immunocompromised animals such as mice and rats. Although prostate xenografts have been derived from many species, human cells and tissues are the most commonly used due to their potential clinical significance. Xenograft models that progress from one state or stage to another are commonly used to address important scientific questions including malignant transformation, metastatic spread, and castration resistance. Utilization of xenografts are commonly being used to assess the biology and genetics of prostate cancer, as well as, for therapeutic benefit. In addition to models for the study of prostate cancer, xenografts are also utilized as a tool in precision medicine where patient derived xenografts (PDX) can be grown in multiple animals and assessed for therapeutic efficacy. The popularity of such xenograft models and PDXs have led to availability of these resources through public and commercial institutions. In this review, we describe both traditional and emerging models of prostate cancer and their potential uses. Further development of current models and introduction of new models will likely provide new insights and better understanding of prostatic carcinogenesis and progression.


Subject(s)
Carcinogenesis/genetics , Prostatic Neoplasms/genetics , Xenograft Model Antitumor Assays/methods , Animals , Disease Models, Animal , Humans , Male , Mice , Prostate/growth & development , Prostate/pathology , Prostatic Neoplasms/pathology
20.
Differentiation ; 96: 49-61, 2017.
Article in English | MEDLINE | ID: mdl-28800482

ABSTRACT

Benign prostatic hyperplasia and associated lower urinary tract symptoms remain difficult to treat medically, resulting in hundreds of thousands of surgeries performed annually in elderly males. New therapies have not improved clinical outcomes since alpha blockers and 5 alpha reductase inhibitors were introduced in the 1990s. An underappreciated confounder to identifying novel targets is pathological heterogeneity. Individual patients display unique phenotypes, composed of distinct cell types. We have yet to develop a cellular or molecular understanding of these unique phenotypes, which has led to failure in developing targeted therapies for personalized medicine. This review covers the strategic experimental approach to unraveling the cellular pathogenesis of discrete BPH phenotypes and discusses how to incorporate these findings into the clinic to improve outcomes.


Subject(s)
Phenotype , Prostatic Hyperplasia/pathology , Animals , Genetic Heterogeneity , Humans , Male , Prostatic Hyperplasia/genetics , Prostatic Hyperplasia/therapy
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