Stromal β-catenin activation impacts nephron progenitor differentiation in the developing kidney and may contribute to Wilms tumor

Wilms' tumor (WT) morphologically resembles the embryonic kidney, consisting of blastema, epithelial and stromal components, suggesting tumors arise from the dysregulation of normal development. β-Catenin activation is observed in a significant proportion of WTs; however, much remains to be und...

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Veröffentlicht in:	Development (Cambridge) 2020-07, Vol.147 (21)
Hauptverfasser:	Drake, Keri A, Chaney, Christopher P, Das, Amrita, Roy, Priti, Kwartler, Callie S, Rakheja, Dinesh, Carroll, Thomas J
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Base Sequence beta Catenin - genetics beta Catenin - metabolism Body Patterning - genetics Cell Differentiation - genetics Cell Lineage - genetics Epithelium - embryology Forkhead Transcription Factors - metabolism Gene Expression Regulation, Neoplastic Humans Integrases - metabolism Mesoderm - embryology Mice Mutation - genetics Nephrons - metabolism Nephrons - pathology Organogenesis - genetics Osteogenesis - genetics Stem Cells - metabolism Stromal Cells - metabolism Stromal Cells - pathology Transcriptome - genetics Wilms Tumor - genetics Wilms Tumor - metabolism Wilms Tumor - pathology
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creator	Drake, Keri A Chaney, Christopher P Das, Amrita Roy, Priti Kwartler, Callie S Rakheja, Dinesh Carroll, Thomas J
description	Wilms' tumor (WT) morphologically resembles the embryonic kidney, consisting of blastema, epithelial and stromal components, suggesting tumors arise from the dysregulation of normal development. β-Catenin activation is observed in a significant proportion of WTs; however, much remains to be understood about how it contributes to tumorigenesis. Although activating β-catenin mutations are observed in both blastema and stromal components of WT, current models assume that activation in the blastemal lineage is causal. Paradoxically, studies performed in mice suggest that activation of β-catenin in the nephrogenic lineage results in loss of nephron progenitor cell (NPC) renewal, a phenotype opposite to WT. Here, we show that activation of β-catenin in the stromal lineage non-autonomously prevents the differentiation of NPCs. Comparisons of the transcriptomes of kidneys expressing an activated allele of β-catenin in the stromal or nephron progenitor cells reveals that human WT more closely resembles the stromal-lineage mutants. These findings suggest that stromal β-catenin activation results in histological and molecular features of human WT, providing insights into how alterations in the stromal microenvironment may play an active role in tumorigenesis.
doi_str_mv	10.1242/dev.189597
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Although activating β-catenin mutations are observed in both blastema and stromal components of WT, current models assume that activation in the blastemal lineage is causal. Paradoxically, studies performed in mice suggest that activation of β-catenin in the nephrogenic lineage results in loss of nephron progenitor cell (NPC) renewal, a phenotype opposite to WT. Here, we show that activation of β-catenin in the stromal lineage non-autonomously prevents the differentiation of NPCs. Comparisons of the transcriptomes of kidneys expressing an activated allele of β-catenin in the stromal or nephron progenitor cells reveals that human WT more closely resembles the stromal-lineage mutants. 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These findings suggest that stromal β-catenin activation results in histological and molecular features of human WT, providing insights into how alterations in the stromal microenvironment may play an active role in tumorigenesis.</description><subject>Animals</subject><subject>Base Sequence</subject><subject>beta Catenin - genetics</subject><subject>beta Catenin - metabolism</subject><subject>Body Patterning - genetics</subject><subject>Cell Differentiation - genetics</subject><subject>Cell Lineage - genetics</subject><subject>Epithelium - embryology</subject><subject>Forkhead Transcription Factors - metabolism</subject><subject>Gene Expression Regulation, Neoplastic</subject><subject>Humans</subject><subject>Integrases - metabolism</subject><subject>Mesoderm - embryology</subject><subject>Mice</subject><subject>Mutation - genetics</subject><subject>Nephrons - metabolism</subject><subject>Nephrons - pathology</subject><subject>Organogenesis - genetics</subject><subject>Osteogenesis - genetics</subject><subject>Stem Cells - metabolism</subject><subject>Stromal Cells - metabolism</subject><subject>Stromal Cells - pathology</subject><subject>Transcriptome - genetics</subject><subject>Wilms Tumor - genetics</subject><subject>Wilms Tumor - metabolism</subject><subject>Wilms Tumor - pathology</subject><issn>0950-1991</issn><issn>1477-9129</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpVkc2KFDEUhYMoTju68QEkSxFqJkmlK52NIMP4AwOzUHEZbqVuuqNVSZmkGno9b-SD-ExGuh2cVXK4Hyfn5hDykrMLLqS4HHB_wTd6rdUjsuJSqUZzoR-TFdNr1nCt-Rl5lvN3xljbKfWUnLViLTljakXuPpcUJxjp71-NhYLBBwq2-D0UHwP101xVpgHnXap6TnFbmRITHbxzmDAUf0IDLTukNQyOcfZhS3_4IeCBQhjoBAdqYyjJ90tBWiL95scp07JMMT0nTxyMGV-cznPy9f31l6uPzc3th09X724aK6UsjZSWSUQhneh7tMC07R2KuuRG9z0HZwGADZ3ulOX13vbgWrZGN4ATlsv2nLw9-s5LP-Fga_YEo5mTnyAdTARvHk6C35lt3BslWddyVQ1enwxS_LlgLmby2eI4QsC4ZCMkl4x1G84q-uaI2hRzTujun-HM_G3N1I8yx9Yq_Or_YPfov5raP2MSmgw</recordid><startdate>20200731</startdate><enddate>20200731</enddate><creator>Drake, Keri A</creator><creator>Chaney, Christopher P</creator><creator>Das, Amrita</creator><creator>Roy, Priti</creator><creator>Kwartler, Callie S</creator><creator>Rakheja, Dinesh</creator><creator>Carroll, Thomas J</creator><general>The Company of Biologists Ltd</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>5PM</scope><orcidid>https://orcid.org/0000-0002-8322-4928</orcidid></search><sort><creationdate>20200731</creationdate><title>Stromal β-catenin activation impacts nephron progenitor differentiation in the developing kidney and may contribute to Wilms tumor</title><author>Drake, Keri A ; Chaney, Christopher P ; Das, Amrita ; Roy, Priti ; Kwartler, Callie S ; Rakheja, Dinesh ; Carroll, Thomas J</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c444t-44c04ee24f2bbeca09cbfe209589bb1afcaaa0d6967c1caa3baf305efdaf2c143</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2020</creationdate><topic>Animals</topic><topic>Base Sequence</topic><topic>beta Catenin - genetics</topic><topic>beta Catenin - metabolism</topic><topic>Body Patterning - genetics</topic><topic>Cell Differentiation - genetics</topic><topic>Cell Lineage - genetics</topic><topic>Epithelium - embryology</topic><topic>Forkhead Transcription Factors - metabolism</topic><topic>Gene Expression Regulation, Neoplastic</topic><topic>Humans</topic><topic>Integrases - metabolism</topic><topic>Mesoderm - embryology</topic><topic>Mice</topic><topic>Mutation - genetics</topic><topic>Nephrons - metabolism</topic><topic>Nephrons - pathology</topic><topic>Organogenesis - genetics</topic><topic>Osteogenesis - genetics</topic><topic>Stem Cells - metabolism</topic><topic>Stromal Cells - metabolism</topic><topic>Stromal Cells - pathology</topic><topic>Transcriptome - genetics</topic><topic>Wilms Tumor - genetics</topic><topic>Wilms Tumor - metabolism</topic><topic>Wilms Tumor - pathology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Drake, Keri A</creatorcontrib><creatorcontrib>Chaney, Christopher P</creatorcontrib><creatorcontrib>Das, Amrita</creatorcontrib><creatorcontrib>Roy, Priti</creatorcontrib><creatorcontrib>Kwartler, Callie S</creatorcontrib><creatorcontrib>Rakheja, Dinesh</creatorcontrib><creatorcontrib>Carroll, Thomas J</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Development (Cambridge)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Drake, Keri A</au><au>Chaney, Christopher P</au><au>Das, Amrita</au><au>Roy, Priti</au><au>Kwartler, Callie S</au><au>Rakheja, Dinesh</au><au>Carroll, Thomas J</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Stromal β-catenin activation impacts nephron progenitor differentiation in the developing kidney and may contribute to Wilms tumor</atitle><jtitle>Development (Cambridge)</jtitle><addtitle>Development</addtitle><date>2020-07-31</date><risdate>2020</risdate><volume>147</volume><issue>21</issue><issn>0950-1991</issn><eissn>1477-9129</eissn><abstract>Wilms' tumor (WT) morphologically resembles the embryonic kidney, consisting of blastema, epithelial and stromal components, suggesting tumors arise from the dysregulation of normal development. β-Catenin activation is observed in a significant proportion of WTs; 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subjects	Animals Base Sequence beta Catenin - genetics beta Catenin - metabolism Body Patterning - genetics Cell Differentiation - genetics Cell Lineage - genetics Epithelium - embryology Forkhead Transcription Factors - metabolism Gene Expression Regulation, Neoplastic Humans Integrases - metabolism Mesoderm - embryology Mice Mutation - genetics Nephrons - metabolism Nephrons - pathology Organogenesis - genetics Osteogenesis - genetics Stem Cells - metabolism Stromal Cells - metabolism Stromal Cells - pathology Transcriptome - genetics Wilms Tumor - genetics Wilms Tumor - metabolism Wilms Tumor - pathology
title	Stromal β-catenin activation impacts nephron progenitor differentiation in the developing kidney and may contribute to Wilms tumor
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