R‐spondin 2 Drives Liver Tumor Development in a Yes‐Associated Protein‐Dependent Manner

R‐spondin 2 Drives Liver Tumor Development in a Yes‐Associated Protein‐Dependent Manner

Each year, more than 25,000 people succumb to liver cancer in the United States, and this neoplasm represents the second cause of cancer‐related death globally. R‐spondins (RSPOs) are secreted regulators of Wnt signaling that function in development and promote tissue stem cell renewal. In cancer, R...

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Main Authors: Caitlin B. Conboy, Germán L. Vélez‐Reyes, Barbara R. Tschida, Hsiangyu Hu, Gabriel Kaufmann, Nicholas Koes, Bryant Keller, Clara Alsinet, Helena Cornellà, Roser Pinyol, Juan E. Abrahante, Nuri A. Temiz, Michael A. Linden, Khalid Amin, Timothy P. Kuka, Vincent W. Keng, Josep M. Llovet, Timothy K. Starr, David A. Largaespada
Format: Article
Language:English
Published: Wiley 2019-11-01
Series:Hepatology Communications
Online Access:https://doi.org/10.1002/hep4.1422
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author Caitlin B. Conboy
Germán L. Vélez‐Reyes
Barbara R. Tschida
Hsiangyu Hu
Gabriel Kaufmann
Nicholas Koes
Bryant Keller
Clara Alsinet
Helena Cornellà
Roser Pinyol
Juan E. Abrahante
Nuri A. Temiz
Michael A. Linden
Khalid Amin
Timothy P. Kuka
Vincent W. Keng
Josep M. Llovet
Timothy K. Starr
David A. Largaespada
spellingShingle Caitlin B. Conboy
Germán L. Vélez‐Reyes
Barbara R. Tschida
Hsiangyu Hu
Gabriel Kaufmann
Nicholas Koes
Bryant Keller
Clara Alsinet
Helena Cornellà
Roser Pinyol
Juan E. Abrahante
Nuri A. Temiz
Michael A. Linden
Khalid Amin
Timothy P. Kuka
Vincent W. Keng
Josep M. Llovet
Timothy K. Starr
David A. Largaespada
R‐spondin 2 Drives Liver Tumor Development in a Yes‐Associated Protein‐Dependent Manner
Hepatology Communications
author_facet Caitlin B. Conboy
Germán L. Vélez‐Reyes
Barbara R. Tschida
Hsiangyu Hu
Gabriel Kaufmann
Nicholas Koes
Bryant Keller
Clara Alsinet
Helena Cornellà
Roser Pinyol
Juan E. Abrahante
Nuri A. Temiz
Michael A. Linden
Khalid Amin
Timothy P. Kuka
Vincent W. Keng
Josep M. Llovet
Timothy K. Starr
David A. Largaespada
author_sort Caitlin B. Conboy
title R‐spondin 2 Drives Liver Tumor Development in a Yes‐Associated Protein‐Dependent Manner
title_short R‐spondin 2 Drives Liver Tumor Development in a Yes‐Associated Protein‐Dependent Manner
title_full R‐spondin 2 Drives Liver Tumor Development in a Yes‐Associated Protein‐Dependent Manner
title_fullStr R‐spondin 2 Drives Liver Tumor Development in a Yes‐Associated Protein‐Dependent Manner
title_full_unstemmed R‐spondin 2 Drives Liver Tumor Development in a Yes‐Associated Protein‐Dependent Manner
title_sort r‐spondin 2 drives liver tumor development in a yes‐associated protein‐dependent manner
publisher Wiley
series Hepatology Communications
issn 2471-254X
publishDate 2019-11-01
description Each year, more than 25,000 people succumb to liver cancer in the United States, and this neoplasm represents the second cause of cancer‐related death globally. R‐spondins (RSPOs) are secreted regulators of Wnt signaling that function in development and promote tissue stem cell renewal. In cancer, RSPOs 2 and 3 are oncogenes first identified by insertional mutagenesis screens in tumors induced by mouse mammary tumor virus and by transposon mutagenesis in the colonic epithelium of rodents. RSPO2 has been reported to be activated by chromosomal rearrangements in colorectal cancer and overexpressed in a subset of hepatocellular carcinoma. Using human liver tumor gene expression data, we first discovered that a subset of liver cancers were characterized by high levels of RSPO2 in contrast to low levels in adjacent nontumor tissue. To determine if RSPOs are capable of inducing liver tumors, we used an in vivo model from which we found that overexpression of RSPO2 in the liver promoted Wnt signaling, hepatomegaly, and enhanced liver tumor formation when combined with loss of transformation‐related protein 53 (Trp53). Moreover, the Hippo/yes‐associated protein (Yap) pathway has been implicated in many human cancers, influencing cell survival. Histologic and gene expression studies showed activation of Wnt/β‐catenin and Hippo/Yap pathways following RSPO2 overexpression. We demonstrate that knockdown of Yap1 leads to reduced tumor penetrance following RSPO2 overexpression in the context of loss of Trp53. Conclusion: RSPO2 overexpression leads to tumor formation in the mouse liver in a Hippo/Yap‐dependent manner. Overall, our results suggest a role for Yap in the initiation and progression of liver tumors and uncover a novel pathway activated in RSPO2‐induced malignancies. We show that RSPO2 promotes liver tumor formation in vivo and in vitro and that RSPO2's oncogenic activity requires Hippo/Yap activation in hepatocytes. Both RSPO2 and YAP1 are suggested to represent novel druggable targets in Wnt‐driven tumors of the liver.
url https://doi.org/10.1002/hep4.1422
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spelling doaj-0eab1ccaa58a47a08d90c0ba26613dba2020-11-25T01:17:50ZengWileyHepatology Communications2471-254X2019-11-013111496150910.1002/hep4.1422R‐spondin 2 Drives Liver Tumor Development in a Yes‐Associated Protein‐Dependent MannerCaitlin B. Conboy0Germán L. Vélez‐Reyes1Barbara R. Tschida2Hsiangyu Hu3Gabriel Kaufmann4Nicholas Koes5Bryant Keller6Clara Alsinet7Helena Cornellà8Roser Pinyol9Juan E. Abrahante10Nuri A. Temiz11Michael A. Linden12Khalid Amin13Timothy P. Kuka14Vincent W. Keng15Josep M. Llovet16Timothy K. Starr17David A. Largaespada18Masonic Cancer Center University of Minnesota Minneapolis MNMasonic Cancer Center University of Minnesota Minneapolis MNMasonic Cancer Center University of Minnesota Minneapolis MNMasonic Cancer Center University of Minnesota Minneapolis MNMasonic Cancer Center University of Minnesota Minneapolis MNMasonic Cancer Center University of Minnesota Minneapolis MNMasonic Cancer Center University of Minnesota Minneapolis MNLiver Cancer Translational Research Laboratory Liver Unit, L'Institut d'Investigacions Biomèdiques August Pi i Sunyer‐Hospital Clinic of Barcelona University of Barcelona Barcelona SpainLiver Cancer Translational Research Laboratory Liver Unit, L'Institut d'Investigacions Biomèdiques August Pi i Sunyer‐Hospital Clinic of Barcelona University of Barcelona Barcelona SpainLiver Cancer Translational Research Laboratory Liver Unit, L'Institut d'Investigacions Biomèdiques August Pi i Sunyer‐Hospital Clinic of Barcelona University of Barcelona Barcelona SpainUniversity of Minnesota Informatics Institute Minneapolis MNMasonic Cancer Center University of Minnesota Minneapolis MNComparative Pathology Shared Resource University of Minnesota St. Paul MNComparative Pathology Shared Resource University of Minnesota St. Paul MNMasonic Cancer Center University of Minnesota Minneapolis MNMasonic Cancer Center University of Minnesota Minneapolis MNLiver Cancer Translational Research Laboratory Liver Unit, L'Institut d'Investigacions Biomèdiques August Pi i Sunyer‐Hospital Clinic of Barcelona University of Barcelona Barcelona SpainDepartment of Obstetrics, Gynecology, and Women's Health University of Minnesota Minneapolis MNMasonic Cancer Center University of Minnesota Minneapolis MNEach year, more than 25,000 people succumb to liver cancer in the United States, and this neoplasm represents the second cause of cancer‐related death globally. R‐spondins (RSPOs) are secreted regulators of Wnt signaling that function in development and promote tissue stem cell renewal. In cancer, RSPOs 2 and 3 are oncogenes first identified by insertional mutagenesis screens in tumors induced by mouse mammary tumor virus and by transposon mutagenesis in the colonic epithelium of rodents. RSPO2 has been reported to be activated by chromosomal rearrangements in colorectal cancer and overexpressed in a subset of hepatocellular carcinoma. Using human liver tumor gene expression data, we first discovered that a subset of liver cancers were characterized by high levels of RSPO2 in contrast to low levels in adjacent nontumor tissue. To determine if RSPOs are capable of inducing liver tumors, we used an in vivo model from which we found that overexpression of RSPO2 in the liver promoted Wnt signaling, hepatomegaly, and enhanced liver tumor formation when combined with loss of transformation‐related protein 53 (Trp53). Moreover, the Hippo/yes‐associated protein (Yap) pathway has been implicated in many human cancers, influencing cell survival. Histologic and gene expression studies showed activation of Wnt/β‐catenin and Hippo/Yap pathways following RSPO2 overexpression. We demonstrate that knockdown of Yap1 leads to reduced tumor penetrance following RSPO2 overexpression in the context of loss of Trp53. Conclusion: RSPO2 overexpression leads to tumor formation in the mouse liver in a Hippo/Yap‐dependent manner. Overall, our results suggest a role for Yap in the initiation and progression of liver tumors and uncover a novel pathway activated in RSPO2‐induced malignancies. We show that RSPO2 promotes liver tumor formation in vivo and in vitro and that RSPO2's oncogenic activity requires Hippo/Yap activation in hepatocytes. Both RSPO2 and YAP1 are suggested to represent novel druggable targets in Wnt‐driven tumors of the liver.https://doi.org/10.1002/hep4.1422

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