Mast Cell-Derived SAMD14 is a Novel Regulator of the Human Prostate Tumor Microenvironment

Mast Cell-Derived SAMD14 is a Novel Regulator of the Human Prostate Tumor Microenvironment

Mast cells (MCs) are important cellular components of the tumor microenvironment and are significantly associated with poor patient outcomes in prostate cancer and other solid cancers. The promotion of tumor progression partly involves heterotypic interactions between MCs and cancer-associated fibro...

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Main Authors: Linda K. H. Teng, Brooke A. Pereira, Shivakumar Keerthikumar, Cheng Huang, Birunthi Niranjan, Sophie N. Lee, Michelle Richards, Ralf B. Schittenhelm, Luc Furic, David L. Goode, Mitchell G. Lawrence, Renea A. Taylor, Stuart J. Ellem, Gail P. Risbridger, Natalie L. Lister
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Cancers
Subjects:
prostate cancer
tumor microenvironment
mast cells
SAMD14
cancer-associated fibroblasts
extracellular matrix
Online Access:https://www.mdpi.com/2072-6694/13/6/1237
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author Linda K. H. Teng
Brooke A. Pereira
Shivakumar Keerthikumar
Cheng Huang
Birunthi Niranjan
Sophie N. Lee
Michelle Richards
Ralf B. Schittenhelm
Luc Furic
David L. Goode
Mitchell G. Lawrence
Renea A. Taylor
Stuart J. Ellem
Gail P. Risbridger
Natalie L. Lister
spellingShingle Linda K. H. Teng
Brooke A. Pereira
Shivakumar Keerthikumar
Cheng Huang
Birunthi Niranjan
Sophie N. Lee
Michelle Richards
Ralf B. Schittenhelm
Luc Furic
David L. Goode
Mitchell G. Lawrence
Renea A. Taylor
Stuart J. Ellem
Gail P. Risbridger
Natalie L. Lister
Mast Cell-Derived SAMD14 is a Novel Regulator of the Human Prostate Tumor Microenvironment
Cancers
prostate cancer
tumor microenvironment
mast cells
SAMD14
cancer-associated fibroblasts
extracellular matrix
author_facet Linda K. H. Teng
Brooke A. Pereira
Shivakumar Keerthikumar
Cheng Huang
Birunthi Niranjan
Sophie N. Lee
Michelle Richards
Ralf B. Schittenhelm
Luc Furic
David L. Goode
Mitchell G. Lawrence
Renea A. Taylor
Stuart J. Ellem
Gail P. Risbridger
Natalie L. Lister
author_sort Linda K. H. Teng
title Mast Cell-Derived SAMD14 is a Novel Regulator of the Human Prostate Tumor Microenvironment
title_short Mast Cell-Derived SAMD14 is a Novel Regulator of the Human Prostate Tumor Microenvironment
title_full Mast Cell-Derived SAMD14 is a Novel Regulator of the Human Prostate Tumor Microenvironment
title_fullStr Mast Cell-Derived SAMD14 is a Novel Regulator of the Human Prostate Tumor Microenvironment
title_full_unstemmed Mast Cell-Derived SAMD14 is a Novel Regulator of the Human Prostate Tumor Microenvironment
title_sort mast cell-derived samd14 is a novel regulator of the human prostate tumor microenvironment
publisher MDPI AG
series Cancers
issn 2072-6694
publishDate 2021-03-01
description Mast cells (MCs) are important cellular components of the tumor microenvironment and are significantly associated with poor patient outcomes in prostate cancer and other solid cancers. The promotion of tumor progression partly involves heterotypic interactions between MCs and cancer-associated fibroblasts (CAFs), which combine to potentiate a pro-tumor extracellular matrix and promote epithelial cell invasion and migration. Thus far, the interactions between MCs and CAFs remain poorly understood. To identify molecular changes that may alter resident MC function in the prostate tumor microenvironment, we profiled the transcriptome of human prostate MCs isolated from patient-matched non-tumor and tumor-associated regions of fresh radical prostatectomy tissue. Transcriptomic profiling revealed a distinct gene expression profile of MCs isolated from prostate tumor regions, including the downregulation of <i>SAMD14</i>, a putative tumor suppressor gene. Proteomic profiling revealed that overexpression of SAMD14 in HMC-1 altered the secretion of proteins associated with immune regulation and extracellular matrix processes. To assess MC biological function within a model of the prostate tumor microenvironment, HMC-1-SAMD14+ conditioned media was added to co-cultures of primary prostatic CAFs and prostate epithelium. HMC-1-SAMD14+ secretions were shown to reduce the deposition and alignment of matrix produced by CAFs and suppress pro-tumorigenic prostate epithelial morphology. Overall, our data present the first profile of human MCs derived from prostate cancer patient specimens and identifies MC-derived SAMD14 as an important mediator of MC phenotype and function within the prostate tumor microenvironment.
topic prostate cancer
tumor microenvironment
mast cells
SAMD14
cancer-associated fibroblasts
extracellular matrix
url https://www.mdpi.com/2072-6694/13/6/1237
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spelling doaj-01e103df16a74ec79013e91e9a9c030d2021-03-12T00:05:26ZengMDPI AGCancers2072-66942021-03-01131237123710.3390/cancers13061237Mast Cell-Derived SAMD14 is a Novel Regulator of the Human Prostate Tumor MicroenvironmentLinda K. H. Teng0Brooke A. Pereira1Shivakumar Keerthikumar2Cheng Huang3Birunthi Niranjan4Sophie N. Lee5Michelle Richards6Ralf B. Schittenhelm7Luc Furic8David L. Goode9Mitchell G. Lawrence10Renea A. Taylor11Stuart J. Ellem12Gail P. Risbridger13Natalie L. Lister14Monash Partners Comprehensive Cancer Consortium, Monash Biomedicine Discovery Institute Cancer Program, Prostate Cancer Research Group, Department of Anatomy and Developmental Biology, Monash University, Clayton, Melbourne 3800, AustraliaSt Vincent’s Clinical School, Faculty of Medicine, University of New South Wales, Sydney 2010, AustraliaPeter MacCallum Cancer Centre, Melbourne 3000, AustraliaMonash Proteomics and Metabolomics Facility, Department of Biochemistry and Molecular Biology, Biomedicine Discovery Institute, Monash University, Clayton, Melbourne 3800, AustraliaMonash Partners Comprehensive Cancer Consortium, Monash Biomedicine Discovery Institute Cancer Program, Prostate Cancer Research Group, Department of Anatomy and Developmental Biology, Monash University, Clayton, Melbourne 3800, AustraliaMonash Partners Comprehensive Cancer Consortium, Monash Biomedicine Discovery Institute Cancer Program, Prostate Cancer Research Group, Department of Anatomy and Developmental Biology, Monash University, Clayton, Melbourne 3800, AustraliaMonash Partners Comprehensive Cancer Consortium, Monash Biomedicine Discovery Institute Cancer Program, Prostate Cancer Research Group, Department of Anatomy and Developmental Biology, Monash University, Clayton, Melbourne 3800, AustraliaMonash Proteomics and Metabolomics Facility, Department of Biochemistry and Molecular Biology, Biomedicine Discovery Institute, Monash University, Clayton, Melbourne 3800, AustraliaMonash Partners Comprehensive Cancer Consortium, Monash Biomedicine Discovery Institute Cancer Program, Prostate Cancer Research Group, Department of Anatomy and Developmental Biology, Monash University, Clayton, Melbourne 3800, AustraliaPeter MacCallum Cancer Centre, Melbourne 3000, AustraliaMonash Partners Comprehensive Cancer Consortium, Monash Biomedicine Discovery Institute Cancer Program, Prostate Cancer Research Group, Department of Anatomy and Developmental Biology, Monash University, Clayton, Melbourne 3800, AustraliaPeter MacCallum Cancer Centre, Melbourne 3000, AustraliaSchool of Health and Wellbeing, University of Southern Queensland, Ipswich 4305, AustraliaMonash Partners Comprehensive Cancer Consortium, Monash Biomedicine Discovery Institute Cancer Program, Prostate Cancer Research Group, Department of Anatomy and Developmental Biology, Monash University, Clayton, Melbourne 3800, AustraliaMonash Partners Comprehensive Cancer Consortium, Monash Biomedicine Discovery Institute Cancer Program, Prostate Cancer Research Group, Department of Anatomy and Developmental Biology, Monash University, Clayton, Melbourne 3800, AustraliaMast cells (MCs) are important cellular components of the tumor microenvironment and are significantly associated with poor patient outcomes in prostate cancer and other solid cancers. The promotion of tumor progression partly involves heterotypic interactions between MCs and cancer-associated fibroblasts (CAFs), which combine to potentiate a pro-tumor extracellular matrix and promote epithelial cell invasion and migration. Thus far, the interactions between MCs and CAFs remain poorly understood. To identify molecular changes that may alter resident MC function in the prostate tumor microenvironment, we profiled the transcriptome of human prostate MCs isolated from patient-matched non-tumor and tumor-associated regions of fresh radical prostatectomy tissue. Transcriptomic profiling revealed a distinct gene expression profile of MCs isolated from prostate tumor regions, including the downregulation of <i>SAMD14</i>, a putative tumor suppressor gene. Proteomic profiling revealed that overexpression of SAMD14 in HMC-1 altered the secretion of proteins associated with immune regulation and extracellular matrix processes. To assess MC biological function within a model of the prostate tumor microenvironment, HMC-1-SAMD14+ conditioned media was added to co-cultures of primary prostatic CAFs and prostate epithelium. HMC-1-SAMD14+ secretions were shown to reduce the deposition and alignment of matrix produced by CAFs and suppress pro-tumorigenic prostate epithelial morphology. Overall, our data present the first profile of human MCs derived from prostate cancer patient specimens and identifies MC-derived SAMD14 as an important mediator of MC phenotype and function within the prostate tumor microenvironment.https://www.mdpi.com/2072-6694/13/6/1237prostate cancertumor microenvironmentmast cellsSAMD14cancer-associated fibroblastsextracellular matrix

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