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Intestinal Subepithelial Myofibroblasts Support the Growth of Intestinal Epithelial Stem Cells
Intestinal Subepithelial Myofibroblasts Support the Growth of Intestinal Epithelial Stem Cells
by Wang, Fengchao , Li, Linheng , Khalil, Hassan , Dunn, James C. Y. , Lewis, Michael , Martín, Martín G. , Jaroszewicz, Artur , Wang, Jiafang , Jabaji, Ziyad , Joshi, Vaidehi S. , Lei, Nan Ye , Brinkley, Garrett J. , Stelzner, Matthias , Pellegrini, Matteo
in Analysis / Animal models / Animals / Bioengineering / Biology / Cell culture / Cell Culture Techniques / Cell Proliferation / Cell self-renewal / Cells, Cultured / Cluster Analysis / Crypts / Developmental biology / Differentiation / Epithelium / Flow cytometry / Gastroenterology / Gene expression / Gene Expression Profiling / Growth / Growth factors / Homeostasis / House mouse / Implantation / Interrogation / Intestinal Mucosa - cytology / Intestinal Mucosa - metabolism / Intestine / Laboratories / Medical research / Medicine / Mice / Mice, Transgenic / Molecular biology / Monoculture / Myofibroblasts - metabolism / Nutrition / Pediatrics / Physiology / Rodents / Stem cell transplantation / Stem cells / Stem Cells - cytology / Stem Cells - metabolism / Surgery / Surgical implants / Syngeneic grafts / Transcriptome / Wnt protein
2014
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Intestinal Subepithelial Myofibroblasts Support the Growth of Intestinal Epithelial Stem Cells
by Wang, Fengchao , Li, Linheng , Khalil, Hassan , Dunn, James C. Y. , Lewis, Michael , Martín, Martín G. , Jaroszewicz, Artur , Wang, Jiafang , Jabaji, Ziyad , Joshi, Vaidehi S. , Lei, Nan Ye , Brinkley, Garrett J. , Stelzner, Matthias , Pellegrini, Matteo
in Analysis / Animal models / Animals / Bioengineering / Biology / Cell culture / Cell Culture Techniques / Cell Proliferation / Cell self-renewal / Cells, Cultured / Cluster Analysis / Crypts / Developmental biology / Differentiation / Epithelium / Flow cytometry / Gastroenterology / Gene expression / Gene Expression Profiling / Growth / Growth factors / Homeostasis / House mouse / Implantation / Interrogation / Intestinal Mucosa - cytology / Intestinal Mucosa - metabolism / Intestine / Laboratories / Medical research / Medicine / Mice / Mice, Transgenic / Molecular biology / Monoculture / Myofibroblasts - metabolism / Nutrition / Pediatrics / Physiology / Rodents / Stem cell transplantation / Stem cells / Stem Cells - cytology / Stem Cells - metabolism / Surgery / Surgical implants / Syngeneic grafts / Transcriptome / Wnt protein
2014
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Intestinal Subepithelial Myofibroblasts Support the Growth of Intestinal Epithelial Stem Cells
Intestinal Subepithelial Myofibroblasts Support the Growth of Intestinal Epithelial Stem Cells
by Wang, Fengchao , Li, Linheng , Khalil, Hassan , Dunn, James C. Y. , Lewis, Michael , Martín, Martín G. , Jaroszewicz, Artur , Wang, Jiafang , Jabaji, Ziyad , Joshi, Vaidehi S. , Lei, Nan Ye , Brinkley, Garrett J. , Stelzner, Matthias , Pellegrini, Matteo
in Analysis / Animal models / Animals / Bioengineering / Biology / Cell culture / Cell Culture Techniques / Cell Proliferation / Cell self-renewal / Cells, Cultured / Cluster Analysis / Crypts / Developmental biology / Differentiation / Epithelium / Flow cytometry / Gastroenterology / Gene expression / Gene Expression Profiling / Growth / Growth factors / Homeostasis / House mouse / Implantation / Interrogation / Intestinal Mucosa - cytology / Intestinal Mucosa - metabolism / Intestine / Laboratories / Medical research / Medicine / Mice / Mice, Transgenic / Molecular biology / Monoculture / Myofibroblasts - metabolism / Nutrition / Pediatrics / Physiology / Rodents / Stem cell transplantation / Stem cells / Stem Cells - cytology / Stem Cells - metabolism / Surgery / Surgical implants / Syngeneic grafts / Transcriptome / Wnt protein
2014

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Intestinal Subepithelial Myofibroblasts Support the Growth of Intestinal Epithelial Stem Cells
Intestinal Subepithelial Myofibroblasts Support the Growth of Intestinal Epithelial Stem Cells
Journal Article

Intestinal Subepithelial Myofibroblasts Support the Growth of Intestinal Epithelial Stem Cells

Wang, Fengchao,
Li, Linheng,
Khalil, Hassan,
Dunn, James C. Y.,
Lewis, Michael,
Martín, Martín G.,
Jaroszewicz, Artur,
Wang, Jiafang,
Jabaji, Ziyad,
Joshi, Vaidehi S.,
Lei, Nan Ye,
Brinkley, Garrett J.,
Stelzner, Matthias,
Pellegrini, Matteo
2014
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Overview
Intestinal epithelial stem cells (ISCs) are the focus of recent intense study. Current in vitro models rely on supplementation with the Wnt agonist R-spondin1 to support robust growth, ISC self-renewal, and differentiation. Intestinal subepithelial myofibroblasts (ISEMFs) are important supportive cells within the ISC niche. We hypothesized that co-culture with ISEMF enhances the growth of ISCs in vitro and allows for their successful in vivo implantation and engraftment. ISC-containing small intestinal crypts, FACS-sorted single ISCs, and ISEMFs were procured from C57BL/6 mice. Crypts and single ISCs were grown in vitro into enteroids, in the presence or absence of ISEMFs. ISEMFs enhanced the growth of intestinal epithelium in vitro in a proximity-dependent fashion, with co-cultures giving rise to larger enteroids than monocultures. Co-culture of ISCs with supportive ISEMFs relinquished the requirement of exogenous R-spondin1 to sustain long-term growth and differentiation of ISCs. Mono- and co-cultures were implanted subcutaneously in syngeneic mice. Co-culture with ISEMFs proved necessary for successful in vivo engraftment and proliferation of enteroids; implants without ISEMFs did not survive. ISEMF whole transcriptome sequencing and qPCR demonstrated high expression of specific R-spondins, well-described Wnt agonists that supports ISC growth. Specific non-supportive ISEMF populations had reduced expression of R-spondins. The addition of ISEMFs in intestinal epithelial culture therefore recapitulates a critical element of the intestinal stem cell niche and allows for its experimental interrogation and biodesign-driven manipulation.
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Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject

Analysis

/ Animal models

/ Animals

/ Bioengineering

/ Biology

/ Cell culture

/ Cell Culture Techniques

/ Cell Proliferation

/ Cell self-renewal

/ Cells, Cultured

/ Cluster Analysis

/ Crypts

/ Developmental biology

/ Differentiation

/ Epithelium

/ Flow cytometry

/ Gastroenterology

/ Gene expression

/ Gene Expression Profiling

/ Growth

/ Growth factors

/ Homeostasis

/ House mouse

/ Implantation

/ Interrogation

/ Intestinal Mucosa - cytology

/ Intestinal Mucosa - metabolism

/ Intestine

/ Laboratories

/ Medical research

/ Medicine

/ Mice

/ Mice, Transgenic

/ Molecular biology

/ Monoculture

/ Myofibroblasts - metabolism

/ Nutrition

/ Pediatrics

/ Physiology

/ Rodents

/ Stem cell transplantation

/ Stem cells

/ Stem Cells - cytology

/ Stem Cells - metabolism

/ Surgery

/ Surgical implants

/ Syngeneic grafts

/ Transcriptome

/ Wnt protein

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