Hedgehog Signaling Links Chronic Inflammation to Gastric Cancer Precursor Lesions

Since its initial discovery in Drosophila, Hedgehog (HH) signaling has long been associated with foregut development. The mammalian genome expresses 3 HH ligands, with sonic hedgehog (SHH) levels highest in the mucosa of the embryonic foregut. More recently, interest in the pathway has shifted to im...

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Published in	Cellular and molecular gastroenterology and hepatology Vol. 3; no. 2; pp. 201 - 210
Main Authors	Merchant, Juanita L., Ding, Lin
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.03.2017 Elsevier
Subjects	DAMPs Gastroenterology and Hepatology GLI1 MDSCs Metaplasia Review SHH SPEM HH SPEM IL MDSC GLI ATPase HHIP SLFN4 Gr-MDSC mRNA GLI1 PTCH DAMPs IFN Metaplasia MDSCs SHH SMO Mo-MDSC SST TLR SP DAMP Patched adenosine triphosphatase Smoothened messenger RNA myeloid-derived suppressor cell damage-associated molecular pattern interleukin Toll-like receptor Schlafen 4 glioma-associated protein hedgehog-interacting protein spasmolytic polypeptide–expressing mucosa monocytic myeloid-derived suppressor cell interferon spasmolytic polypeptide granulocytic myeloid-derived suppressor cell hedgehog somatostatin sonic hedgehog TLR, Toll-like receptor HHIP, hedgehog-interacting protein SHH, sonic hedgehog SMO, Smoothened MDSC, myeloid-derived suppressor cell SLFN4, Schlafen 4 GLI, glioma-associated protein IFN, interferon Mo-MDSC, monocytic myeloid-derived suppressor cell mRNA, messenger RNA DAMP, damage-associated molecular pattern HH, hedgehog Gr-MDSC, granulocytic myeloid-derived suppressor cell SP, spasmolytic polypeptide IL, interleukin PTCH, Patched SST, somatostatin ATPase, adenosine triphosphatase SPEM, spasmolytic polypeptide–expressing mucosa
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Abstract	Since its initial discovery in Drosophila, Hedgehog (HH) signaling has long been associated with foregut development. The mammalian genome expresses 3 HH ligands, with sonic hedgehog (SHH) levels highest in the mucosa of the embryonic foregut. More recently, interest in the pathway has shifted to improving our understanding of its role in gastrointestinal cancers. The use of reporter mice proved instrumental in our ability to probe the expression pattern of SHH ligand and the cell types responding to canonical HH signaling during homeostasis, inflammation, and neoplastic transformation. SHH is highly expressed in parietal cells and is required for these cells to produce gastric acid. Furthermore, myofibroblasts are the predominant cell type responding to HH ligand in the uninfected stomach. Chronic infection caused by Helicobacter pylori and associated inflammation induces parietal cell atrophy and the expansion of metaplastic cell types, a precursor to gastric cancer in human subjects. During Helicobacter infection in mice, canonical HH signaling is required for inflammatory cells to be recruited from the bone marrow to the stomach and for metaplastic development. Specifically, polarization of the invading myeloid cells to myeloid-derived suppressor cells requires the HH-regulated transcription factor GLI1, thereby creating a microenvironment favoring wound healing and neoplastic transformation. In mice, GLI1 mediates the phenotypic shift to gastric myeloid-derived suppressor cells by directly inducing Schlafen 4 (slfn4). However, the human homologs of SLFN4, designated SLFN5 and SLFN12L, also correlate with intestinal metaplasia and could be used as biomarkers to predict the subset of individuals who might progress to gastric cancer and benefit from treatment with HH antagonists.
AbstractList	Since its initial discovery in Drosophila, Hedgehog (HH) signaling has long been associated with foregut development. The mammalian genome expresses 3 HH ligands, with sonic hedgehog (SHH) levels highest in the mucosa of the embryonic foregut. More recently, interest in the pathway has shifted to improving our understanding of its role in gastrointestinal cancers. The use of reporter mice proved instrumental in our ability to probe the expression pattern of SHH ligand and the cell types responding to canonical HH signaling during homeostasis, inflammation, and neoplastic transformation. SHH is highly expressed in parietal cells and is required for these cells to produce gastric acid. Furthermore, myofibroblasts are the predominant cell type responding to HH ligand in the uninfected stomach. Chronic infection caused by Helicobacter pylori and associated inflammation induces parietal cell atrophy and the expansion of metaplastic cell types, a precursor to gastric cancer in human subjects. During Helicobacter infection in mice, canonical HH signaling is required for inflammatory cells to be recruited from the bone marrow to the stomach and for metaplastic development. Specifically, polarization of the invading myeloid cells to myeloid-derived suppressor cells requires the HH-regulated transcription factor GLI1, thereby creating a microenvironment favoring wound healing and neoplastic transformation. In mice, GLI1 mediates the phenotypic shift to gastric myeloid-derived suppressor cells by directly inducing Schlafen 4 (slfn4). However, the human homologs of SLFN4, designated SLFN5 and SLFN12L, also correlate with intestinal metaplasia and could be used as biomarkers to predict the subset of individuals who might progress to gastric cancer and benefit from treatment with HH antagonists. Since its initial discovery in Drosophila , Hedgehog (HH) signaling has long been associated with foregut development. The mammalian genome expresses 3 HH ligands, with sonic hedgehog (SHH) levels highest in the mucosa of the embryonic foregut. More recently, interest in the pathway has shifted to improving our understanding of its role in gastrointestinal cancers. The use of reporter mice proved instrumental in our ability to probe the expression pattern of SHH ligand and the cell types responding to canonical HH signaling during homeostasis, inflammation, and neoplastic transformation. SHH is highly expressed in parietal cells and is required for these cells to produce gastric acid. Furthermore, myofibroblasts are the predominant cell type responding to HH ligand in the uninfected stomach. Chronic infection caused by Helicobacter pylori and associated inflammation induces parietal cell atrophy and the expansion of metaplastic cell types, a precursor to gastric cancer in human subjects. During Helicobacter infection in mice, canonical HH signaling is required for inflammatory cells to be recruited from the bone marrow to the stomach and for metaplastic development. Specifically, polarization of the invading myeloid cells to myeloid-derived suppressor cells requires the HH-regulated transcription factor GLI1, thereby creating a microenvironment favoring wound healing and neoplastic transformation. In mice, GLI1 mediates the phenotypic shift to gastric myeloid-derived suppressor cells by directly inducing Schlafen 4 ( slfn4 ). However, the human homologs of SLFN4, designated SLFN5 and SLFN12L, also correlate with intestinal metaplasia and could be used as biomarkers to predict the subset of individuals who might progress to gastric cancer and benefit from treatment with HH antagonists. Since its initial discovery in Drosophila, Hedgehog (HH) signaling has long been associated with foregut development. The mammalian genome expresses 3 HH ligands, with sonic hedgehog (SHH) levels highest in the mucosa of the embryonic foregut. More recently, interest in the pathway has shifted to improving our understanding of its role in gastrointestinal cancers. The use of reporter mice proved instrumental in our ability to probe the expression pattern of SHH ligand and the cell types responding to canonical HH signaling during homeostasis, inflammation, and neoplastic transformation. SHH is highly expressed in parietal cells and is required for these cells to produce gastric acid. Furthermore, myofibroblasts are the predominant cell type responding to HH ligand in the uninfected stomach. Chronic infection caused by Helicobacter pylori and associated inflammation induces parietal cell atrophy and the expansion of metaplastic cell types, a precursor to gastric cancer in human subjects. During Helicobacter infection in mice, canonical HH signaling is required for inflammatory cells to be recruited from the bone marrow to the stomach and for metaplastic development. Specifically, polarization of the invading myeloid cells to myeloid-derived suppressor cells requires the HH-regulated transcription factor GLI1, thereby creating a microenvironment favoring wound healing and neoplastic transformation. In mice, GLI1 mediates the phenotypic shift to gastric myeloid-derived suppressor cells by directly inducing Schlafen 4 (slfn4). However, the human homologs of SLFN4, designated SLFN5 and SLFN12L, also correlate with intestinal metaplasia and could be used as biomarkers to predict the subset of individuals who might progress to gastric cancer and benefit from treatment with HH antagonists.Since its initial discovery in Drosophila, Hedgehog (HH) signaling has long been associated with foregut development. The mammalian genome expresses 3 HH ligands, with sonic hedgehog (SHH) levels highest in the mucosa of the embryonic foregut. More recently, interest in the pathway has shifted to improving our understanding of its role in gastrointestinal cancers. The use of reporter mice proved instrumental in our ability to probe the expression pattern of SHH ligand and the cell types responding to canonical HH signaling during homeostasis, inflammation, and neoplastic transformation. SHH is highly expressed in parietal cells and is required for these cells to produce gastric acid. Furthermore, myofibroblasts are the predominant cell type responding to HH ligand in the uninfected stomach. Chronic infection caused by Helicobacter pylori and associated inflammation induces parietal cell atrophy and the expansion of metaplastic cell types, a precursor to gastric cancer in human subjects. During Helicobacter infection in mice, canonical HH signaling is required for inflammatory cells to be recruited from the bone marrow to the stomach and for metaplastic development. Specifically, polarization of the invading myeloid cells to myeloid-derived suppressor cells requires the HH-regulated transcription factor GLI1, thereby creating a microenvironment favoring wound healing and neoplastic transformation. In mice, GLI1 mediates the phenotypic shift to gastric myeloid-derived suppressor cells by directly inducing Schlafen 4 (slfn4). However, the human homologs of SLFN4, designated SLFN5 and SLFN12L, also correlate with intestinal metaplasia and could be used as biomarkers to predict the subset of individuals who might progress to gastric cancer and benefit from treatment with HH antagonists. Since its initial discovery in , Hedgehog (HH) signaling has long been associated with foregut development. The mammalian genome expresses 3 HH ligands, with sonic hedgehog (SHH) levels highest in the mucosa of the embryonic foregut. More recently, interest in the pathway has shifted to improving our understanding of its role in gastrointestinal cancers. The use of reporter mice proved instrumental in our ability to probe the expression pattern of SHH ligand and the cell types responding to canonical HH signaling during homeostasis, inflammation, and neoplastic transformation. SHH is highly expressed in parietal cells and is required for these cells to produce gastric acid. Furthermore, myofibroblasts are the predominant cell type responding to HH ligand in the uninfected stomach. Chronic infection caused by and associated inflammation induces parietal cell atrophy and the expansion of metaplastic cell types, a precursor to gastric cancer in human subjects. During infection in mice, canonical HH signaling is required for inflammatory cells to be recruited from the bone marrow to the stomach and for metaplastic development. Specifically, polarization of the invading myeloid cells to myeloid-derived suppressor cells requires the HH-regulated transcription factor GLI1, thereby creating a microenvironment favoring wound healing and neoplastic transformation. In mice, GLI1 mediates the phenotypic shift to gastric myeloid-derived suppressor cells by directly inducing ( ). However, the human homologs of SLFN4, designated SLFN5 and SLFN12L, also correlate with intestinal metaplasia and could be used as biomarkers to predict the subset of individuals who might progress to gastric cancer and benefit from treatment with HH antagonists.
Author	Merchant, Juanita L. Ding, Lin
AuthorAffiliation	1 Department of Internal Medicine-Gastroenterology, University of Michigan, Ann Arbor, Michigan 2 Department of Molecular and Integrative Physiology, University of Michigan, Ann Arbor, Michigan
AuthorAffiliation_xml	– name: 2 Department of Molecular and Integrative Physiology, University of Michigan, Ann Arbor, Michigan – name: 1 Department of Internal Medicine-Gastroenterology, University of Michigan, Ann Arbor, Michigan
Author_xml	– sequence: 1 givenname: Juanita L. surname: Merchant fullname: Merchant, Juanita L. email: merchanj@umich.edu organization: Department of Internal Medicine-Gastroenterology, University of Michigan, Ann Arbor, Michigan – sequence: 2 givenname: Lin surname: Ding fullname: Ding, Lin organization: Department of Internal Medicine-Gastroenterology, University of Michigan, Ann Arbor, Michigan
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/28275687$$D View this record in MEDLINE/PubMed
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Keywords	HH SPEM IL MDSC GLI ATPase HHIP SLFN4 Gr-MDSC mRNA GLI1 PTCH DAMPs IFN Metaplasia MDSCs SHH SMO Mo-MDSC SST TLR SP DAMP Patched adenosine triphosphatase Smoothened messenger RNA myeloid-derived suppressor cell damage-associated molecular pattern interleukin Toll-like receptor Schlafen 4 glioma-associated protein hedgehog-interacting protein spasmolytic polypeptide–expressing mucosa monocytic myeloid-derived suppressor cell interferon spasmolytic polypeptide granulocytic myeloid-derived suppressor cell hedgehog somatostatin sonic hedgehog TLR, Toll-like receptor HHIP, hedgehog-interacting protein SHH, sonic hedgehog SMO, Smoothened MDSC, myeloid-derived suppressor cell SLFN4, Schlafen 4 GLI, glioma-associated protein IFN, interferon Mo-MDSC, monocytic myeloid-derived suppressor cell mRNA, messenger RNA DAMP, damage-associated molecular pattern HH, hedgehog Gr-MDSC, granulocytic myeloid-derived suppressor cell SP, spasmolytic polypeptide IL, interleukin PTCH, Patched SST, somatostatin ATPase, adenosine triphosphatase SPEM, spasmolytic polypeptide–expressing mucosa
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Snippet	Since its initial discovery in Drosophila, Hedgehog (HH) signaling has long been associated with foregut development. The mammalian genome expresses 3 HH... Since its initial discovery in Drosophila , Hedgehog (HH) signaling has long been associated with foregut development. The mammalian genome expresses 3 HH... Since its initial discovery in , Hedgehog (HH) signaling has long been associated with foregut development. The mammalian genome expresses 3 HH ligands, with... Since its initial discovery in Drosophila , Hedgehog (HH) signaling has long been associated with foregut development. The mammalian genome expresses 3 HH...
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SubjectTerms	DAMPs Gastroenterology and Hepatology GLI1 MDSCs Metaplasia Review SHH SPEM
Title	Hedgehog Signaling Links Chronic Inflammation to Gastric Cancer Precursor Lesions
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