Olfactomedin-1 activity identifies a cell invasion checkpoint during epithelial-mesenchymal transition in the chick embryonic heart
Endothelia in the atrioventricular (AV) canal of the developing heart undergo a prototypical epithelial mesenchymal transition (EMT) to begin heart valve formation. Using an in vitro invasion assay, an extracellular matrix protein, Olfactomedin-1 (OLFM1), was found to increase mesenchymal cell numbe...
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| Published in | Disease models & mechanisms Vol. 6; no. 3; pp. 632 - 642 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
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01.05.2013
The Company of Biologists Limited The Company of Biologists |
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| Abstract | Endothelia in the atrioventricular (AV) canal of the developing heart undergo a prototypical epithelial mesenchymal transition (EMT) to begin heart valve formation. Using an in vitro invasion assay, an extracellular matrix protein, Olfactomedin-1 (OLFM1), was found to increase mesenchymal cell numbers in AV canals from embryonic chick hearts. Treatment with both anti-OLFM1 antibody and siRNA targeting OLFM1 inhibits mesenchymal cell formation. OLFM1 does not alter cell proliferation, migration or apoptosis. Dispersion, but lack of invasion in the presence of inhibiting antibody, identifies a specific role for OLFM1 in cell invasion during EMT. This role is conserved in other epithelia, as OLFM1 similarly enhances invasion by MDCK epithelial cells in a transwell assay. Synergy is observed when TGFβ2 and OLFM1 are added to MDCK cell cultures, indicating that OLFM-1 activity is cooperative with TGFβ. Inhibition of both OLFM1 and TGFβ in heart invasion assays shows a similar cooperative role during development. To explore OLFM1 activity during EMT, representative EMT markers were examined. Effects of OLFM1 protein and anti-OLFM1 on transcripts of cell-cell adhesion molecules and the transcription factors Snail-1, Snail-2, Twist1 and Sox-9 argue that OLFM1 does not initiate EMT. Rather, regulation of transcripts of Zeb1 and Zeb2, secreted proteases and mesenchymal cell markers by both OLFM1 and anti-OLFM1 is consistent with regulation of the cell invasion step of EMT. We conclude that OLFM1 is present and necessary during EMT in the embryonic chick heart. Its role in cell invasion and mesenchymal cell gene regulation suggests an invasion checkpoint in EMT where OLFM1 acts to promote cell invasion into the three-dimensional matrix. |
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| AbstractList | Endothelia in the atrioventricular (AV) canal of the developing heart undergo a prototypical epithelial mesenchymal transition (EMT) to begin heart valve formation. Using an in vitro invasion assay, an extracellular matrix protein, Olfactomedin-1 (OLFM1), was found to increase mesenchymal cell numbers in AV canals from embryonic chick hearts. Treatment with both anti-OLFM1 antibody and siRNA targeting OLFM1 inhibits mesenchymal cell formation. OLFM1 does not alter cell proliferation, migration or apoptosis. Dispersion, but lack of invasion in the presence of inhibiting antibody, identifies a specific role for OLFM1 in cell invasion during EMT. This role is conserved in other epithelia, as OLFM1 similarly enhances invasion by MDCK epithelial cells in a transwell assay. Synergy is observed when TGFβ2 and OLFM1 are added to MDCK cell cultures, indicating that OLFM-1 activity is cooperative with TGFβ. Inhibition of both OLFM1 and TGFβ in heart invasion assays shows a similar cooperative role during development. To explore OLFM1 activity during EMT, representative EMT markers were examined. Effects of OLFM1 protein and anti-OLFM1 on transcripts of cell-cell adhesion molecules and the transcription factors Snail-1, Snail-2, Twist1 and Sox-9 argue that OLFM1 does not initiate EMT. Rather, regulation of transcripts of Zeb1 and Zeb2, secreted proteases and mesenchymal cell markers by both OLFM1 and anti-OLFM1 is consistent with regulation of the cell invasion step of EMT. We conclude that OLFM1 is present and necessary during EMT in the embryonic chick heart. Its role in cell invasion and mesenchymal cell gene regulation suggests an invasion checkpoint in EMT where OLFM1 acts to promote cell invasion into the three-dimensional matrix. Endothelia in the atrioventricular (AV) canal of the developing heart undergo a prototypical epithelial mesenchymal transition (EMT) to begin heart valve formation. Using an in vitro invasion assay, an extracellular matrix protein, Olfactomedin-1 (OLFM1), was found to increase mesenchymal cell numbers in AV canals from embryonic chick hearts. Treatment with both anti-OLFM1 antibody and siRNA targeting OLFM1 inhibits mesenchymal cell formation. OLFM1 does not alter cell proliferation, migration or apoptosis. Dispersion, but lack of invasion in the presence of inhibiting antibody, identifies a specific role for OLFM1 in cell invasion during EMT. This role is conserved in other epithelia, as OLFM1 similarly enhances invasion by MDCK epithelial cells in a transwell assay. Synergy is observed when TGFβ2 and OLFM1 are added to MDCK cell cultures, indicating that OLFM-1 activity is cooperative with TGFβ. Inhibition of both OLFM1 and TGFβ in heart invasion assays shows a similar cooperative role during development. To explore OLFM1 activity during EMT, representative EMT markers were examined. Effects of OLFM1 protein and anti-OLFM1 on transcripts of cell-cell adhesion molecules and the transcription factors Snail-1, Snail-2, Twist1 and Sox-9 argue that OLFM1 does not initiate EMT. Rather, regulation of transcripts of Zeb1 and Zeb2 , secreted proteases and mesenchymal cell markers by both OLFM1 and anti-OLFM1 is consistent with regulation of the cell invasion step of EMT. We conclude that OLFM1 is present and necessary during EMT in the embryonic chick heart. Its role in cell invasion and mesenchymal cell gene regulation suggests an invasion checkpoint in EMT where OLFM1 acts to promote cell invasion into the three-dimensional matrix. SUMMARY Endothelia in the atrioventricular (AV) canal of the developing heart undergo a prototypical epithelial mesenchymal transition (EMT) to begin heart valve formation. Using an in vitro invasion assay, an extracellular matrix protein, Olfactomedin-1 (OLFM1), was found to increase mesenchymal cell numbers in AV canals from embryonic chick hearts. Treatment with both anti-OLFM1 antibody and siRNA targeting OLFM1 inhibits mesenchymal cell formation. OLFM1 does not alter cell proliferation, migration or apoptosis. Dispersion, but lack of invasion in the presence of inhibiting antibody, identifies a specific role for OLFM1 in cell invasion during EMT. This role is conserved in other epithelia, as OLFM1 similarly enhances invasion by MDCK epithelial cells in a transwell assay. Synergy is observed when TGFβ2 and OLFM1 are added to MDCK cell cultures, indicating that OLFM-1 activity is cooperative with TGFβ. Inhibition of both OLFM1 and TGFβ in heart invasion assays shows a similar cooperative role during development. To explore OLFM1 activity during EMT, representative EMT markers were examined. Effects of OLFM1 protein and anti-OLFM1 on transcripts of cell-cell adhesion molecules and the transcription factors Snail-1, Snail-2, Twist1 and Sox-9 argue that OLFM1 does not initiate EMT. Rather, regulation of transcripts of Zeb1 and Zeb2, secreted proteases and mesenchymal cell markers by both OLFM1 and anti-OLFM1 is consistent with regulation of the cell invasion step of EMT. We conclude that OLFM1 is present and necessary during EMT in the embryonic chick heart. Its role in cell invasion and mesenchymal cell gene regulation suggests an invasion checkpoint in EMT where OLFM1 acts to promote cell invasion into the three-dimensional matrix. |
| Author | Chhun, Danny C Runyan, Raymond B Dan, Kelvin P Ross, Kristen D Hoover, Elizabeth A Lencinas, Alejandro Antin, Parker B |
| AuthorAffiliation | 1 Departments of Cellular and Molecular Medicine 2 Pharmacology and Toxicology and 3 Program in Physiological Sciences, The University of Arizona, Tucson, AZ 85724, USA |
| AuthorAffiliation_xml | – name: 2 Pharmacology and Toxicology and – name: 3 Program in Physiological Sciences, The University of Arizona, Tucson, AZ 85724, USA – name: 1 Departments of Cellular and Molecular Medicine |
| Author_xml | – sequence: 1 givenname: Alejandro surname: Lencinas fullname: Lencinas, Alejandro organization: Department of Cellular and Molecular Medicine, The University of Arizona, Tucson, AZ 85724, USA – sequence: 2 givenname: Danny C surname: Chhun fullname: Chhun, Danny C – sequence: 3 givenname: Kelvin P surname: Dan fullname: Dan, Kelvin P – sequence: 4 givenname: Kristen D surname: Ross fullname: Ross, Kristen D – sequence: 5 givenname: Elizabeth A surname: Hoover fullname: Hoover, Elizabeth A – sequence: 6 givenname: Parker B surname: Antin fullname: Antin, Parker B – sequence: 7 givenname: Raymond B surname: Runyan fullname: Runyan, Raymond B |
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| Snippet | Endothelia in the atrioventricular (AV) canal of the developing heart undergo a prototypical epithelial mesenchymal transition (EMT) to begin heart valve... SUMMARY Endothelia in the atrioventricular (AV) canal of the developing heart undergo a prototypical epithelial mesenchymal transition (EMT) to begin heart... |
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| SubjectTerms | Animals Antibodies Antibodies - pharmacology Binding sites Biomarkers - metabolism Cell Death - drug effects Cell Movement - drug effects Cell Proliferation - drug effects Chick Embryo Dogs Endothelium Epithelial-Mesenchymal Transition - drug effects Extracellular matrix Extracellular Matrix Proteins - genetics Extracellular Matrix Proteins - immunology Extracellular Matrix Proteins - metabolism Glycoproteins - genetics Glycoproteins - immunology Glycoproteins - metabolism Heart Heart - drug effects Heart - embryology Humans Madin Darby Canine Kidney Cells Mesoderm - cytology Mesoderm - drug effects Mesoderm - embryology Metastasis Myocardium - cytology Myocardium - metabolism Proteins RNA, Messenger - genetics RNA, Messenger - metabolism RNA, Small Interfering - metabolism Transforming Growth Factor beta - pharmacology Tumors |
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| Title | Olfactomedin-1 activity identifies a cell invasion checkpoint during epithelial-mesenchymal transition in the chick embryonic heart |
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