Loss of HIF-1α in the notochord results in cell death and complete disappearance of the nucleus pulposus

The intervertebral disc (IVD) is one of the largest avascular organs in vertebrates. The nucleus pulposus (NP), a highly hydrated and proteoglycan-enriched tissue, forms the inner portion of the IVD. The NP is surrounded by a multi-lamellar fibrocartilaginous structure, the annulus fibrosus (AF). Th...

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Veröffentlicht in:	PloS one 2014-10, Vol.9 (10), p.e110768-e110768
Hauptverfasser:	Merceron, Christophe, Mangiavini, Laura, Robling, Alexander, Wilson, Tremika LeShan, Giaccia, Amato J, Shapiro, Irving M, Schipani, Ernestina, Risbud, Makarand V
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal euthanasia Animals Apoptosis Arthritis Biochemistry Biology and Life Sciences Biomechanical Phenomena Biomechanics Cell death Cell Differentiation Cell lineage Cell Proliferation Cell Survival Chondrocytes Clonal deletion Degeneration Developmental biology Female Homeostasis Hypoxia Hypoxia-Inducible Factor 1, alpha Subunit - deficiency Hypoxia-Inducible Factor 1, alpha Subunit - genetics Intervertebral Disc - abnormalities Intervertebral Disc - cytology Intervertebral Disc - metabolism Intervertebral discs Lamellar structure Male Mechanical properties Medical schools Medicine and Health Sciences Mice, Transgenic Notochord Notochord - cytology Notochord - metabolism Nuclei Nuclei (cytology) Nucleus pulposus Organs Research and Analysis Methods Surgery Tissue engineering Vertebra Vertebrae Vertebrates
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creator	Merceron, Christophe Mangiavini, Laura Robling, Alexander Wilson, Tremika LeShan Giaccia, Amato J Shapiro, Irving M Schipani, Ernestina Risbud, Makarand V
description	The intervertebral disc (IVD) is one of the largest avascular organs in vertebrates. The nucleus pulposus (NP), a highly hydrated and proteoglycan-enriched tissue, forms the inner portion of the IVD. The NP is surrounded by a multi-lamellar fibrocartilaginous structure, the annulus fibrosus (AF). This structure is covered superior and inferior side by cartilaginous endplates (CEP). The NP is a unique tissue within the IVD as it results from the differentiation of notochordal cells, whereas, AF and CEP derive from the sclerotome. The hypoxia inducible factor-1α (HIF-1α) is expressed in NP cells but its function in NP development and homeostasis is largely unknown. We thus conditionally deleted HIF-1α in notochordal cells and investigated how loss of this transcription factor impacts NP formation and homeostasis at E15.5, birth, 1 and 4 months of age, respectively. Histological analysis, cell lineage studies, and TUNEL assay were performed. Morphologic changes of the mutant NP cells were identified as early as E15.5, followed, postnatally, by the progressive disappearance and replacement of the NP with a novel tissue that resembles fibrocartilage. Notably, lineage studies and TUNEL assay unequivocally proved that NP cells did not transdifferentiate into chondrocyte-like cells but they rather underwent massive cell death, and were completely replaced by a cell population belonging to a lineage distinct from the notochordal one. Finally, to evaluate the functional consequences of HIF-1α deletion in the NP, biomechanical testing of mutant IVD was performed. Loss of the NP in mutant mice significantly reduced the IVD biomechanical properties by decreasing its ability to absorb mechanical stress. These findings are similar to the changes usually observed during human IVD degeneration. Our study thus demonstrates that HIF-1α is essential for NP development and homeostasis, and it raises the intriguing possibility that this transcription factor could be involved in IVD degeneration in humans.
doi_str_mv	10.1371/journal.pone.0110768
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The nucleus pulposus (NP), a highly hydrated and proteoglycan-enriched tissue, forms the inner portion of the IVD. The NP is surrounded by a multi-lamellar fibrocartilaginous structure, the annulus fibrosus (AF). This structure is covered superior and inferior side by cartilaginous endplates (CEP). The NP is a unique tissue within the IVD as it results from the differentiation of notochordal cells, whereas, AF and CEP derive from the sclerotome. The hypoxia inducible factor-1α (HIF-1α) is expressed in NP cells but its function in NP development and homeostasis is largely unknown. We thus conditionally deleted HIF-1α in notochordal cells and investigated how loss of this transcription factor impacts NP formation and homeostasis at E15.5, birth, 1 and 4 months of age, respectively. Histological analysis, cell lineage studies, and TUNEL assay were performed. 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One</addtitle><date>2014-10-22</date><risdate>2014</risdate><volume>9</volume><issue>10</issue><spage>e110768</spage><epage>e110768</epage><pages>e110768-e110768</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>The intervertebral disc (IVD) is one of the largest avascular organs in vertebrates. The nucleus pulposus (NP), a highly hydrated and proteoglycan-enriched tissue, forms the inner portion of the IVD. The NP is surrounded by a multi-lamellar fibrocartilaginous structure, the annulus fibrosus (AF). This structure is covered superior and inferior side by cartilaginous endplates (CEP). The NP is a unique tissue within the IVD as it results from the differentiation of notochordal cells, whereas, AF and CEP derive from the sclerotome. The hypoxia inducible factor-1α (HIF-1α) is expressed in NP cells but its function in NP development and homeostasis is largely unknown. We thus conditionally deleted HIF-1α in notochordal cells and investigated how loss of this transcription factor impacts NP formation and homeostasis at E15.5, birth, 1 and 4 months of age, respectively. Histological analysis, cell lineage studies, and TUNEL assay were performed. Morphologic changes of the mutant NP cells were identified as early as E15.5, followed, postnatally, by the progressive disappearance and replacement of the NP with a novel tissue that resembles fibrocartilage. Notably, lineage studies and TUNEL assay unequivocally proved that NP cells did not transdifferentiate into chondrocyte-like cells but they rather underwent massive cell death, and were completely replaced by a cell population belonging to a lineage distinct from the notochordal one. Finally, to evaluate the functional consequences of HIF-1α deletion in the NP, biomechanical testing of mutant IVD was performed. Loss of the NP in mutant mice significantly reduced the IVD biomechanical properties by decreasing its ability to absorb mechanical stress. These findings are similar to the changes usually observed during human IVD degeneration. Our study thus demonstrates that HIF-1α is essential for NP development and homeostasis, and it raises the intriguing possibility that this transcription factor could be involved in IVD degeneration in humans.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>25338007</pmid><doi>10.1371/journal.pone.0110768</doi><oa>free_for_read</oa></addata></record>
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identifier	ISSN: 1932-6203
ispartof	PloS one, 2014-10, Vol.9 (10), p.e110768-e110768
issn	1932-6203 1932-6203
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subjects	Animal euthanasia Animals Apoptosis Arthritis Biochemistry Biology and Life Sciences Biomechanical Phenomena Biomechanics Cell death Cell Differentiation Cell lineage Cell Proliferation Cell Survival Chondrocytes Clonal deletion Degeneration Developmental biology Female Homeostasis Hypoxia Hypoxia-Inducible Factor 1, alpha Subunit - deficiency Hypoxia-Inducible Factor 1, alpha Subunit - genetics Intervertebral Disc - abnormalities Intervertebral Disc - cytology Intervertebral Disc - metabolism Intervertebral discs Lamellar structure Male Mechanical properties Medical schools Medicine and Health Sciences Mice, Transgenic Notochord Notochord - cytology Notochord - metabolism Nuclei Nuclei (cytology) Nucleus pulposus Organs Research and Analysis Methods Surgery Tissue engineering Vertebra Vertebrae Vertebrates
title	Loss of HIF-1α in the notochord results in cell death and complete disappearance of the nucleus pulposus
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