Literature DB >> 31707045

TonEBP-deficiency accelerates intervertebral disc degeneration underscored by matrix remodeling, cytoskeletal rearrangements, and changes in proinflammatory gene expression.

Steven Tessier1, Victoria A Tran1, Olivia K Ottone2, Emanuel J Novais3, Alexandra Doolittle2, Michael J DiMuzio1, Irving M Shapiro2, Makarand V Risbud4.   

Abstract

The tonicity-responsive enhancer binding protein (TonEBP) plays an important role in intervertebral disc and axial skeleton embryogenesis. However, the contribution of this osmoregulatory transcription factor in postnatal intervertebral disc homeostasis is not known in vivo. Here, we show for the first time that TonEBP-deficient mice have pronounced age-related degeneration of the intervertebral disc with annular and endplate herniations. Using FTIR-imaging spectroscopy, quantitative immunohistochemistry, and tissue-specific transcriptomic analysis, we provide morphological and molecular evidence that the overall phenotype is driven by a replacement of water-binding proteoglycans with fibrocartilaginous matrix. Whereas TonEBP deficiency in the AF compartment caused tissue fibrosis associated with alterations in actin cytoskeleton and adhesion molecules, predominant changes in pro-inflammatory pathways were seen in the NP compartment of mutants, underscoring disc compartment-specific effects. Additionally, TonEBP-deficient mice presented with compromised trabecular bone properties of vertebrae. These results provide the first in vivo support to the long-held hypothesis that TonEBP is crucial for postnatal homeostasis of the spine and controls a multitude of functions in addition to cellular osmoadaptation.
Copyright © 2019 Elsevier B.V. All rights reserved.

Entities:  

Keywords:  Actin cytoskeleton; Inflammation; Intervertebral disc; Matrix remodeling; TonEBP

Mesh:

Substances:

Year:  2019        PMID: 31707045      PMCID: PMC7078052          DOI: 10.1016/j.matbio.2019.10.007

Source DB:  PubMed          Journal:  Matrix Biol        ISSN: 0945-053X            Impact factor:   11.583


  63 in total

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  15 in total

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2.  Hypoxic Regulation of Mitochondrial Metabolism and Mitophagy in Nucleus Pulposus Cells Is Dependent on HIF-1α-BNIP3 Axis.

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Journal:  J Bone Miner Res       Date:  2020-05-15       Impact factor: 6.741

3.  Differential Effect of Long-Term Systemic Exposure of TNFα on Health of the Annulus Fibrosus and Nucleus Pulposus of the Intervertebral Disc.

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Review 5.  Current Perspectives on Nucleus Pulposus Fibrosis in Disc Degeneration and Repair.

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6.  Sox9 deletion causes severe intervertebral disc degeneration characterized by apoptosis, matrix remodeling, and compartment-specific transcriptomic changes.

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7.  Arp2/3 inactivation causes intervertebral disc and cartilage degeneration with dysregulated TonEBP-mediated osmoadaptation.

Authors:  Steven Tessier; Alexandra C Doolittle; Kimheak Sao; Jeremy D Rotty; James E Bear; Veronica Ulici; Richard F Loeser; Irving M Shapiro; Brian O Diekman; Makarand V Risbud
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8.  Hypoxia and Hypoxia-Inducible Factor-1α Regulate Endoplasmic Reticulum Stress in Nucleus Pulposus Cells: Implications of Endoplasmic Reticulum Stress for Extracellular Matrix Secretion.

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Review 9.  Role of autophagy in intervertebral disc and cartilage function: implications in health and disease.

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10.  Comparison of inbred mouse strains shows diverse phenotypic outcomes of intervertebral disc aging.

Authors:  Emanuel J Novais; Victoria A Tran; Jingya Miao; Katie Slaver; Andrew Sinensky; Nathaniel A Dyment; Sankar Addya; Flora Szeri; Koen van de Wetering; Irving M Shapiro; Makarand V Risbud
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