Fibronectin Fragments and Inflammation During Canine Intervertebral Disc Disease

Fibronectin Fragments and Inflammation During Canine Intervertebral Disc Disease

Background: Canine intervertebral disc disease (IVDD) represents a significant clinical problem in veterinary medicine, with similarities to the human pathology. Host-derived damage-associated molecular patterns like fibronectin fragments (FnF) that develop during tissue dysfunction may be of specif...

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Main Authors: Manuel Roland Schmidli, Aleksandra Sadowska, Iva Cvitas, Benjamin Gantenbein, Heidi E. L. Lischer, Simone Forterre, Wolfgang Hitzl, Franck Forterre, Karin Wuertz-Kozak
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-11-01
Series:Frontiers in Veterinary Science
Subjects:
IVDD
neuroinflammation
intervertebral disc
DAMPs
NP cells
fibronectin fragments
Online Access:https://www.frontiersin.org/articles/10.3389/fvets.2020.547644/full
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record_format Article
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language English
format Article
sources DOAJ
author Manuel Roland Schmidli
Aleksandra Sadowska
Iva Cvitas
Benjamin Gantenbein
Benjamin Gantenbein
Heidi E. L. Lischer
Heidi E. L. Lischer
Simone Forterre
Wolfgang Hitzl
Wolfgang Hitzl
Wolfgang Hitzl
Franck Forterre
Karin Wuertz-Kozak
Karin Wuertz-Kozak
Karin Wuertz-Kozak
spellingShingle Manuel Roland Schmidli
Aleksandra Sadowska
Iva Cvitas
Benjamin Gantenbein
Benjamin Gantenbein
Heidi E. L. Lischer
Heidi E. L. Lischer
Simone Forterre
Wolfgang Hitzl
Wolfgang Hitzl
Wolfgang Hitzl
Franck Forterre
Karin Wuertz-Kozak
Karin Wuertz-Kozak
Karin Wuertz-Kozak
Fibronectin Fragments and Inflammation During Canine Intervertebral Disc Disease
Frontiers in Veterinary Science
IVDD
neuroinflammation
intervertebral disc
DAMPs
NP cells
fibronectin fragments
author_facet Manuel Roland Schmidli
Aleksandra Sadowska
Iva Cvitas
Benjamin Gantenbein
Benjamin Gantenbein
Heidi E. L. Lischer
Heidi E. L. Lischer
Simone Forterre
Wolfgang Hitzl
Wolfgang Hitzl
Wolfgang Hitzl
Franck Forterre
Karin Wuertz-Kozak
Karin Wuertz-Kozak
Karin Wuertz-Kozak
author_sort Manuel Roland Schmidli
title Fibronectin Fragments and Inflammation During Canine Intervertebral Disc Disease
title_short Fibronectin Fragments and Inflammation During Canine Intervertebral Disc Disease
title_full Fibronectin Fragments and Inflammation During Canine Intervertebral Disc Disease
title_fullStr Fibronectin Fragments and Inflammation During Canine Intervertebral Disc Disease
title_full_unstemmed Fibronectin Fragments and Inflammation During Canine Intervertebral Disc Disease
title_sort fibronectin fragments and inflammation during canine intervertebral disc disease
publisher Frontiers Media S.A.
series Frontiers in Veterinary Science
issn 2297-1769
publishDate 2020-11-01
description Background: Canine intervertebral disc disease (IVDD) represents a significant clinical problem in veterinary medicine, with similarities to the human pathology. Host-derived damage-associated molecular patterns like fibronectin fragments (FnF) that develop during tissue dysfunction may be of specific relevance to IVD pathologies by inducing an inflammatory response in resident cells.Aim: This project aimed to determine the presence and pathobiological role of FnF during IVD herniation in dogs, with a focus on inflammation.Methods: Herniated nucleus pulposus (NP) material from five dogs as well as non-herniated adjacent NP material from three dogs was collected during spinal surgery required due to acute IVD herniation. The presence of different types of FnF were determined by Western blot analysis. NP cells isolated from six herniated canine IVDs were then exposed to 30 kDa FnF. NP cell inflammation and catabolism was examined by investigating the expression of IL-1β, IL-6, IL-8, and COX-2, as well as MMP-1 and MMP-3 by qPCR (all targets) and ELISA (IL-6, PGE2).Results: Amongst multiple sized FnF (30, 35, 45, and >170kDa), N-terminal fragments at a size of ~30 kDa were most consistently expressed in all five herniated IVDs. Importantly, these fragments were exclusively present in herniated, but not in non-herniated IVDs. Exposure of canine NP cells to 500 nM 30 kDa FnF caused a significant upregulation of IL-6 (62.5 ± 79.9, p = 0.032) and IL-8 (53.0 ± 75.7, p = 0.031) on the gene level, whereas IL-6 protein analysis was inconclusive. Donor-donor variation was observed in response to FnF treatment, whereby this phenomenon was most evident for COX-2, with three donors demonstrating a significant downregulation (0.67 ± 0.03, p = 0.003) and three donors showing upregulation (6.9 ± 5.5, p = 0.21). Co-treatment with Sparstolonin B, a TRL-2/TRL-4 antagonist, showed no statistical difference to FnF treatment alone in all tested target genes.Conclusion: Given the presence of the 30 kDa FnF in canine herniated IVDs and the proinflammatory effect of 30 kDa FnF on NP cells, we concluded that the accumulation of FnF may be involved in the pathogenesis of canine IVDD. These results correspond to the findings in humans with IVDD.
topic IVDD
neuroinflammation
intervertebral disc
DAMPs
NP cells
fibronectin fragments
url https://www.frontiersin.org/articles/10.3389/fvets.2020.547644/full
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spelling doaj-f12873e72a374e22bf99794f314f7ce12020-11-25T04:03:44ZengFrontiers Media S.A.Frontiers in Veterinary Science2297-17692020-11-01710.3389/fvets.2020.547644547644Fibronectin Fragments and Inflammation During Canine Intervertebral Disc DiseaseManuel Roland Schmidli0Aleksandra Sadowska1Iva Cvitas2Benjamin Gantenbein3Benjamin Gantenbein4Heidi E. L. Lischer5Heidi E. L. Lischer6Simone Forterre7Wolfgang Hitzl8Wolfgang Hitzl9Wolfgang Hitzl10Franck Forterre11Karin Wuertz-Kozak12Karin Wuertz-Kozak13Karin Wuertz-Kozak14Division of Small Animal Surgery and Orthopaedics, Department of Clinical Veterinary Medicine, Vetsuisse Faculty, University of Bern, Bern, SwitzerlandDepartment of Health Sciences and Technology, Institute for Biomechanics, Eidgenössische Technische Hochschule Zurich, Zurich, SwitzerlandDivision of Experimental Clinical Research, Vetsuisse Faculty, University of Bern, Bern, SwitzerlandTissue Engineering for Orthopaedics & Mechanobiology (TOM), Department for BioMedical Research (DBMR) of the Medical Faculty of the University of Bern, University of Bern, Bern, SwitzerlandDepartment of Orthopedic Surgery and Traumatology, Inselspital Bern, University of Bern, Bern, SwitzerlandInterfaculty Bioinformatics Unit, University of Bern, Bern, SwitzerlandSwiss Institute of Bioinformatics, Lausanne, SwitzerlandDivision of Small Animal Surgery and Orthopaedics, Department of Clinical Veterinary Medicine, Vetsuisse Faculty, University of Bern, Bern, SwitzerlandResearch Office (Biostatistics), Paracelsus Medical University, Salzburg, AustriaDepartment of Ophthalmology and Optometry, Paracelsus Medical University Salzburg, Salzburg, Austria0Research Program Experimental Ophthalmology and Glaucoma Research, Paracelsus Medical University, Salzburg, AustriaDivision of Small Animal Surgery and Orthopaedics, Department of Clinical Veterinary Medicine, Vetsuisse Faculty, University of Bern, Bern, SwitzerlandDepartment of Health Sciences and Technology, Institute for Biomechanics, Eidgenössische Technische Hochschule Zurich, Zurich, Switzerland1Department of Biomedical Engineering, Rochester Institute of Technology, Rochester, NY, United States2Spine Center, Schön Clinic Munich Harlaching, Academic Teaching Hospital and Spine Research Institute of the Paracelus Medical University Salzburg, Munich, GermanyBackground: Canine intervertebral disc disease (IVDD) represents a significant clinical problem in veterinary medicine, with similarities to the human pathology. Host-derived damage-associated molecular patterns like fibronectin fragments (FnF) that develop during tissue dysfunction may be of specific relevance to IVD pathologies by inducing an inflammatory response in resident cells.Aim: This project aimed to determine the presence and pathobiological role of FnF during IVD herniation in dogs, with a focus on inflammation.Methods: Herniated nucleus pulposus (NP) material from five dogs as well as non-herniated adjacent NP material from three dogs was collected during spinal surgery required due to acute IVD herniation. The presence of different types of FnF were determined by Western blot analysis. NP cells isolated from six herniated canine IVDs were then exposed to 30 kDa FnF. NP cell inflammation and catabolism was examined by investigating the expression of IL-1β, IL-6, IL-8, and COX-2, as well as MMP-1 and MMP-3 by qPCR (all targets) and ELISA (IL-6, PGE2).Results: Amongst multiple sized FnF (30, 35, 45, and >170kDa), N-terminal fragments at a size of ~30 kDa were most consistently expressed in all five herniated IVDs. Importantly, these fragments were exclusively present in herniated, but not in non-herniated IVDs. Exposure of canine NP cells to 500 nM 30 kDa FnF caused a significant upregulation of IL-6 (62.5 ± 79.9, p = 0.032) and IL-8 (53.0 ± 75.7, p = 0.031) on the gene level, whereas IL-6 protein analysis was inconclusive. Donor-donor variation was observed in response to FnF treatment, whereby this phenomenon was most evident for COX-2, with three donors demonstrating a significant downregulation (0.67 ± 0.03, p = 0.003) and three donors showing upregulation (6.9 ± 5.5, p = 0.21). Co-treatment with Sparstolonin B, a TRL-2/TRL-4 antagonist, showed no statistical difference to FnF treatment alone in all tested target genes.Conclusion: Given the presence of the 30 kDa FnF in canine herniated IVDs and the proinflammatory effect of 30 kDa FnF on NP cells, we concluded that the accumulation of FnF may be involved in the pathogenesis of canine IVDD. These results correspond to the findings in humans with IVDD.https://www.frontiersin.org/articles/10.3389/fvets.2020.547644/fullIVDDneuroinflammationintervertebral discDAMPsNP cellsfibronectin fragments

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