H. De Visser scite author profile

H. De Visser

3Publications

1Citation Statement Received

59Citation Statements Given

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University Medical Center Utrecht, Utrecht University

Publications

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High-fat dietary consumption promotes disease progression in a surgical joint destabilisation murine model of osteoarthritis: role of systemic eicosanoids and circulating monocytes

Kozijn

Visser

Tartjiono

et al. 2019

Preprint

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Background In this study we investigated the contribution of high-fat diet-induced metabolic overload to osteoarthritis (OA) progression originally caused by mild mechanical trauma to the mouse knee joint. We hypothesized that metabolic stress would induce a proinflammatory environment by altering systemic lipid levels and immune cell populations. Methods Twelve-week-old male C57BL/6J mice (n=20) were given a low-fat diet (LFD, 10%kcal from fat) or high-fat diet (HFD, 45%kcal from fat) for 18 weeks. OA was initiated by transecting the medial meniscotibial ligament of the right knee joint at t=10 weeks. OA severity and changes in M1/M2 polarization of synovial macrophage populations were determined in serial coronal FFPE-mounted sections. Eicosanoid levels and monocyte populations were evaluated before and after ligament transection. Results Diet-induced metabolic stress assessed by body weight, systemic cholesterol levels, and insulin resistance index was significantly higher in HFD mice. This group also showed increased cartilage damage, synovitis, and osteophyte formation compared with LFD controls. High-fat feeding elevated systemic arachidonic acid levels, which mainly resulted in increased levels of its cytochrome P450-catalysed diol metabolites 5,6-dihydroxyeicosatrienoic acid (DHET) and 8,9-DHET. High-fat feeding also triggered an increase in pro-inflammatory intermediate CD43++Ly6Cint monocytes after ligament resection. Ligament resection in addition to high-fat feeding induced increased expression of the activation marker CD11c selectively on non-classical CD43++Ly6Clow monocytes. No significant changes in synovial macrophage polarization were observed. Conclusions Metabolic stress resulted in a proinflammatory environment and aggravated injury-induced OA progression. Our results suggest that a CYP450-focused eicosanoid metabolism and activated circulating monocytes may be drivers of this metabolic stress-induced OA progression, contributing to the mechanistic understanding and potentially serving as future diagnostic and prognostic biomarkers for metabolic OA.

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Op0083 dorsal Root Ganglia Infiltrating Macrophages Maintain Osteoarthritis Pain

et al. 2020

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Background:Pain is a major debilitating symptom of knee osteoarthritis (OA). However, the extent of joint damage in OA does not correlate well with the severity of pain. The mechanisms that govern OA pain are poorly understood. Immune cells infiltrating nervous tissue may contribute to pain maintenance.Objectives:Here we investigated the role of macrophages in the initiation and maintenance of OA pain.Methods:Knee joint damage was induced by an unilateral injection of mono-iodoacetate (MIA) or after application of a groove at the femoral condyles of rats fed on high fat diet. Pain-like behaviors were followed over time using von Frey test and dynamic weight bearing. Joint damage was assessed by histology. Dorsal root ganglia (DRG) infiltrating immune cells were assessed over time using flow cytometry. To deplete monocytes and macrophages, Lysmcrex Csfr1-Stop-DTR were injected intrathecal or systemically with diptheria toxin (DT).Results:Intraarticular monoiodoacetate injection induced OA and signs of persistent pain, such as mechanical hyperalgesia and deficits in weight bearing. The persisting pain-like behaviors were associated with accumulation of F4/80+macrophages with an M1-like phenotype in the lumbar DRG appearing from 1 week after MIA injection, and that persisted till at least 4 weeks after MIA injection. Macrophages infiltrated DRG were also observed in the rat groove model of OA, 12 weeks after application of a groove at the femoral condyles. Systemic or local depletion of DRG macrophages during established MIA-induced OA completely ablated signs of pain, without affecting MIA-induced knee pathology. Intriguingly when monocytes/macrophages were depleted prior to induction of osteoarthritis, pain-like behaviors still developed, however these pain-like behaviors did not persist over time.In vitro,sensory neurons innervating the affected OA joint programmed macrophages into a M1 phenotype. Local repolarization of M1-like DRG macrophages towards M2 by intrathecal injection of M2 macrophages or anti-inflammatory cytokines resolved persistent OA-induced pain.Conclusion:Overall we show that macrophages infiltrate the DRG after knee damage and acquire a M1-like phenotype and maintain pain independent of the lesions in the knee joint. DRG-infiltrating macrophages are not required for induction of OA pain. Reprogramming M1-like DRG-infiltrating macrophages may represent a potential strategy to treat OA pain.Acknowledgments:This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreements No 814244 and No 642720. Dutch Arthritis SocietyDisclosure of Interests:Ramin Raoof: None declared, Christian Martin: None declared, Huub de Visser: None declared, Judith Prado: None declared, Sabine Versteeg: None declared, Anne Heinemans: None declared, Simon Mastbergen: None declared, Floris Lafeber Shareholder of: Co-founder and shareholder of ArthroSave BV, Niels Eijkelkamp: None declared

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Controlled release of celecoxib inhibits inflammation and subchondral bone changes in a rat model of osteoarthritis

Tellegen

Jansen

Pouran

et al. 2018

Osteoarthritis and Cartilage

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H. De Visser

High-fat dietary consumption promotes disease progression in a surgical joint destabilisation murine model of osteoarthritis: role of systemic eicosanoids and circulating monocytes

Op0083 dorsal Root Ganglia Infiltrating Macrophages Maintain Osteoarthritis Pain

Controlled release of celecoxib inhibits inflammation and subchondral bone changes in a rat model of osteoarthritis

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