Sami A. Anjum scite author profile

Objective. Osteoarthritis (OA) is polygenic, with more than 90 risk loci currently mapped, including at the singlenucleotide polymorphism rs6516886. Previous analysis of OA cartilage DNA identified 6 CpG dinucleotides with methylation levels that correlated with the rs6516886 genotype, forming methylation quantitative trait loci (mQTLs). We undertook this study to investigate these mQTLs and to map expression quantitative trait loci (eQTLs) across joint tissues in order to identify a particular gene as a target of the rs6516886 association effect. Methods. Nucleic acids were extracted from the cartilage, fat pad, synovium, and peripheral blood from OA patients. Methylation of CpGs and allelic expression imbalance of potential target genes were assessed by pyrosequencing. A chondrocyte cell line expressing deactivated Cas9 (dCas9)-TET1 was used to directly alter CpG methylation levels, with effects on gene expression quantified by polymerase chain reaction. Results. Multiple mQTLs were detected, with effects strongest in joint tissues and methylation at CpG cg20220242 correlating most significantly with the rs6516886 genotype. CpG cg20220242 is located upstream of RWDD2B. Significant rs6516886 eQTLs were observed for this gene, with the OA risk-conferring allele of rs6516886 correlating with reduced expression. CpG methylation also correlated with allelic expression of RWDD2B, forming methylation-expression QTLs (meQTLs). Deactivated Cas9-TET1 reduction in the methylation of cg20220242 increased expression of RWDD2B. Conclusion. The rs6516886 association signal is a multi-tissue meQTL involving cg20220242 and acting on RWDD2B. Modulating CpG methylation reverses the impact of the risk allele. RWDD2B codes for a protein about which little is currently known. Further analysis of RWDD2B as a target of OA genetic risk will provide novel insight into this complex disease.

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Cobalt ions recruit inflammatory cells in vitro through human Toll-like receptor 4

Lawrence

Deehan

Holland

et al. 2016

Biochemistry and Biophysics Reports

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Metal-on-metal (MoM) hip replacements, often manufactured from a cobalt-chrome alloy, are associated with adverse reactions including soft tissue necrosis and osteolysis. Histopathological analysis of MoM peri-implant tissues reveals an inflammatory cell infiltrate that includes macrophages, monocytes and neutrophils.Toll-like receptor 4 (TLR4) is an innate immune receptor activated by bacterial lipopolysaccharide. Recent studies have demonstrated that cobalt ions from metal-on-metal joints also activate human TLR4, increasing cellular secretion of inflammatory chemokines including interleukin-8 (IL-8, CXCL8) and CCL2. Chemokines recruit immune cells to the site of inflammation, and their overall effect depends on the chemokine profile produced.This study investigated the effect of cobalt on the secretion of inflammatory cytokines CCL20 and IL-6. The chemotactic potential of conditioned media from a cobalt-stimulated human monocyte cell line on primary monocytes and neutrophils was investigated using an in vitro transwell migration assay. The role of TLR4 in observed effects was studied using a small molecule TLR4-specific antagonist.Cobalt ions significantly increased release of CCL2 and IL-6 by MonoMac 6 cells (P<0.001). Conditioned media from cobalt-stimulated cells significantly increased monocyte and neutrophil chemotaxis in vitro (P<0.001). These effects were abrogated by the TLR4 antagonist (P<0.001) suggesting that they occur through cobalt activation of TLR4.This study demonstrates the role of TLR4 in cobalt-mediated immune cell chemotaxis and provides a potential mechanism by which cobalt ions may contribute to the immune cell infiltrate surrounding failed metal hip replacements. It also highlights the TLR4 signalling pathway as a potential therapeutic target in preventing cobalt-mediated inflammation.

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Effect of cobalt-mediated Toll-like receptor 4 activation on inflammatory responses in endothelial cells

et al. 2016

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Cobalt-containing metal-on-metal hip replacements are associated with adverse reactions to metal debris (ARMD), including inflammatory pseudotumours, osteolysis, and aseptic implant loosening. The exact cellular and molecular mechanisms leading to these responses are unknown. Cobaltions (Co2+) activate human Toll-like receptor 4 (TLR4), an innate immune receptor responsible for inflammatory responses to Gram negative bacterial lipopolysaccharide (LPS).We investigated the effect of Co2+-mediated TLR4 activation on human microvascular endothelial cells (HMEC-1), focusing on the secretion of key inflammatory cytokines and expression of adhesion molecules. We also studied the role of TLR4 in Co2+-mediated adhesion molecule expression in MonoMac 6 macrophages.We show that Co2+ increases secretion of inflammatory cytokines, including IL-6 and IL-8, in HMEC-1. The effects are TLR4-dependent as they can be prevented with a small molecule TLR4 antagonist. Increased TLR4-dependent expression of intercellular adhesion molecule 1 (ICAM1) was also observed in endothelial cells and macrophages. Furthermore, we demonstrate for the first time that Co2+ activation of TLR4 upregulates secretion of a soluble adhesion molecule, sICAM-1, in both endothelial cells and macrophages. Although sICAM-1 can be generated through activity of matrix metalloproteinase-9 (MMP-9), we did not find any changes in MMP9 expression following Co2+ stimulation.In summary we show that Co2+ can induce endothelial inflammation via activation of TLR4. We also identify a role for TLR4 in Co2+-mediated changes in adhesion molecule expression. Finally, sICAM-1 is a novel target for further investigation in ARMD studies.

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Statins, bone biology and revision arthroplasty: review of clinical and experimental evidence

Sorial

Anjum

Cook

et al. 2020

Therapeutic Advances in Musculoskeletal

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Osteoarthritis is a painful, disabling condition which is increasing in prevalence as a result of an ageing population. With no recognized disease-limiting therapeutics, arthroplasty of the hip and knee is the most common and effective treatment for lower limb osteoarthritis, however lower limb arthroplasty has a finite life-span and a proportion of patients will require revision arthroplasty. With increasing life expectancy and an increasing proportion of younger (<65 years) patients undergoing arthroplasty, the demand for revision arthroplasty after implant failure is also set to increase. Statins are cholesterol-modulating drugs widely used for cardiovascular risk reduction which have been noted to have pleiotropic effects including potentially influencing arthroplasty survival. In vitro studies have demonstrated pleiotropic effects in human bone cells, including enhancement of osteoblastogenesis following simvastatin exposure, and in vivo studies have demonstrated that intraperitoneal simvastatin can increase peri-implant bone growth in rats following titanium tibial implant insertion. There is evidence that statins may also influence osseointegration, enhancing bone growth at the bone–implant interface, subsequently improving the functional survival of implants. Data from the Danish Hip Arthroplasty Registry and the Clinical Practice Research Datalink in the UK suggest a reduction in the risk of lower limb revision arthroplasty in statin ever-users versus never-users, and a time-dependent effect of statins in reducing the risk of revision. In this article we review the clinical and experimental evidence linking statins and risk of revision arthroplasty.

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Gene expression and DNA methylation analysis at the OA susceptibility locus marked by rs6516886 prioritizes specific gene and regulatory sequences as functional targets of the association signal

Parker

Anjum

Tselepi

et al. 2019

Osteoarthritis and Cartilage

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regulation of key ECM components in OA synovial fibroblasts. Next, we employed "Watson Discovery tool" to identify direct targets of miR-27b-3p to further elucidate its signalling pathway. This tool identified a panel of 11 genes including peroxisome proliferator-activated receptor gamma (PPARg) as direct targets for miR-27b-3p. Indeed, we confirmed that miR-27b-3p mimic treatment results in a marked suppression of PPARg expression, while inhibition of miR-27b-3p upregulates PPARg, suggesting that miR-27b-3p may impart its ECM regulatory effect through modulation of PPARg. Furthermore, ISH of DMM-induced OA mice knee joints further show that miR-27b-3p expression is prominent in the synovial lining and fibrocartilage compared to sham control mice in vivo. Conclusions: Our results thus far suggest that, in OA synovial fibroblasts, miR-27b-3p is involved in the regulation of key ECM components. Our data also suggest that miR-27b-3p may signal via negative regulation of PPARg. Our ongoing studies are confirming if miR-27b-3p signalling via PPARg controls ECM regulation in OA synovial fibroblasts. Our in vivo studies show that miR-27b-3p expression is elevated in the synovium during OA. To comprehensively investigate the endogenous role of miR-27b-3p in synovial pathology, we have intra-articularly injected mouse knee joints with the in-vivo grade mimic of miR-27b-3p to determine any changes in the synovium upon miR-27b-3p treatment in vivo.

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Sami A. Anjum

Multi‐Tissue Epigenetic and Gene Expression Analysis Combined With Epigenome Modulation Identifies RWDD2B as a Target of Osteoarthritis Susceptibility

Cobalt ions recruit inflammatory cells in vitro through human Toll-like receptor 4

Effect of cobalt-mediated Toll-like receptor 4 activation on inflammatory responses in endothelial cells

Statins, bone biology and revision arthroplasty: review of clinical and experimental evidence

Gene expression and DNA methylation analysis at the OA susceptibility locus marked by rs6516886 prioritizes specific gene and regulatory sequences as functional targets of the association signal

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