Recent studies of the fibroblast growth factor receptor 3 (FGFR3) gene have established that achondroplasia and hypochondroplasia are allelic disorders of different mutations. To determine whether the genotype could be distinguished on the basis of the phenotype, we analysed height, arm span, and skeletal radiographs from 23 patients with achondroplasia and the G380R mutation of FGFR3 and eight with hypochondroplasia and the N540K mutation. Both conditions share the classical pathological features of micromelic short stature, reduced or unchanged interpedicular distances in the lumbar spine, disproportionately long fibulae, and squared and shortened pelvic ilia. These were significantly more severe in the G380R patients than in the N540K patients. Our findings have shown a firm statistical correlation between the genotype and the phenotype, although there were a few exceptional cases in which there was phenotypic overlap between the two conditions

Lumbar disc herniation represents by far the most prevalent pathology, causing pain and sciatica and constitutes an important cause of disability and one of the most cost-intensive health problems. The aetiology is very complex. In recent years, it has been suggested in twin and family studies that genetic risk factors contribute to the development of LDH. Our purpose is to analyse genetic susceptibility to symptomatic LDH in Spanish surgical patients treated with different surgical techniques. Single-nucleotide polymorphisms (SNPs) in VDR, GDF5, Col1A1, THBS2 and CHST were genotyped in a case-control study with 50 symptomatic LDH in Spanish surgical patients and 50 Spanish health controls. All patients provided signed informed consent. Sampling was carried out with a puncture of the pad of a finger using a sterile, single-use lancet. SNPs were determined by real-time polymerase chain reaction (PCR) using specific, unique probes with the analysis of the melting temperature of hybrids. The X2 test compared genotypes between groups. Multivariate logistic regression analysed the significance of many covariates and the incidence of LDH. We found significant differences in age, gender and smoking status between the two groups. There were significant differences in the CC (rs2228570) genotype in VDR in patients with LDH (p<0.05). There were significant differences in the GT (rs1800012) genotype in Col1A1 in patients with LDH (p=0.001). In Col1A1, T allele was more frequent in the case group than in the control group (p<0.001). Regarding surgical techniques, of the 50 patients included in the cases group, 25 were treated with open microdiscectomy and 25 received endoscopic discectomy. Outcomes were assessed at 12 months using VAS, and NASS instrument. Postoperative pain and pain medication were significantly reduced in the endoscopic group. Patient satisfaction is greater in the endoscopic group, with shorter hospital stays and earlier return to normal activity. GT genotype in Col1A1 was more frecuent in the endoscopic group compared to the microdiscectomy group (p=0.002). CC genotype in VDR and GT genotype in Col1A1 are associated with symptomatic LDH susceptibility in Spanish surgical patients. GT genotype in Col1A1 is associated with symptomatic LDH treated with full-endoscopic discectomy

Neoangiogenesis drives the replacement of mineralised cartilage by trabecular bone during bone growth regulated by molecules like e.g. VEGF, OPG and RANKL. The Heparan sulfate proteoglycan Syndecan-1 (Sdc1) plays a role in the interaction of osteoclasts and osteoblasts and the development of blood vessels. We expected Sdc1 to have an influence on bone structure and vessel development. Therefore, bone structure and angiogenesis at the growth plate in mice was compared and the influence of Syndecan-1 deficiency was characterised. Animals: Femura of male and female C57BL/6 WT (5♀, 6♂) and Sdc1-/- (9♀, 5♂) mice were used for native bone analysis at 4 month age. Histology: Bone structure was analysed using microCT scans with a resolution of 9µm. Vascularisation was visualised using an anti-Endomucin antibody in 80µm thick cryosections. In vitro angiogenesis: Bone marrow isolates were used to generate endothelial progenitor cells by sequential cultivation on fibronectin. Microvessel development was analysed 4h after plating on matrigel. Bone structure in male Sdc1 deficient mice was significantly reduced compare to male WT, whereas female mice of both genotypes did not differ. Sdc1 deficient mice at the age of 4 month showed a high decrease in the number of vessel bulbs at the chondro-osseous border (growth plate) compared to WT mice. However, no sex related differences were shown. Quantification of microvessel outgrowth of endothelial cells revealed a decreased amount of sprouting, but increased length of microvessels of Sdc1-/- cells compared to WT. Syndecan-1 has a significant impact on neoangiogenesis at the chondro-osseous border of the native bone, but the impact of Syndecan-1 deficiency on the loss of bone structure was significantly higher in male mice. This emphasises the importance to further characterise the function of Syndecan-1 regulated processes during enchondral ossification in a sex dependent manner

Introduction. Osteonecrosis (ON) is a disease that ultimately results in bone collapse. We investigated the correlation between SNPs and osteonecrosis. Methods. In this study, 109 patients with systematic lupus erythematosus (SLE) (21 with and 88 without osteonecrosis) were collected for genotype analysis of 7 genes including VEGF, MTHFR, eNOS, and PAI-1 related to the blood system and BMP2 and PPARγ-2, genes that regulate the differentiation of bone marrow stromal cells. Results. The result of the combined analysis of the susceptible BMP2 (rs3178250) TC genotype, MTHFR (rs1801133) CC genotype and VEGF (rs833069) AA genotype was OR: 0.185, 95 % CI:0.044 - 0.774 (p=0.021). In addition, when the different genotype combinations were analyzed the result for BMP2 (rs3178250) TC, MTHFR (rs1801133)CC, and PPARγ-2 (rs11128596) AA genotype was OR:0.096, 95 % CI:0.044-0.774 (p=0.012); the result for BMP2(rs3178250) TT, VEGF (rs833069) AG, and PPARγ-2 (rs11128596) CA genotype was OR:0.099, 95 % CI:0.016-0.597 (p=0.012); and that of VEGF AA, eNOS 298T GT, and eNOS 27bp tandem repeat 5R5R genotype was OR:0.060, 95 % CI:0.006- 0.588 (p =0.016), respectively. Conclusion. The results of this research provides an important reference to predict corticosteroid-associated osteonecrosis for SLE patients, providing related genotypic molecular epidemiology and possible discussion on mechanisms of pathogenicity for corticosteroid-associated osteonecrosis in SLE patients in Taiwan. The result of this research not only serves as a reference for possible ON risk factors in SLE patients with chronic corticosteroid use, but also forms a basis for treatment and medication in the clinical setting

The most common reasons for total joint arthroplasty (TJA) failure are aseptic loosening (AL) and prosthetic joint infection (PJI). There is a big clinical challenge to identify the patients with high risk of AL/PJI before the TJA surgery. Although there is evidence that genetic factors contribute to the individual susceptibility to AL/PJI, a predictive model for identification of patients with a high genetic risk of TJA failure has not been developed yet. We aimed to develop a risk evaluation tool utilising the AL/PJI-associated polymorphisms for identification of patients with high genetic risk of TJA failure based on inflammation-gene polymorphism panel. Based on allele and genotype frequencies of twenty-five single nucleotide polymorphisms (SNPs) in TNF, IL2, IL6, IL10, IL1b, IL-1Ra, MBL2, MMP1, FTO genes and those influencing the serum levels of biomarkers of TJA outcomes (IL6, CCL2/MCP-1, CRP, ESR) in peripheral blood obtained from patients with TJA (AL, n=110; PJI, n=93; no complications, n=123), we calculated a hazard ratio and a relative entropy of alleles and genotypes associated with AL and PJI and their combinations in patient subgroups. We conducted a risk evaluation tool based on the presence of risk alleles and genotypes in TNF (rs361525, rs1800629), DARC (rs12075), MBL2 (rs11003125) and FTO (rs9939609, rs9930506) genes associated with implant failure (AL/PJI). Of these, FTO gene variations (rs9939609, rs9930506) were associated mainly with PJI (P=0.001, OR=2.04, 95%CI=1.132–2.603; P=0.011, OR=1.72, 95%CI=1.338–3.096) and DARC (rs12075) with AL (P=0.005, OR=1.79, 95%CI=1.193–2.696). This tool calculates a hazard ratio of a combination of SNPs associated with AL and PJI for identification of patients with high and low risk of AL/PJI TJA failure. We proposed a risk evaluation tool for stratification of patients before the TJA surgery based on the genetic risk of AL/PJI development. The effect size for each genotype combination described in the study is small. Further multiparametric data analysis and studies on an extended patient cohort and other non-genetic and genetic parameters are ongoing. Grant support: AZV MZ CR VES16-131852A, VES15-27726A, IGA LF UP_2016_011

Background. Despite the known multifactorial nature of scaphoid wrist fracture non-union, a possible genetic predisposition for the development of this complication remains unknown. This pilot study aimed to address this issue by performing Single Nucleotide Polymorphisms (SNPs) analysis of specific genes known to regulate fracture healing. Materials and Methods. We reviewed 120 patients in a retrospective case-control study from the Hand Surgery Department of Asepeyo Hospital. The case group comprised 60 patients with confirmed scaphoid wrist non-union, diagnosed by Magnetic Resonance Imaging (MRI) and Computed Tomography (CT). The control group comprised 60 patients with scaphoid fracture and complete bone consolidation. Sampling was carried out with a puncture of a finger pad using a sterile, single-use lancet. SNPs were determined by real-time polymerase chain reaction (PCR) using specific, unique probes with the analysis of the melting temperature of hybrids. The X2 test compared genotypes between groups. Multivariate logistic regression analysed the significance of many covariates and the incidence of scaphoid wrist non-union. Results. We found significant differences in subjects who had a smoking habit (p=0.001), high blood pressure (p<0.001), and surgical treatment (p=0.002) in patients with scaphoid non-union. There were more Caucasians (p=0.04) and males (p=0.001) in the case group. Falls were the main mechanism of fracture. The CC genotype in GDF5 (rs143383) was more frequent in patients with scaphoid non-union compared to the controls (p=0.02). CT was prevalent in the controls (p=0.02). T allele in GDF5 was more frequent in patients without non-union (p=0.001). Conclusions. Individuals who were carriers of the CC genotype in GDF5 showed higher susceptibility to suffering scaphoid wrist non-union. Furthermore, being a carrier of CT and T allele suggests that this could be behave as a protection factor against non-union. This is the first clinical study to investigate the potential existence of genetic susceptibility to scaphoid wrist fracture non-union. Level of evidence. Level III, Cross Sectional Study, Epidemiology Study

Introduction. The COL5A1 gene encodes for the α1 chain of type V collagen, a minor fibrillar collagen that is an important regulator of collagen fibrillogenesis. Several polymorphisms, including rs12722 (C/T), within the 3′-UTR of COL5A1 are associated with chronic Achilles tendinopathy and other musculoskeletal soft tissue injuries as well as exercise-related phenotypes. It is hypothesised that polymorphisms within the 3′-UTR regulate the amount of the α1(V) chain synthesised and type V collagen production. This in turn influencing the mechanical properties of tendons and other musculoskeletal soft tissues. In our laboratories, two major functional forms, namely the T- and C-allelic forms of the COL5A1 3′-UTR, were identified and associated predominately with severe chronic Achilles tendinopathy and healthy asymptomatic control individuals, respectively. Materials and Methods. To further investigate the functional differences between the two major 3′-UTR functional forms as well as to start mapping the regions which are responsible for the tendinopathic phenotype, skin biopsies from donors having a known genotype at rs12722 and primary fibroblast cell lines were established in order to quantify COL5A1 and COL1A1 expression levels in a pilot study. Lastly, in preliminary RNA EMSAs, biotinylated C- and T-allelic RNA probes for a specific 57bp functional region within the 3′-UTR were incubated with either fibroblast nuclear or cytoplasmic protein extracts to investigate putative distinguishing RNA:RBP complex formation. Results. An overall higher relative mRNA expression of both COL5A1 (p<0.001) and COL1A1 (p=0.0015) were observed in primary skin fibroblasts from donors having a rs12722 TT genotype compared to donors with a CC genotype. A unique RNA:RBP complex was also identified with the C-allelic probe. Discussion. These novel results have important implications for our understanding of the proposed role of type V collagen in the aetiology of tendon and other musculoskeletal soft tissue injuries, as well as, other exercise-related phenotypes

Background. Rotator cuff disease (RCD) is the most common cause of shoulder pain and limitation of activities in sports and in repetitive work. The aetiology of RCD is not well established. A number of gene pathways are altered in RCD. Polymorphisms in Col1A1, Col5A1 (encoding collagen) and GDF5 (TGF-beta superfamily) can be associated with RCD susceptibility. Materials and Methods. Single-nucleotide polymorphisms (SNPs) in Col1A1, GDF5 and Col5A1 were genotyped in a case-control study with 103 RCD patients and 104 controls in Caucasian and African populations who suffered from injuries in any other anatomical location. All patients provided signed informed consent. Sampling was carried out with a puncture of the pad of a finger using a sterile, single-use lancet. NSPs were determined by real-time polymerase chain reaction (PCR) using specific, unique probes with the analysis of the melting temperature of hybrids. The X2 test compared genotypes between groups. Multivariate logistic regression analysed the significance of many covariates and the incidence of RCD. Results. We found significant differences in subjects who were exposed to heavy physical exertion involving the upper limbs (p=0.002). There was a significant difference in the distribution of the three polymorphisms in the GDF5 gene between the two races that were studied, with a higher frequency of TC heterozygotes in Caucasians and TT homozygotes in Africans (p=0.05). There were significant differences in the CC (rs143383) polymorphism in the GDF5 gene in patients with RCD (p<0.04)

Objectives. Excessive acetabular coverage is the most common cause of pincer-type femoroacetabular impingement. To date, an association between acetabular over-coverage and genetic variations has not been studied. In this study we investigated the association between single nucleotide polymorphisms (SNPs) of paralogous Homeobox (HOX)9 genes and acetabular coverage in Japanese individuals to identify a possible genetic variation associated with acetabular over-coverage. . Methods. We investigated 19 total SNPs in the four HOX9 paralogs, then focused in detail on seven of those located in the 3’ untranslated region of HOXB9 (rs8844, rs3826541, rs3826540, rs7405887, rs2303485, rs2303486, rs79931349) using a case-control association study. The seven HOXB9 SNPs were genotyped in 316 subjects who had all undergone radiological examination. The association study was performed by both single-locus and haplotype-based analyses. . Results. The genotype and allele frequencies of the five HOXB9 SNPs showed significant association with acetabular over-coverage compared with controls (rs7405887 OR = 3.16, p = 5.29E-6, 95% CI 1.91 to 5.25). A significant difference was also detected when haplotypes were evaluated (OR = 2.59, p = 2.61E-5, 95% CI 1.65 to 4.08). The two HOXB9 SNPs (rs2303485, rs2303486) were associated with decreased acetabular coverage (rs2303485 OR = 0.524, p = 0.0091, 95% CI 0.322 to 0.855; rs2303486 OR = 0.519, p = 0.011, 95% CI 0.312 to 0.865). . Conclusions. The five HOXB9 SNPs (rs8844, rs3826541, rs3826540, rs7405887, rs79931349) were associated with acetabular over-coverage. On the other hand, the two SNPs (rs2303485 and rs2303486) were associated with the lower acetabular coverage. The association of rs2303486 would be consistent with the previous study. Therefore, the HOXB9 SNPs might be involved in the morphogenesis of acetabular coverage, and could be an independent risk factor for developing pincer-type femoroacetabular impingement. Cite this article: Bone Joint Res 2015;4:50–5

We investigated the effect of vitamin D receptor gene (VDRG) polymorphism on the responsiveness to 1,25(OH). 2. D. 3. in human osteoblast-like cells. The cells were obtained from the femoral heads of 18 women with osteoarthritis of the hip. Three different restriction enzymes, BsmI, ApaI, and TaqI, were used to analyse the polymorphism. The genotypes of the 18 patients were bbAaTT (8), bbaaTT (6), BbAaTt (3), and BbAATt (1). Our findings showed that there were no differences according to the VDR genotype, but there was a statistically significant difference in the production of osteocalcin between BbAaTt and bbAaTT, and between BbAaTt and bbaaTT. Northern blot analysis of osteocalcin and VDR mRNA showed no significant differences among the three VDR genotypes. These findings suggest that VDR gene polymorphism affects the individual responsiveness of 1,25(OH). 2. D. 3.

Heterotopic ossification (HO) is lamellar bone formation that occurs within tissues that do not normally have properties of ossification. The pathoaetiology of HO is poorly understood. We conducted a genome wide association study to better understand the genetic architecture of HO. 891 patients of European descent (410 HO cases) following THA for primary osteoarthritis were recruited from the UK. HO was assessed from plain AP radiographs of the pelvis. Genomic DNA was extracted, genotyped using the Illumina 610 beadchip and referenced using the 1000 Genome Project panel. HO susceptibility case-control analysis and an evaluation of disease severity in those with HO was undertaken using SNPTESTv2.3.0 on>10 million variants. We tested variants most strongly associated with HO in an independent UK THA replication cohort comprising 209 cases and 211 controls. The datasets were meta-analysed using PLINK. In the discovery cohort 70 signals with an index variant at p<9×10–5 were suggestively associated with HO susceptibility. The strongest signal lay just downstream of the gene ARHGAP18 (rs59084763, effect allele frequency (EAF) 0.19, OR1.87 [1.48–2.38], p=2.48×10–8), the second strongest signal lay within the long non-coding (LNC) RNA gene CASC20 (rs11699612, EAF 0.25, OR1.73 [1.1.40–2.16, p=9.3×10–8). In the discovery cohort 73 signals with an index variant at p<9×10–5 were associated with HO severity. At replication, 12 of the leading 14 susceptibility signals showed a concordant direction of allelic effect and 5 replicated at nominal significance. Following meta-analysis, the lead replicating susceptibility signal was the CASC20 variant rs11699612 (p=2.71×10–11). We identify consistent replicating association of variation within the LNC RNA CASC20 with HO susceptibility after THA. Although the function of CASC20 is currently unknown, possible mechanisms include transcriptional, post-transcriptional and epigenetic regulation of downstream target genes. The work presented here provides new avenues for the development of novel predictive and therapeutic approaches towards HO

Background. Inflammation and chemokines play a pivotal role in aseptic loosening (AL) and prosthetic joint infection (PJI) of total joint arthroplasty (TJA). Recently, the Duffy antigen receptor for chemokines (DARC) on erythrocytes was identified as a potent chemokine receptor able to bind and carry without deactivating a wide range of CXC and CC chemokines from circulation to tissues. The role of DARC and its functional polymorphism (SNP) influencing the number of the DARC molecules on the erythrocytes in AL/PJI has not been studied yet. Methods. We genotyped functional polymorphism in the DARC gene (rs12075) using MassArray technology (Agena Bioscience) in 354 patients with TJA (hip and knee arthroplasties). Patients were further subdivided into those with a complication (AL, n = 110; PJI, n = 126) and a control group without complications for at least 10 years (n = 118). Statistics was performed by Plink 1.07 and relative entropy. Results. Among our TJA patients, the rs12075 *G allele was more frequent in patients with a failure (46.6%) compared to those without complications (36.0%, P = 0.007, OR = 1.55, 95%CI = 1.13–2.14). The rs12075 *G allele was overrepresented mainly in patients with AL (49.5%, P = 0.004, OR = 1.74, 95%CI = 1.20–2.54), a trend was observed in PJI (44.0%, P = 0.071, OR =1.40, 95%CI = 0.97–2.01). This SNP is located in a coding region in the DARC gene, and the *G allele is associated with more DARC molecules on erythrocytes, thus able to bind and transport more CCL2, CCL5, CCL18 involved in the pathogenesis of AL/PJI from circulation to the periprosthetic tissue. Conclusions. Our data nominate erythrocyte DARC as a novel molecule in pathogenesis of aseptic loosening of TJA. The hypothesis that DARC may serve as a chemokine reservoir and shuttle chemokines from circulation to the joint surroundings should be investigated in future studies. Level of evidence IV. Evidence from well-designed case-control and cohort studies. The study was approved by the Ethical Committee of Palacky University and Faculty

Previous studies have shown that Tnmd is important for tendon maturation and has key implications for the residing tendon stem/progenitor cells. The putative signaling in which Tnmd participates is just starting to be better understood (Dex et al. 2016). However, its exact functions during tendon healing process still remain elusive. Therefore, the aims of this study were to perform systematic review of the literature on Tnmd-related research and to investigate the role of Tnmd in early tendon healing by applying a tendon rupture model in Tnmd-deficient mice. First, we searched in the PubMed database for articles containing “tenomodulin” or its alternative names and abbreviations. After exclusion of papers only available in abstract form and foreign language, we grouped the remaining 128 full-text publications into four study types: 1) looking into functions of Tnmd; 2) using Tnmd as a tendon marker; 3) correlating Tnmd mutations to a variety of diseases; and 4) reviews. Following literature analysis, we carried out a pilot Achilles tendon injury model with Tnmd-knockout (KO) mouse strain. Adult Tnmd-KO (n = 8) and wild-type (WT) (n = 8) mice underwent unilateral surgery of Achilles tendon based on Palmes et al. 2002 and were compared at day 8 postoperatively by: 1) H&E staining for overall assessment; 2) immunohistochemical BrdU analysis for cell proliferation; and 3) Safranin O staining for endochondral formation. Our literature screen revealed that Tnmd has been strongly justified as the best tendon and ligament marker in more than 90 different studies. Moreover, in vivo and in vitro investigations have demonstrated its positive role on tendon cell proliferation and tissue functions. Our follow up surgical study showed a very different scar organization in Tnmd-KO with a clearly reduced cell density. BrdU analysis confirmed a lower number of proliferating cells in Tnmd-KO scar area. Interestingly, endochondral formation was not observed in the scar tissues in either of the genotypes at day 8. Taken together, we systematically summarized the current knowledge on Tnmd gene and highlighted several future research perspectives. Lack of studies on the role of Tnmd in tissue healing, motivated our pilot investigation on Achilles tendon rupture, which in turn suggested that loss of Tnmd results in inferior repair process

Cryopreserved patellar tendon allografts are often recommended for reconstruction of anterior cruciate ligaments (ACLs) because living donor fibroblasts are thought to promote repair. Animal studies, however, indicate that ligaments regenerate from recipient rather than donor cells. If applicable to man, these observations suggest that allograft cell viability is unimportant. We therefore used short tandem repeat analysis with polymerase chain reaction (PCR) amplification to determine the source of cells in nine human ACLs reconstructed with cryopreserved patellar tendon allografts. PCR amplification of donor and recipient DNA obtained before operation and DNA from the graft obtained two to ten months after transplantation revealed the genotype of cells and showed only recipient cells in the graft area. Rather than preserve the viability of donor cells, a technique is required which will facilitate the introduction of recipient cells into patellar tendon allografts

Summary Statement. The deletion of gangliosides enhanced OA development by elevating MMP-13 and ADAMTS-5 expression and accelerating chondrocyte apoptosis. Gangliosides possibly play suppressive roles in IL-1α-induced inflammatory signaling cascades. Introduction. We have previously reported that glycosphingolipids (GSLs) play chondroprotective roles in the cartilage degradation process [1]. Gangliosides, one of the series of GSLs, are known to be important in intercellular signal transduction and cell-to-cell recognition [2]. Therefore, we hypothesised that gangliosides are important in cartilage metabolisms among the GSLs species. The purpose of this study was to determine the functional role of gangliosides in the development of OA in murine models. Materials & Methods. We adopted systemic GM3 synthase deficient mice (GM3S. −/−. ) which lack most of the gangliosides [3], and wild-type C57BL/6 mice as controls (WT). We applied instability-induced OA model (transecting the medial collateral ligament and removing the cranial half of the medial meniscus [4]) and age-associated OA model (following up to 15 months) with these mice. We also applied IL-1α-induced OA model with femoral head cartilage explants ex vivo. Histological evaluation and quantification of released proteoglycan (PG), secreted MMP-13, and NO in the cultured media were performed. In vitro experiments with chondrocytes extracted from articular cartilages of both genotypes (GM3S. −/−. , WT) were also performed to check the mRNA expression of cartilage degrading enzymes (MMP-13, ADAMTS-5). To test the functional roles of gangliosides, transient GM3S transfection was applied to WT chondrocytes and quantification of MMP-13 and ADAMTS-5 expression was performed. Results. Both age-associated and instability-induced OA models showed cartilage degradation in GM3S. −/−. mice were significantly more severe than WT mice. The results of IL-1α-induced OA model showed gangliosides deletion enhanced chondrocyte apoptosis and accelerated cartilage degradation. Femoral heads from GM3S. −/−. showed significantly higher concentration of MMP-13 and NO in the cultured media than those from WT. In vitro experiments revealed that ganglioside deletion enhanced MMP-13 and ADAMTS-5 expression in the chondrocytes stimulated with IL-1α. The expression of these enzymes was significantly suppressed by overexpressed GM3S in WT chondrocytes. Discussion/Conclusion. The deletion of gangliosides enhanced OA development by elevating MMP-13 and ADAMTS-5 expression and accelerating chondrocyte apoptosis. The results of this study raised the possibility that gangliosides, synthesised mainly from GM3, would play crucial roles in maintaining cartilage homeostasis among the GSLs species. Moreover, the result of overexpression experiment indicated that gangliosides play suppressive roles in IL-1α-triggered inflammatory signaling cascades. Although further studies are required to confirm our speculation, gangliosides may be the target molecules of a novel and effective strategy for the treatment of OA

Objectives

Given the function of adiponectin (ADIPOQ) on the inflammatory condition of obesity and osteoarthritis (OA), we hypothesized that the ADIPOQ gene might be a candidate gene for a marker of susceptibility to OA.

Objectives

Ubiquitin E3 ligase-mediated protein degradation regulates osteoblast function. Itch, an E3 ligase, affects numerous cell functions by regulating ubiquitination and proteasomal degradation of related proteins. However, the Itch-related cellular and molecular mechanisms by which osteoblast differentiation and function are elevated during bone fracture repair are as yet unknown.

Objectives

Degenerative disc disease (DDD) and osteoarthritis (OA) are relatively frequent causes of disability amongst the elderly; they constitute serious socioeconomic costs and significantly impair quality of life. Previous studies to date have found that aggrecan variable number of tandem repeats (VNTR) contributes both to DDD and OA. However, current data are not consistent across studies. The purpose of this study was to evaluate systematically the relationship between aggrecan VNTR, and DDD and/or OA.

Objectives

Several genome-wide association studies (GWAS) of bone mineral density (BMD) have successfully identified multiple susceptibility genes, yet isolated susceptibility genes are often difficult to interpret biologically. The aim of this study was to unravel the genetic background of BMD at pathway level, by integrating BMD GWAS data with genome-wide expression quantitative trait loci (eQTLs) and methylation quantitative trait loci (meQTLs) data

Objectives

The molecular mechanism of rheumatoid arthritis (RA) remains elusive. We conducted a protein-protein interaction network-based integrative analysis of genome-wide association studies (GWAS) and gene expression profiles of RA.