Introduction: Bone phenotype, such as osteoarthritis (OA) pattern and development of osteolysis or heterotopic ossification (HO) after THA, may be governed by genetic and environmental factors. We investigated whether single nucleotide polymorphisms within the gene encoding secreted-Frizzled Related Protein-3, FRZB Arg200Trp and FRZB Arg324Gly influence bone phenotype.

Methods: Genomic DNA was extracted from 609 subjects at a mean of 11 years following cemented THA for idiopathic osteoarthritis. Pre-operative OA was defined using The American College of Rheumatology criteria and post operative HO after primary THA was assessed using Brooker’s classification

Results: For FRZB Arg200Trp, minor allele carriage (MAC) was greater in subjects with pre-operative pelvic osteophytes (n=267) versus those without osteophytes (n=34) (MAC 27.9% versus 6.3%, Fisher’s exact test p=0.037). There were no associations with other radiographic criteria of OA. MAC was also higher in HO+ve subjects (n=291) versus HO-ve subjects (n=341), (MAC 21.7% versus 12.0%, χ² test p=0.063). Finally MAC was 14.2% in osteolysis +ve subjects (n=268) and 21.7% in osteolysis –ve subjects (n=341) (χ² test p=0.041).

The adjusted odds ratios for pelvic osteophytes and HO with carriage of the rare FRZB 200 variant were 4.34 (1.01–18.7 p=0.048) and 1.64 (1.05 to 2.54, p=0.028) respectively. The adjusted odds ratio for osteolysis was 0.62 (0.38 to 0.99 p=0.049).

There were no bone phenotype associations with the FRZB Arg324Gly variants.

Discussion: Carriage of the FRZB 200Trp allele is positively associated with osteophyte and HO formation and negatively associated with osteolysis, suggesting this locus may be a marker for pro-osteoblastic activity.

Aseptic loosening due to periprosthetic bone loss is a major cause of implant failure after total hip arthroplasty (THA). Interleukin 1-B (IL-1B) is thought to play a role in aseptic loosening by stimulating the activity of osteoclasts, the main bone resorbing cell type. A restriction fragment length polymorphism due to a C/T single base variation at +3954 in exon 5 of the IL-1B gene has been associated with differences in susceptibility to chronic periodontitis, a condition associated with bone loss. In this study we tested whether carriage of the C and T alleles at this site resulted in differential risk of aseptic loosening in 481 Caucasians (214 failed versus 267 radiologically intact implants) at 11.7± 4.1 years following primary cemented THA for osteoarthritis. Genomic DNA extracted from peripheral blood was genotyped using the Taqman 5′ nuclease method. Carriage rates were calculated and analysed using the 2 test.

In the intact implant group the frequency of the T allele was 0.253. The distribution of the C and T alleles was 147:105:15 (CC:CT:TT, respectively). In the failed implant group the frequency of the T allele was 0.241). The distribution of the C and T alleles was 124:77:13. The carriage rate of the T alleles in each group was 44.9% and 42.1%, respectively (odds-ratio P> 0.05). The genotype frequencies were in Hardy-Weinberg equilibrium for both intact and loose implant populations (Chi-squared P> 0.05).

Using the multivariate Cox proportional hazards model significant risk factors for loosening of both implant components included gender and age at THA (P< 0.05). However, carriage of the +3954 allele was not a significant independent risk factor for aseptic loosening (P> 0.05). Our data suggests that the IL-1B gene restriction fragment length polymorphism at +3954 does not influence the risk of aseptic loosening after THA.

Polyethylene wear particle-induced osteolysis is a major cause of implant failure after total hip arthroplasty (THA). Tumour necrosis factor (TNF) is a pro-inflammatory cytokine that is thought to play a pivotal role in this process. We have recently shown that carriage of the −238 ‘A’ allele in the TNF gene promoter is associated with a higher rate of osteolysis after THA versus carriage of the [more common] ‘G’ allele. The aim of this study was to determine the effect of this polymorphism on TNF gene transcriptional activation in response to polyethylene particle stimulation using a luciferase reporter gene assay.

A 691 bp fragment (−585 to +106) of the TNF gene was amplified by polymerase chain reaction and directionally cloned into the PGL3.basic vector (Promega, Madison, WI). Insert sequences were checked using an ABI 377 DNA sequencer (PE Applied Biosystems, Foster City, CA). RAW264.7 murine macrophage-like cells in rapid growth phase were transfected with plasmids containing either the TNF-238G allele or the TNF-238A allele. pTK-RL (Promega), that expresses the Renilla luciferase gene under the control of Herpes simplex virus minimal promoter, was used as a transfection control. The cells were then either left unstimulated or were induced using polyethylene particles generated from a hip simulator. Lipopolysaccharide (LPS) and LTA (Lipoteichoic acid) were used as positive controls. Luciferase reporter activity was measured after 4 hours (Dual luciferase assay, Promega Corp., Southampton, U.K.) and the relative firefly luciferase activity was calculated. Results were analysed using repeated measures ANOVA.

Polyethylene particle stimulation at concentrations of 0, 1, 15, and 30mg/mL resulted in relative luciferase activities (mean (SD)) of 21.4 (2.9), 36.2 (8.2), 45.9 (11.1), and 40.7 (5.1) for the −238A allele; and 19.7 (5.0), 26.4 (8.0), 35.9 (2.3), and 32.4 (2.4) for the −238G allele (ANOVA P=0.01). LPS and LTA stimulation also resulted in increased reporter activity for −238A versus −238G (ANOVA P=0.02 and P=0.04, respectively).

The promoter allele TNF-238A results in higher levels of transcriptional activation versus the TNF-238G allele in response to a clinically relevant stimulus, and provides functional evidence for the significance of this polymorphism in the development of osteolysis after THA.

Tumour necrosis factor-α (TNF) is thought to play a role in aseptic loosening, the major cause of implant failure after total hip arthroplasty (THA). Natural sequence variations at –238 and –308 in the promoter region of the TNF gene are associated with differences in the susceptibility and severity of several TNF-mediated diseases. We tested whether carriage of the [less common] ‘A’ allele at –238 and –308 are associated with aseptic loosening after THA.

481 Caucasians (214 with failed implants versus 267 with radiologically intact implants) were recruited 11.7± 4.1 years after cemented THA for osteoarthritis. Genomic DNA was extracted from peripheral blood and genotyped for the –238 and –308 polymorphisms using the Taqman® 5′ nuclease method. 500 subjects from the local population were also genotyped using Taqman® to establish the background prevalence of the ‘A’ allele at each site.

The carriage rate of –238A was 8.8% in the background population and 10.9% in the THA controls (P> 0.05). –238A carriage in the loosening group was 17.3% (odds ratio 1.72, 95% confidence interval 1.02 to 2.90). Carriage was highest (20.5%) in subjects with loosening of both the femoral and pelvic implant components (odds ratio 2.12; 1.17 to 3.83). The association of –238A with aseptic loosening was independent of age, sex, and amount of implant wear (Cox hazard ratio 1.49 (1.04 to 2.13; P=0.03)). Carriage of –308A was not associated with aseptic loosening.

Genetic, as well as environmental factors, influence implant failure after THA. Whether the –238 polymorphism causes the biological change that predisposes to loosening, or is in linkage disequilibrium with such a locus, is not yet known.