Clinical Investigation
Functional CCR5 Receptor Protects Patients With Arthritis From High Synovial Burden of Infecting Chlamydia trachomatis

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Abstract

Introduction

The CCR5 chemokine receptor occurs in a wild-type (wt) and a nonfunctional deleted form (Δ32). Reports suggested that Chlamydia-induced reproductive tract pathology is attenuated in women bearing Δ32. The authors asked whether the mutation affects synovial prevalence and burden of Chlamydia trachomatis.

Methods

Polymerase chain reaction (PCR) defined CCR5 genotype in synovial tissue DNA from 218 individuals: 21 controls, 110 with reactive arthritis (ReA), 83 with undifferentiated oligoarthritis (UO), 4 with osteoarthritis (OA). Disease durations were 0.5 to 21 years. Additional PCR assays defined the presence of C trachomatis DNA. Bacterial load was assessed by real-time PCR in selected samples.

Results

Five controls were wt/Δ32, 16 were wt/wt; 2 of 21 controls (both wt/wt) were PCR positive for C trachomatis. Eighty-five (44%) patients with arthritis were PCR positive for C trachomatis (69 ReA and 16 UO). For patients with ReA, 14 (13%) had wt/Δ32, 10 (71%) of whom were PCR positive. Nineteen patients with UO (23%) were wt/Δ32, with 1 (1%) PCR positive. No differences existed for gender or other factors. One patient with OA had wt/Δ32. In ReA and UO samples, wt/Δ32 heterozygotes had a 5- to 10-fold higher bacterial burden than did wt/wt patients (P = 0.03), regardless of diagnosis.

Conclusion

These results indicate that the wt/wt genotype is associated with attenuated synovial bacterial load compared with loads in wt/Δ32 patients. Although no alleles other than Δ32 were assessed, our data suggest that this allele provides little/no protection from ReA in patients infected with Chlamydia- but it may provide some protection in patients with UO. The basis of this possible differential effect of CCR5 genotype is under study.

Section snippets

Patient Samples

DNA prepared from synovial biopsies was analyzed as described below. These “freezer library” samples were procured over several years by the authors HRS and JDC under approved protocols to study Chlamydia-associated arthritis. DNA preparations from 218 individuals were studied, including those from 21 normal control individuals. Patients had diagnoses of reactive arthritis (ReA, n = 110), undifferentiated oligoarthritis (UO, n = 83) and osteoarthritis (OA, n = 4). Disease durations ranged from 0.5 to

RESULTS

In screening assays, samples from 69 patients (63%) with ReA, 16 patients (19%) with UO and 2 control individuals (10%) were PCR positive for C trachomatis DNA. No samples from patients with OA were similarly PCR positive.

In DNA samples from normal control individuals, 16 of 21 (76%) were homozygous wild-type for the CCR5-encoding gene (genotype wt/wt), and 5 of 21 (24%) were heterozygous for the Δ32 deletion allele (genotype wt/Δ32). We identified no control samples homozygous for the deleted

DISCUSSION

In this brief report, we provide initial insight into the effect of genotype at the CCR5-encoding locus on disease association and bacterial load for C trachomatis in synovial tissue from patients with Chlamydia-induced arthritis and those with UO. The data presented suggest that presence of the 32-bp deletion in the gene in heterozygous individuals confers no protection from disease induction in patients with diagnosed ReA caused by C trachomatis, but it may provide some protection from

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This work was supported by the NIH research grants AR-42541 (to APH), AR-48331 (to JAW-H), AR-53646 (to JDC) and AR-47186 (to HCG) and by the U.S. Department of Veterans Affairs Medical Research Service research grant (to HRS).

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