Abstract
CC chemokine receptor 5 (CCR5) is expressed on type-1 T-helper cells, which are involved in the pathogenesis of the granulomatous lung disease chronic beryllium disease (CBD). CCR5 gene (CCR5) polymorphisms are associated with sarcoidosis severity. The present study explores associations between CCR5 polymorphisms and CBD and its disease progression.
Eight CCR5 polymorphisms were genotyped in CBD (n = 88), beryllium sensitisation (BeS; n = 86) and beryllium-exposed nondiseased controls (n = 173) using PCR with sequence-specific primers. Pulmonary function and bronchoalveolar lavage data were examined for associations with genotypes.
There were no significant differences in genotype and allele frequency between CBD, BeS individuals and controls. In CBD, associations were found with decline in forced expiratory volume in 1 s and forced vital capacity and the CCR5 -3458 thymidine (T)T genotype (p<0.0001), and an increase in alveolar–arterial oxygen tension difference at rest (p = 0.003) and at maximum exercise (p = 0.01) and the -5663 adenine allele. Increased bronchoalveolar lavage lymphocyte numbers were associated with CCR5 -2459 guanine/-2135T (p = 0.01) only in the combined CBD and BeS group.
This is the first study showing that CCR5 polymorphisms are associated with worsening pulmonary function over time in CBD, suggesting that CCR5 is important in the progression of pulmonary function in CBD. Further studies would be useful to clarify the mechanism whereby CCR5 polymorphisms affect progression of CBD.
- Broncholaveolar lavage
- CC chemokine receptor 5
- chronic beryllium disease
- lung function tests
- polymorphism
Beryllium exposure in the workplace triggers a beryllium-specific immune response in a minority of those exposed. Specifically, 2–10% of exposed workers develop beryllium sensitisation (BeS), with lymphocytes that proliferate in response to beryllium in the beryllium lymphocyte proliferation test (LPT) (BeLPT) 1, 2. Previous studies have shown that beryllium-stimulated T-cell proliferation is restricted to major histocompatibility complex class II 3. Subsequently, trafficking of immune and inflammatory cells is initiated along with cytokine production, resulting in granuloma formation, the hallmark of chronic beryllium disease (CBD).
The chemokines involved in granuloma formation in CBD are unknown. The CC chemokine receptor 5 (CCR5) gene (CCR5), located on chromosome 3p21 and adjacent to CCR2, is implicated in the chemotaxis and activation of leukocyte subsets, including CD4+ type-1 T-helper lymphocytes 4. CCR5 is polymorphic and some of the variants appear to be functional, although this is not well understood 5, 6.
Of relevance to CBD, an association between CCR5 polymorphisms and sarcoidosis was previously reported 7. Although an association between CCR5 polymorphisms and presence of disease in sarcoidosis compared to controls was not found, an association between a specific CCR5 haplotype (human haplogroup C (HHC)) and chest radiographic stage of disease was found. Others have reported an increased frequency of a CCR5 32-bp deletion mutation (δ32) in sarcoidosis 8. This may suggest that CCR5 polymorphisms are a risk factor for disease or disease severity in granulomatous lung diseases.
An increase in CCR5 expression has been reported on bronchoalveolar lavage (BAL) cells in sarcoidosis 9–11. There are no reports of an association between CCR5 polymorphisms and CBD, which is histopathologically identical to sarcoidosis, sharing many of the clinical and radiographic features of sarcoidosis. Against this background, it was hypothesised that CCR5 polymorphisms and/or haplotypes would be associated with CBD and more severe forms of disease, but not with BeS, in which pulmonary granulomatous disease is absent. The aims of the present study were to: 1) assess the contribution of CCR5 polymorphisms and/or haplotypes as risk factors for CBD compared to BeS and beryllium-exposed nondiseased controls; 2) evaluate the association between these polymorphisms and severity markers in CBD; and 3) investigate the association between BAL cellularity and CCR5 polymorphisms and/or haplotypes, in order to determine whether or not there is a functional association between CCR5 polymorphisms and CBD.
METHODS
Study design
A case–control study was conducted that compared Caucasian subjects with CBD (n = 88) and BeS (n = 86) and subjects with beryllium exposure without evidence of sensitisation or disease (controls; n = 173) in order to evaluate CCR5 polymorphisms and their association with CBD. Only Caucasian cases and controls were utilised in order to limit population stratification, as the number of non-Caucasians (e.g. black Americans, Asians, etc.) was too small to permit meaningful analysis. A case comparison study was used to evaluate CCR5 polymorphisms and disease severity in CBD. Cases were enrolled from the clinic at National Jewish Health (Denver, CO, USA). Cases of CBD and BeS had evidence of two abnormal blood BeLPTs. If the cases showed evidence of either noncaseating granulomas or a mononuclear cell infiltrate on lung biopsy, or BAL cell lymphocytosis of ≥15% and an abnormal BAL cell LPT on bronchoscopy, they were diagnosed as having CBD. If they showed no evidence of these abnormalities, they were diagnosed as having BeS. Controls were undergoing medical surveillance in the same beryllium industries as cases 12–14, and had undergone at least one normal BeLPT. Study subjects provided informed consent according to a protocol approved by the Institutional Review Board at National Jewish Health.
Cases of CBD and BeS underwent venepuncture, a BeLPT, pre-and post-bronchodilator pulmonary function testing and maximum exercise testing with an indwelling arterial line during initial (baseline) and subsequent clinical evaluations 15. These data were obtained in the Pulmonary Physiology Unit at National Jewish Health using the same clinical protocols over time on the same equipment. Post-bronchodilator pulmonary function variables were used for analysis. Bronchoscopy with BAL, transbronchial biopsy and BAL LPTs were performed for clinical purposes 15. Control subjects underwent venepuncture and BeLPTs. All subjects completed a modified version of the American Thoracic Society questionnaire 15.
CCR5 genotypes
Genomic DNA was extracted from whole blood using the PAXgene kit (Qiagen, Inc., Valencia, CA, USA). PCR with sequence-specific primers 16, 17 was used to identify eight CCR5 single nucleotide polymorphisms (SNPs): -5663 adenine (A)/guanine (G) (SNP identifier rs2040388), -3900 cytosine (C)/A (rs2856757), -3458 thymidine (T)/G (rs2734225), -2459G/A (rs1799987), -2135T/C (rs1799988), -2086A/G (rs1800023), -1835C/T (rs1800024), and δ32, which had been investigated in a previous study on sarcoidosis 7.
Data analysis
All genotype frequencies were tested for Hardy–Weinberg equilibrium using Chi-squared goodness-of-fit tests. Normalising transformations were performed on continuous outcome variables when necessary to better approximate model assumptions; these data are expressed as geometric mean±geometric sd (gsd). Measures of linkage disequilibrium, the normalised disequilibrium constant (D’) and r2, were calculated using Haploview (Whitehead Institute for Biomedical Research, Cambridge, MA, USA). Haplotype blocks were determined with Haploview using the confidence interval (CI) method 18. Haplotype frequencies were estimated using Haplo.Score 19. In order to adjust for uncertainty in haplotype assignments, weighted logistic regression models were used to assess associations with disease and disease severity. Comparisons were made when sufficient numbers of observed haplotypes were available. Linear regression was used to determine the influence of genotype/haplotype on cross-sectional continuous outcomes. Mixed-effects models were used to assess longitudinal outcomes and to estimate effects based on different numbers of follow-up visits and different timings of the visits. Age at testing, sex, smoking history, height and time from first beryllium exposure were included in the model, along with the genotype/haplotype and forced expiratory volume in 1 s (FEV1), forced vital capacity (FVC), total lung capacity (TLC), diffusing capacity of the lung for carbon monoxide uncorrected for haemoglobin (DL,CO,uncor), arterial oxygen tension at rest (Pa,O2,r) and during maximal exercise (Pa,O2,max), alveolar–arterial oxygen tension difference at rest (PA–a,O2,r) and during maximal exercise (PA–a,O2,max), and workload at maximal exercise (Wmax). The variable time from first exposure to visit date was restricted to visits ranging 10–40 yrs from first exposure, since there were few visits outside this range from which to make estimates. In order to avoid effects of corticosteroids on the severity of CBD, all subjects’ data were included until commencement of corticosteroid use. No adjustment was made for multiple comparisons since this adjustment is too conservative, with the high correlation of outcomes. Statistical analysis was performed using Knowledge STUDIO (Angoss Software Corporation, Toronto, Canada) or SAS software version 9.1 (SAS Institute, Inc., Cary, NC, USA). All tests were two sided and a p-value of <0.05 was used to determine significance.
RESULTS
Demographic information
There were no significant sex differences between the three study groups. The control subjects (60.5±11.0 yrs) were older than both the CBD (54.1±10.8 yrs) and BeS subjects (53.5±12.0 yrs) (p<0.0001). Ever-smoking was not significantly different across the groups. In the CBD group, 18 (20.5%) patients had received corticosteroids. The BeS subjects and controls were not treated with corticosteroids.
CCR5 polymorphisms
CCR5 promoter polymorphisms were compared across groups, as summarised in table 1. All populations were in Hardy–Weinberg equilibrium for all genotypes. CCR5 -2459A/G and -2135C/T were in 100% linkage disequilibrium (D’ = 1). CCR5 -3900A (odds ratio (OR) 0.35; 95% CI 0.14–0.84; p = 0.03), -3458G (OR 0.29; 95% CI 0.11–0.78; p = 0.02) and -2459A/-2135C (OR 0.39; 95% CI 0.18–0.86; p = 0.03) were decreased in CBD compared to BeS. However, no significant differences were found between CBD and controls, nor between BeS and controls. Consistent with the allele frequencies, similar differences were found between CBD and BeS when comparing the genotypes at the same three positions (table 1). No other associations were found between any of the other CCR5 polymorphisms and disease.
The haplotype comprising the -5663/-3900/-3458/-2459/-2135/-2086 SNPs was identified using the CI method in Haploview (fig. 1). Table 2 shows the frequency of common (>1%) CCR5 haplotypes. There were no significant differences in CCR5 haplotype between the three groups.
Longitudinal analysis of disease severity in CBD
Mixed-effects models were used to fit lung function measurements from clinical visits, including FEV1, FVC, TLC, DL,CO,uncor, Pa,O2,r, Pa,O2,max, PA–a,O2,r, PA–a,O2,max and Wmax, and covariates, as noted above, along with CCR5 variants. The mean number of visits was 3.96, with a maximum of 15. The first visit was, on average, 18.1±8.2 yrs from first exposure and the last visit, on average, 27.2±8.8 yrs. Tables 3 and 4 show the mean rates of change in these variables over time in relation to the CCR5 genotypes of interest, adjusting for age at testing, sex, smoking history, height and time from first beryllium exposure.
On average, CBD subjects homozygous for -5663A showed a significantly greater decrease in FEV1 over time (p = 0.01) than did nonhomozygous subjects (fig. 2a). Carriers of the A allele also showed a greater decline in FEV1 than noncarriers (p = 0.001) (table 3). A similar trend was seen with these same alleles in relation to FVC. Carriers of the -5663A allele showed a greater decline in Pa,O2,r (p = 0.01), as well as an increase in log PA–a,O2,r (p = 0.003) and log PA–a,O2,max (p = 0.01), than did the noncarriers (table 4). Subjects homozygous for the -3900C allele exhibited greater FEV1 (p = 0.0002) and FVC decline (p<0.0001) and a greater increase in log PA–a,O2,r (p = 0.04) than noncarriers (tables 3 and 4). Subjects homozygous for -3458T showed greater FEV1 (p<0.0001) and FVC declines (p<0.0001) than nonhomozygous subjects. Those homozygous for -2459G/-2135T (the two loci in complete linkage disequilibrium) exhibited lower FEV1 (p = 0.04) and FVCs (p = 0.02) than nonhomozygous subjects. Subjects with at least one δ32 allele showed lower FEV1 (p = 0.002) and FVCs (p = 0.008) than noncarriers.
The impact of CCR5 haplotype on change in lung function over time was evaluated and similar results were noted (tables 3 and 4). Carriers of haplotype 1 (-5663G/-3900A/-3458G/-2459A/-2135C/-2086A) showed a lesser decline in FEV1 (p<0.0001), FVC (p = 0.0004) (fig. 2b), TLC (p = 0.01) and Pa,O2,r (p = 0.01) (fig. 2c) than did noncarriers. Carriers of haplotype 2 (-5663A/-3900C/-3458T/-2459G/-2135T/-2086G) demonstrated increasing log PA–a,O2,r (p = 0.03) and log PA–a,O2,max (p = 0.01) and a greater decline in FEV1 (p = 0.005) over time than noncarriers.
CCR5 polymorphisms and BAL lymphocytes
Comparisons were made between BAL differential cell counts at the first and last visits to clinic of 88 CBD and 78 BeS subjects. There were significant differences between geometric mean±gsd lymphocyte percentages in BAL from CBD (24.3±2.35%; n = 88) compared with BeS (9.3±2.24%; n = 78; p<0.0001) at the first visit to clinic, and for CBD (28.0±1.87%; n = 51) compared with BeS (7.0±0.22%; n = 47; p<0.0001) at the last visit.
The relationship between BAL lymphocyte percentage and CCR5 polymorphisms was evaluated, comparing the CCR5 polymorphisms, haplotypes and BAL lymphocyte percentages in CBD and BeS combined at the first visit to clinic (table 5). The percentage of BAL lymphocytes was significantly increased in individuals carrying the CCR5 polymorphisms -2459G/-2135T (17.99±2.53%; n = 104) compared with noncarriers (12.30±2.64%; n = 62; p = 0.01). Other CCR5 polymorphism associations were found with both increased and decreased numbers of lymphocytes for CBD and BeS subjects combined. When subjects with CBD and BeS were analysed separately, far fewer associations were demonstrated, although similar trends were apparent (table 1 of online supplementary material).
There was a significant difference in mean BAL lymphocyte percentage between carriers and noncarriers of haplotype 1 in the combined CBD and BeS group (p = 0.009) (table 5), with noncarriers of this haplotype showing higher lymphocyte percentages. This haplotype includes all alleles that were associated with a lower BAL lymphocyte percentage (-5663G/-3900A/-3458G/-2459A/-2135C). Carriers of haplotype 2, which includes -2459A/-2135C, showed, on average, higher lymphocyte percentages than noncarriers of this haplotype in the combined CBD and BeS group. Similar, although nonsignificant, trends were seen in the BeS and CBD groups when analysed separately (table 1 of online supplementary material).
DISCUSSION
In the present study, the association between CCR5 polymorphisms in Caucasians with CBD and markers of disease severity is described. There were few significant differences in genotype, allele and haplotype frequency between either CBD or BeS and controls. Interestingly, a greater decline in lung function and worsening gas exchange was found in CBD cases carrying specific CCR5 polymorphisms and haplotypes. Associations were also shown between BAL lymphocyte percentages and CCR5 polymorphisms and haplotypes. Strikingly, these data support the fact that the same CCR5 polymorphisms associated with greater decline in CBD lung function are also associated with greater lymphocyte percentage in the lung. This suggests that CCR5 variants are functional, impacting lymphocyte recruitment into the CBD lung and, in turn, greater decline in lung function and worsening gas exchange.
This is the first study of CCR5 genotypes and haplotypes in CBD. Although the CCR5 -3900A, -3458G and -2459A/-2135C alleles were slightly decreased in CBD compared to BeS, no CCR5 polymorphisms or haplotype was significantly different between CBD and controls or BeS and controls. These findings suggest that CCR5 polymorphisms are not a risk factor for CBD. This is consistent with studies of sarcoidosis, a similar granulomatous lung disease of unknown aetiology. Although one study of Czech sarcoidosis cases found an increased rate of the δ32 variant in cases compared to controls 8, two studies in UK/Dutch and German populations found no association with any CCR5 genotype or haplotype, including δ32, and disease risk 7, 20. It should be noted that the frequencies of case and control genotypes reported in the present study are similar to those noted in these prior studies 7, 20.
In the current study, strong associations were found between changes in static lung function and measures of gas exchange and CCR5 polymorphisms in CBD. Specifically, the -5663AA, -3900CC, -3458TT and -2459GG/-2135TT homozygous genotypes and carriage of the δ32 allele were associated with a greater decline in FEV1 and FVC, whereas the -5663A and -3900C alleles were associated with worsening measures of gas exchange at rest and during exercise. No associations were noted between any genotype and DL,CO,uncor, which may be due to the variability in the measurement of this parameter. Interestingly, some of the genotypes associated with worse lung function over time were the same as those noted to be slightly increased in CBD compared to BeS (-3900CC, -3458TT and -2459GG/-2135TT); this overrepresentation of genotypes in CBD may be due to the association with a more severe disease phenotype in the present CBD population rather than disease susceptibility. Most of the genotypes associated with greater decline in lung function were included in haplotype 2 (-5663A/-3900C/-3458T/-2459G/-2135T/-2086G). Carriers of this haplotype showed a greater decline in FEV1 and increase in Pa,O2,r and Pa,O2,max.
The polymorphisms composing haplotype 2 in the current study are also represented in the HHC haplotype that was found to be overrepresented in higher sarcoidosis chest radiograph stages (stage II, III and IV) compared to lower stages (stage 0 and I) 7. Similarly, the sarcoidosis HHC haplotype carriers also showed significantly lower FEV1 and FVCs on presentation compared with non-HHC carriers 7. Conversely, the present CBD cases carrying -5663G/-3900A/-3458G/-2459A/-2135C/-2086A (haplotype 1) exhibited better lung function, with higher FEV1, FVC, TLC and Pa,O2,r than noncarriers. These results suggest that CCR5 variants may be important in granulomatous lung disease progression, as indicated by chest radiography in sarcoidosis, and lung function changes in both sarcoidosis and CBD. Although a second CCR5 sarcoidosis study by Fischer et al. 20 showed the CCR5 -5663A and -3900C alleles were increased in female patients with Löfgren’s syndrome, they did not assess lung function or radiographic stage. As a result, it is difficult to compare our studies with theirs.
In addition to associations between lung function and CCR5 genotypes/haplotypes, associations were noted between BAL lymphocyte percentages and these same CCR5 genotypes/haplotypes. Specifically, the BAL lymphocyte percentage was significantly increased in carriers of CCR5 -2459G/-2135T and haplotype 2 compared to noncarriers of these alleles. Conversely, carriers of CCR5 -5663G, -3900A, -3458G and -2459A/-2135C alleles and haplotype 1, containing all of these alleles, showed lower BAL lymphocyte percentages than noncarriers. It is possible that these data reflect functional alterations in CCR5 expression important in cell trafficking and cell-to-cell interactions. In this regard, CCR5 is expressed at high levels on CD4+ type-1 T-helper cells and may play a role in enhanced recruitment and activation of lymphocytes and monocytes to the lung and these cells’ subsequent immune response 21. It is possible that enhanced recruitment and activation of BAL lymphocytes may explain the association of the same CCR5 genotypes and haplotypes with more rapid disease progression.
Previously, Katchar et al. 10 reported a positive correlation between BAL lymphocyte percentages and the number of CCR5-expressing CD4+ BAL T-cells in sarcoidosis. Capelli et al. 22 reported that increased CCR5 expression was observed in both lymphocytes and macrophages from all sarcoidosis patients, along with a trend towards decreased positivity from stage I to III of disease. They also showed that CCR5 expression was significantly reduced in lymphocytes from idiopathic pulmonary fibrosis compared to controls 9. However, there have been no studies to date evaluating the association between CCR5 expression on BAL cells and CCR5 genotypes or haplotypes in sarcoidosis or other lung disease, including CBD.
The functional correlates of most of the CCR5 polymorphisms are unknown, except for the δ32 deletion. Homozygosity for this 32-bp deletion results in truncation of the protein, meaning it lacks the transmembrane domain and thus cannot be expressed on the cell surface 23. The CCR5 promoter polymorphism -2459G/A has been investigated primarily in HIV infection 6, 24–26. Interestingly, the CCR5 −2459AA genotype has been associated with overexpression of CCR5 and HIV progression 6, 25. This is discordant with the present findings. In order to clarify the discrepancy of associations with this CCR5 -2459 G/A polymorphism between CBD and HIV infection, functional assay of CCR5 expression in CBD patients is needed, but such experiments are beyond the scope of the current study.
Although use of Bonferroni adjustment of the p-values for multiple comparisons made in the longitudinal analyses was considered, we chose not to do this as it would have been too conservative. That is to say, with the consistency of the correlations in the outcome variables, and the correlation between these variables, the Bonferroni adjustment would have overadjusted the present p-values. If only one or two significant associations had been found, these associations could have been discounted as possibly being due to chance alone because of the multiple comparisons undertaken in the present analysis. However, there were many associations found between disease severity indicators and CCR5 polymorphisms that all showed consistent direction, which supports our not using Bonferroni correction.
In summary, this is the first study to report associations between CCR5 polymorphisms and CBD. Although no overall association between CCR5 polymorphisms and either CBD or BeS was found, associations between worsening change in lung function and CCR5 polymorphisms and CCR5 haplotype 2 were found in CBD. Furthermore, the same variants were shown to be associated with increased BAL lymphocyte percentage, supporting the concept of a functional consequence of this genotype in CBD. Further studies are needed in order to show how these alterations in BAL effected worsening functional changes.
Acknowledgments
We would like to acknowledge the following for their contributions to the present work: G. Mondello for technical assistance; P. Mroz for helpful discussion; and C. Rodriguez for administrative support (all National Jewish Health, Denver, CO, USA); and, most importantly, the workers and patients who participate in these studies and make beryllium-related research possible.
Footnotes
Support Statement
This study was supported by P01 ES11810 from the National Institutes of Health (NIH; Bethesda, MD, USA), in part by University of Colorado Clinical and Translational Science Award grant 1 UL1 RR025780 from the NIH and National Center for Research Resources (Bethesda, MD, USA), and by the Asmarley Trust (London, UK).
Statement of Interest
None declared.
↵This article has supplementary material accessible from www.erj.ersjournals.com
- Received July 10, 2009.
- Accepted December 22, 2009.
- ©ERS 2010