Fibromyalgia (FM) is a complex, chronic condition, which causes widespread musculoskeletal pain, fatigue and a variety of other symptoms. Many polymorphisms related to neuroendocrine system function as the ApoE isoforms, Val158Met polymorphism in COMT, as well as a 44 bp deletion located in 5-HTTLPR, have been studied. Other polymorphisms have been related to inflammatory response such as the 70 bp VNTR in IL-4 or to citokine levels. Furthermore, some studies focused on finding out new FM related SNPs, have been performed by genome wide association scan (GWAS). The target of this work was to study a possible linkage of a collagen type I polymorphism (COL1A1 rs180012 SNP) affecting bone mineralization, with fibromyalgia. Results obtained show a clear association of ss homozygous genotype with FM patients no dependent on bone mineralization.
Fibromyalgia (FM) is a complex, chronic condition, which causes widespread musculoskeletal pain, fatigue and a variety of other symptoms such as sleep disturbance, headache and variable degrees of anxiety and depression [
The main symptom in FM is musculoskeletal pain, suggesting a possible but unknown impairment or general collagen defect. In this sense, some studies about the collagen metabolism and structure in patients with FM have been carried out, showing structural alterations in skin [
In agreement with that, a polymorphism affecting the sp1 transcription factor binding site in the type I collagen α1 chain gene, (rs180012 in COL1A1) has been studied. It has been shown that one of the COL1A1 genotypes (ss) leads to a wrong packaging of the protein affecting bone mineralization [
Functional analysis has shown that s allele (g.2046G > T) of the Sp1-COL1A1 binding site polymorphism is associated with a higher rate of DNA-protein binding, leading to transcription increase, and enhancing levels of COL1A1 protein [
Taking all together, the aim of this study was to find out if the rs180012 polymorphism was associated to FM. In addition, a whole body Dual X-ray Absorciomoetry (DXA) test, which is considered the gold standard method to establish body composition parameters, was performed on a representative group of participants, in order to find out a potential association between this polymorphism and BMD values in FM.
Ethical clearance: The Research Ethics Committee of the Aragon Government (CEICA, Spain) accepted the protocol and each subject signed an informed consent according to the declaration of Helsinki before entering the study. Life style information was collected through personal interviews using structured questionnaires and followed by physical examination.
Patients group. Two hundred and thirteen women from the Association of Fibromyalgia and Chronic Fatigue Syndrome of Aragon (ASAFA) were recruited for our study. All of them had been diagnosed of FM, according to the ACR criteria, at least five years before the start of the study.
Control group. To compare with the patient group, one hundred and thirty six age-matched women were selected. None of them have reported pain episodes in the previous six months or was diagnosed from any pain related disease.
Genotyping. Peripheral blood samples were collected in 5 mL EDTA Vacutainer tubes. DNA was obtained following the standard procedure with some modifications. COL1A1 rs180012 SNP was genotyped by PCR and subsequent Sanger sequencing analysis. Primers used for the amplification were F-5’-TAACTTCTGGACTATTTGCGGACTTTTTGG-3’ and R-5’-GTCCAG CCCTCATCCTGGCC-3’ and Tm was 62˚C. Capillary sequencing was performed 96 well plates including water blanks and DNA samples with known genotypes to monitor quality control in a 3100 Avant sequencer (Applied Biosystems) following the manufacturer protocol.
Body composition measurements. A subgroup consisting of 27 patients and 24 controls was selected randomly to perform the body composition assessment. A dual-X-ray absorptiometry (DXA) scanner (QDR-Explorer, Hologic Corp., Software version 12.4, Waltham, MA, USA) was used to evaluate whole-body bone mineral content, BMC (g), and bone mineral density, BMD (g/cm2) as previously described [
Statistical analysis. Data are presented as mean ± SD. In case of quantitative variants, Kolmogorov-Smirnoff test was applied to test normality of the distribution, followed by Mann-Whitney U test, or Unpaired T-test. Significant differences were assumed when P ≤ 0.05. The genotypic distribution in controls and patients was calculated by contingency table analyses.
All statistical analysis were carried out with the statistical packages Stat View 5.0 © 1992-98 SAS Institute Inc.
All subjects, controls (age 52.5 ± 7.8) and patients (age 52.5 ± 7.8), were asked to fulfill a nutritional, medical, life habits and familial history questionnaire. No significant differences were found among the collected characterization data. Interestingly there was no significant differences in the amount of directed physical activity. In this sense and as expected all the patients were recruited from ASAFA, (association of FM patients) which promotes and organizes physical activities for its members.
Some basic anthropometric parameters were measured in both groups. The values were uniform and similar between populations, however significant differences were observed in weight and subsequently in body mass index (BMI), with patients presenting overweight, since BMI is over 25 (
Regarding the genetic study of the SP1 binding site polymorphism in COL1A1, we found a very strong correlation between the ss genotype and the patient group. Contingency table showed a strong correlation between the ss genotype and the FM group (χ2 = 27.57 with 1 DF and P < 0.0001) showing an accumulation of the ss genotype. When the contribution of the polymorphism genotypes to χ2 was examined, it could be appreciated that COL1A1 ss (χ2 contribution 13,521) was responsible for the high χ2. Furthermore, a post hoc analysis on the cell contribution to χ2 revealed that a significant deviation from the expected frequencies could be observed for the enhanced presence of COL1A1 ss allele in the patient group. On behave of these results, the allele frequencies of rs18002 were determined, showing a strong difference between control (S, p = 0.79; s, q = 0.21) and patient (S, p = 0.64; s, q = 0.36) population (
Finally, as shown in
Control | Patient | P | |
---|---|---|---|
Mean ± SD | Mean ± SD | ||
Hip per•. (cm)* | 97.92 ± 8.8 | 103.2 ± 12.1 | 0.16 |
Waist per•. (cm)* | 76.6 ± 9.8 | 83.42 ± 13.9 | 0.12 |
Weight (Kg)* | 61.08 ± 8.5 | 70.77 ± 14.9 | 0.004 |
Height (cm)† | 160.57 ± 6.3 | 157.9 ± 6.2 | 0.13 |
BMI (Kg/(m)2)† | 23.7 ± 3.08 | 28.4 ± 6.24 | 0.0005 |
•Per: Perimeter; *Mann-Whitney U test, K-S P < 0.05; †Unpaired T-test, K-S P > 0.05.
values between control and patient group. Moreover, no differences were observed when splitting these populations by the rs180012 genotypes.
FM is a common disorder in which musculoskeletal pain, stiffness and muscle fatigue appear as the main symptoms. Different studies have reported controversial results about possible defective muscle fibres [
Several authors studying osteoporosis and post-menopausal women have reported correlations between the rs180012 genotypes and BMD values. These studies showed association with bone density, fragility fractures [
In the current study, a strong association (p < 0.0001) between the s allele in the COL1A1 polymorphism studied and FM presence was found. The rs18002 SNP has been associated by several authors to an increase of the gene transcription and the subsequent increase in the corresponding protein rates. Subsequently, the imbalance produced between the collagen type 1 α1 and α2 chains would lead to a reduced bone mass and a deficiency in the bone strength in allele s carriers, what would affect their bone mineralization. Moreover, retrospective meta analysis showed that the carriage of the s allele is associated with low BMD [
Our study indicates no correlation between the genotype of the polymorphism in the first intron of the COL1A1 gene and the BMD values measured by DXA in the studied population, neither taking the whole population together, nor splitting it into controls and patients. However, a strong correlation was found when analyzing data referring to the rs180012 genotype. In the FM patient group, the ss genotype was highly represented, whereas no genotype showed correlation with the controls.
Previous studies have shown a diminished collagen type 1 metabolite rate in urine and a wrong packaging for this protein in skin samples when FM patients were studied [
The current study supports the above mentioned hypothesis as a strong correlation between FM and the ss genotype has been found, appearing as a possible mechanism determining a lower content of functional collagen in muscle. Very interestingly, sp1 is a widely present transcriptional factor with very specific and variable tissue, functional, epigenetic and multifactorial agents [
The authors want to thank all the patients and women in the control group for their participation in the study. The OTRI, Universidad de Zaragoza. Departamento de Ciencia, Tecnología y Universidad del Gobierno de Aragón (Grupos Consolidados B33) and FEDER Funding Program from the European Union. The CIBERER is an initiative of the ISCIII, and also ASAFA for supporting it and the staff from the HELENA project for their help with the DXA analyses.
Navarro-Vera, I., Casajús, J.A., López-Pérez, M.J. and Díez-Sánchez, C. (2018) Association of COL1A1 rs180012 SNP and Fibromyalgia Suggests the Implication of Collagen Structure in Musculoskeletal Pain. Advances in Bioscience and Biotechnology, 9, 83-89. https://doi.org/10.4236/abb.2018.92007