P-glycoprotein (P-gp) is a blood-brain barrier (BBB) transport protein that extracts endogenous (peptides, amino acids, steroid hormones, lipids, and phospholipids, among others) and exogenous substances (xenobiotics, including drugs) from the nervous system (CNS) into the blood in order to maintain brain homeostasis.1,2

P-gp is encoded by the ABCB1 gene, located on chromosome 7q21.12; several genetic variants can potentially alter P-gp function,3 with 3 being of particular interest due to their considerable interindividual and interethnic variability: C1236T (rs1128503), G2677T/A (rs2032582), and C3435T (rs1045642), whose CGC haplotype (1236/2677/3435) is most frequent in white and African populations, whereas the TTT haplotype is more frequent in Asian populations.3–6 Normally, P-gp function is gradually lost with age, predisposing to a range of diseases7; this process is more marked in carriers of certain P-gp genotypes.

ABCB1 is expressed in a wide range of immune cells, such as monocytes, dendritic cells, and T and B lymphocytes (including astroglial and microglial cells). P-gp mediates the flow of steroids, prostaglandins, and cytokines in reactive astrocytes involved in lesion formation and the inflammatory process in multiple sclerosis (MS), which indicates that the protein has an immunomodulatory function8,9; however, its action mechanism during the immune response is unknown.

Oxidative and inflammatory stress may cause alterations to the tight junctions of the BBB, which probably occurs in numerous neurodegenerative diseases.10 Alterations to the expression and function of P-gp in the BBB may contribute to the pathogenesis of such neuroinflammatory disorders as MS.8,9

Several variants of ABCB1 have been linked to diseases with an inflammatory component, such as epilepsy,11 cancer,12 neurodegenerative diseases7 (Alzheimer disease,13 Creutzfeldt-Jakob disease,14 Parkinson’s disease,15 etc7), and such autoimmune diseases as systemic lupus erythematosus, inflammatory bowel disease, hepatic cirrhosis, autoimmune thrombocytopaenia, and rheumatoid arthritis, in which they cause resistance to antineoplastic, antidepressant, and immunosuppressant drugs.16

Diseases affecting healthy myelin, generally due to metabolic disorders causing its destruction, are known as demyelinating diseases (DD). MS is a chronic, multifactorial, inflammatory, degenerative, demyelinating disease of the CNS, with both environmental and genetic factors playing an important role in susceptibility to the disease. MS is the most frequent DD (followed by neuromyelitis optica and optic neuritis, among others) and constitutes a significant cause of disability in young adults.17

The disease predominantly affects women, although male patients tend to develop more severe symptoms18,19; studies conducted in Asian populations have reported different treatment responses associated with ABCB1 genotype, in addition to high prevalence in women.16,20

This study aimed to determine how ABCB1 variants (C1236T, G2677T/A, and C3435T) and their haplotypes and combinations of genotypes are associated with and involved in DD.

We selected 199 unrelated patients with DDs (Table 1), including 104 with MS (relapsing-remitting, secondary progressive, or primary progressive), 43 with neuromyelitis optica, 37 with optic neuritis, and 15 with clinically isolated syndrome, attended at the demyelinating diseases clinic at the Instituto Nacional de Neurología y Neurocirugía Manuel Velasco Suárez in Mexico City (Mexico). Patients with family history of DD were excluded.

We also included 200 controls (129 women and 71 men) with no clinical evidence of neurological or autoimmune disease and no family history of DD, with a mean (standard deviation [SD]) age of 31.0 (10.3) years, from our centre’s DNA bank.

The study protocol was approved by the centre’s scientific and research ethics committees. All patients and controls were descendants of Mexican parents and grandparents. After obtaining informed consent, we collected blood samples for DNA extraction by the standard method.

Genotyping of the C1236T and C3435T variants was conducted with the polymerase chain reaction-restriction fragment length polymorphism method, as described by Cascorbi et al.21 Genotyping of the G2677T/A variant was conducted by Sanger sequencing with an ABI PRISM 3130 genetic analyser and oligonucleotides designed by Cascorbi et al.,21 using the ABI PRISM BigDye Terminator® v3.1 kit (Applied Biosystems; USA).

Haplotypes and combinations of genotypes are characterised in accordance with previous reports, following the sequence of the variants in coding DNA (1236/2677/3435),22,23 obtaining 54 combinations of genotypes.

Statistical analysis was performed using the SPSS statistics software, version 20 (SPSS Inc.; Chicago, IL, USA); the SNPStats tool was used to analyse haplotypes.24 Genotype and allele frequencies in the control group conformed to Hardy-Weinberg equilibrium. To determine differences between groups, we used the t test for parametric statistical analysis and logistic regression and the chi-square test for non-parametric statistics, and calculated odds ratios (OR) and 95% confidence intervals to determine the association with DD.

We also gathered the following clinical data on the patients with MS: age of onset of the first compatible symptom, Expanded Disability Status Scale25 (EDSS) scores at baseline (first consultation) and at the time of blood sample collection, and disease progression time (onset to sample collection), in order to calculate the mean annualised progression rate or progression index (PI: final EDSS/years of progression). Patients with all clinical forms of MS were included in a single group to preserve statistical power. We used linear regression analysis and the t test to analyse these variables as a function of ABCB1 genotype, combinations of genotypes, and haplotype. The threshold for statistical significance was set at P < .05.

We present clinical and demographic data (Table 1); genotype and allele frequencies; an association analysis of ABCB1 variants in patients and controls (Table 2); logistic regression models for ABCB1 genotypes and alleles (Table 3); an association analysis of patients and controls who were carriers and non-carriers of combinations of ABCB1 genotypes (Table 4); an association analysis of haplotypes in patients and controls (Table 5); and linear regression models of age of DD onset in carriers and non-carriers of ABCB1 variants (Table 6).

Several studies have reported that the combination of the C1236T, G2677T/A, and C3435T variants plays a key role in modifying the expression of ABCB1 and that the function of P-gp16 is associated with the development of disease,23 consequently influencing the response to treatment with substrates of P-gp.16

Vascular P-gp expression in the BBB is reduced in MS lesions: disappearance of this protein coincides with the presence of perivascular infiltrates of lymphocytes.9 This reduced function of P-gp during neuroinflammation may alter brain homeostasis and accelerate disease progression by exposing vulnerable CNS cells to damaging compounds.8,9

The different combinations of risk genotypes identified in this study (GGCC and GTTT) suggest that P-gp functions differently in men and women, supporting the theory that transport proteins are expressed differently in each sex and play an important role in drug distribution and in toxicity.26 The G2677T/A variant is known to cause an amino acid substitution (Ala893Ser/Thr), with Ser893 and Thr893, but not Ala893, being vulnerable to phosphorylation and glycosylation, altering the structural conformation, proper folding, degradation, trafficking, localisation, and function of P-gp26,27; on the other hand, the C1236T and C3435T variants cause conformational changes in mRNA that lead to instability and alter the half-life of P-gp.3,6 This influences the protein’s metabolism and elimination of toxic or carcinogenic substances due to intracellular accumulation of metabolites, cell damage, impaired apoptosis, deficient immune response, and development of cancer.12

The GT2677 genotype encodes the Ala/Ser893 phenotype; according to our results, only expression of G, translated as Ala893, is associated with risk, whereas expression of T, translated as Ser893, improves the function of P-gp in women. On the other hand, the GG2677 genotype in men produces the Ala/Ala893 phenotype; thus, the structure and function of P-gp is always altered, ultimately leading to increased risk of complications due to disease and deficient function of the protein. Our results for the progression index support this idea, as men who were carriers of the G2677 allele, the CCGGCC combination of genotypes, and the CGC haplotype presented the most severe disease.

Furthermore, the combination of G2677T/A and C3435T appears to induce variable release of the cytokines associated with these genotypes,1 which would affect the inflammatory process and the severity of DD.

The prognosis of DD is influenced by sex, with female sex considered a risk factor for developing MS,18 and by age of onset, which varies between sexes and influences disease characteristics and progression.18,28–30

Sex hormones may modulate the processes of inflammation, neurodegeneration, and neuronal repair involved in MS.18,19 Oestrogens and progesterone may increase levels of P-gp and act as substrates of this protein,31 whereas testosterone inhibits P-gp32 and increases oligodendrocyte vulnerability to excitotoxicity19; during MS relapses, testosterone levels decrease in women, but not in men.19 Thus, female sex is considered a good prognostic factor, as women often present less aggressive forms of MS. Likewise, male sex is associated with poorer prognosis, with men tending to present more severe symptoms.19 Our results support these findings, as the ABCB1 variants studied stratified both sexes: in both sexes, carriers of risk genotypes may present complications in terms of disease symptoms and treatment response, whereas carriers of protective genotypes may present better recovery and treatment response. This suggests that the function of P-gp and its interaction with sex hormones also depend on ABCB1 genotype. Our findings also indicate that age of onset is also affected by ABCB1 variants, confirming the importance of sex-specific variants of transport proteins in the study of DD.29,33

These results may be useful in treating these diseases, as late onset of treatment is usually less effective than earlier interventions; early treatment often even delays the conversion of clinically isolated syndrome to MS.34

The risk factors identified in this study (G2677, GG2677, CC3435, GGCC, and GTTT) have been considered predictive factors of the onset of cancer and autoimmune diseases in populations from China, Japan, and Spain, among other countries12,23,35–37; thus, they may be used as predictive markers for DD in Mexican patients. Allele and genotype frequencies in our sample were consistent with those previously reported in healthy Mexican populations38 and in Chinese, Japanese, and Russian populations.3,5,16,35,39

The GG2677 and CC3435 genotypes favour slow transportation of P-gp substrates in Asian and European populations,4,5,16,22,37,40 resulting in slower transportation of endogenous and exogenous substrates of P-gp, as reported by Cotte et al.40 in patients with MS under treatment with mitoxantrone. This indicates that carriers of these genotypes may develop toxic accumulation of these substrates, with a similar response to that observed in Asian populations, in which these combinations of genotypes have been shown to influence the pharmacokinetic properties of drugs transported by P-gp.5,22,37

The similarity between Mexican and Asian populations was confirmed by our results for the TTT, CGC, and TGC haplotypes in patients and controls (Table 5),5,16,22 with different frequencies from those reported in white and African populations.4–6 According to a study of a Chinese cohort of patients with autoimmune disease, the TTT haplotype was more common than TAT, and CAC was more frequent than CTC16; this was also the case in our sample (Table 5).

Several studies highlight the importance of analysing combinations of ABCB1 genotypes, which would be highly valuable for predicting P-gp activity,6,22 pharmacokinetics,22 treatment response,1,16,22,40 and association with disease. Our results are consistent with these findings, and lead us to consider that P-gp is involved in the physiological and pathological mechanisms of DD and also other autoimmune diseases,10 in which the CNS probably presents a sufficiently toxic environment to cause neurodegeneration, although further studies are needed. ABCB1 risk variants are probably present in patients whose DD may result from the accumulation of substances over a period of years,7 which may eventually damage cells expressing deficient P-gp due to stress and weakening of the BBB,10 with the immune response being activated in an attempt to repair this damage.30

The higher frequency of risk variants observed in patients with DD indicates that the function of P-gp in the CNS is affected by the combinations of ABCB1 variants; early genotyping may contribute to the indication of a suitable treatment according to each patient’s genotype, improving their health status.

These findings are even more important as they may constitute the basis for the development of protocols to identify patients at risk of DD and biomarkers assisting in early, accurate diagnosis; correlation of these biomarkers with clinical progression and response to disease-modifying therapies may enable personalised treatment and the extrapolation of findings from basic research to clinical practice with improved models for the diagnosis and treatment of DD.

The GGCC combination of genotypes in men and the GTTT combination in women may be associated with increased risk of developing DD; carriers of these genotypes may present toxic accumulation of P-gp substrates.

The TTT haplotype was the most frequent in our sample, with similar prevalence to that observed in Asian populations.

The G2677 allele of ABCB1 may differentially modulate age of onset of DD in men and women.

This study has received no specific funding from any public, commercial, or non-profit organisation.

The authors have no conflicts of interest to declare.