MTHFR, XRCC1 and OGG1 genetic polymorphisms in breast cancer: a case-control study in a population from North Sardinia

Breast cancer (BC) is the most common malignancy and remains the main cause of cancer-related deaths in women worldwide [1]. Although mechanisms of breast carcinogenesis have not been completely elucidated, it is known that genetic factors can interact with numerous environmental factors thus determining an overall individual susceptibility. The study of BC susceptibility in isolated populations - where evolutionary forces and genetic features might have amplified the effect of specific risk alleles - offers the opportunity to shed further light on the pivotal role of genetic alterations in the occurrence of cancer. In such a context, the Mediterranean island of Sardinia shows a unique high incidence of several diseases with monogenic and multifactorial inheritance [2‐4] and represents an important case-study population for human geneticists interested in inferring the complex mapping of traits and diseases. The relatively homogeneous genetic composition reported for Sardinian population has shown to be useful in depicting genetic factors of predisposition to BC [5‐7]. A gap in BC incidence is observed in Italy between areas in northern Italy compared to central and southern areas; Sardinia shows the highest incidence rate (134,4 new cases/100.000 inhabitants) among southern regions, and the lowest among areas in northern Italy [8]. Here we reported a pilot case-control study carried out on a cohort of 135 northern Sardinian BC patients and 112 healthy controls, who were genotyped for polymorphisms in three restriction length molecular markers with frequency in Sardinian population > 5%. Specifically, the present study aimed to evaluate the role as risk factors of five genetic variants in three genes involved in methylation and DNA synthesis and in DNA repair mechanisms: the Methylenetetrahydrofolate reductase gene (MTHFR), the x-ray repair cross-complementing group 1 gene (XRCC1) and the 8-Oxoguanine glycosylase gene (OGG1). We also proposed to evaluate the possible association between these Single nucleotides polymorphisms (SNPs) of these genes and the main clinicopathological features.

The MTHFR is a key enzyme in the folate metabolic pathway and catalyses the conversion of 5,10-methylenetetrahydrofolate to 5-methyltetrahydrofolate, which is the circulating form of folate and the methyl donor in biological processes including methylation of proteins and nucleic acids. Furthermore, MTHFR plays an essential role in de novo synthesis of purines and pyrimidine nucleoside, but also in DNA biosynthesis, repair and maintenance of DNA stability. Two common polymorphisms in the MTHFR gene, C677T-rs1801133 and A1298C-rs1801131, have been associated with decreased enzyme activity and increased levels of plasma homocysteine [9‐11]. The C677T allelic variant involves a cytosine to thymine substitution at position 677, a consequence of transformation from an alanine to a valine at codon 222 in the N-terminal catalytic domain, and it is correlated with increased thermolability and reduced enzyme activity. The A1298C allelic variant results into the change from a glutamic acid to alanine residue at codon 429 in the C-terminal regulatory domain of the protein but the reduction in enzymatic activity remains still controversial. Public eQTL data (GTEX catalog, release V8, accessed 26 Nov 2019), show that the rs1801133 minor allele causes a decreased expression of MTHFR gene in skin cells and cultured fibroblasts, while the minor allele of rs1801131 is associated with higher expression of the gene in many different tissues. However, an evident linkage between the polymorphic variants of the MTHFR gene and the increased risk of BC has not been clearly established. Functional relevance of rs1801133 has been confirmed by GWAS data about regulation of serum folate levels [https://​www.​ebi.​ac.​uk/​gwas/​variants/​rs1801133] and other haematological traits (https://​genetics.​opentargets.​org/​variant/​1_​11796321_​G_​A), as supported by studies about high-altitude adaptation in Tibetans [www.​ncbi.​nlm.​nih.​gov/​pubmed/​28373541]; rs1801131 is associated with pressure related traits and hypertension (https://​genetics.​opentargets.​org/​variant/​1_​11794419_​T_​G).

The XRCC1 gene is located on chromosome 19q13.2 and contains 17 exons that encodes a 70 kDa protein consisting of 633 amino acids. Shen et al. [12] have identified two polymorphisms resulting in nonconservative amino acid substitution variants in the XRCC1 gene. In this study C → T substitution at codon 194 in exon 6 (Arg to Trp, rs1799782) and G → A substitution at codon 399 in exon 10 (Arg to Gln, rs25487) were analysed. The Arg194Trp polymorphism is close to a modified residue (phosphothreonine in position 198), and it is located in the linker region between the NH2-terminal domain and the BRCT1 (BRCA1 C-terminus) domain (positions 315–403); the Arg399Gln polymorphism occurs in important biologically interaction domains with PARP (poly ADP-ribose polymerase). The Trp derived allele has been associated with an increased Base Excision Repair (BER) activity, while the 399Gln allele with its reduction [13]. Public eQTL data show that the effect of rs25487 on the expression of XRCC1 is strictly tissue dependent, showing instead for example opposite effects of the minor allele in nerve tibial cells and testis derived cells; the rs1799782 minor allele causes a minor gene expression in thyroid cells.

OGG1 gene, which is located on chromosome 3p26.2 and also involved in BER, encodes a DNA glycosylase and apurinic/apyrimidinic lyase activities to excise 8-oxoguanine (8-OH-G), a mutagenic base which occurs as a result of Reactive oxigen species (ROS) exposure. Ser326Cys in exon 7 (rs1052133) is the most frequent and most studied polymorphism in the OGG1 gene. Amino acid replacement of serine with cysteine causes a reduced OGG1 DNA repair activity [14]. The effect on gene activity is confirmed by eQTL data, with the minor allele being associated with lower expression of OGG1.

These polymorphisms have been previously correlated with various cancer types [15‐20] and differences in their allelic variant effects have been reported for different ethnic groups [21]. However, they have never been investigated so far within the Sardinian population with the scope to find, if any, a possible evident correlation between polymorphisms occurrence and BC risk, clinicopathological traits and lifestyle exposures.

BC is a complex and heterogeneous disease in which many genetic factors and lifestyle-related factors are combined, resulting into a multifactorial aetiology. Through the questionnaires we aimed to investigate the various risk factors and the effects of changes in lifestyle on mammary carcinogenesis.

In our study no significant differences between BC patients and controls were found in regards with hormonal-reproductive factors. However, the stratification in age groups of the menarche onset and the duration of oral contraceptive use shows a tendency towards an increased risk in the case of early onset of menarche and prolonged use of oral contraceptives, respectively. Similarly, a slight trend is observed for the average age of menopause and hormone replacement therapy regimen, while in our sample parity and breastfed are not aligned with most of the results in the literature [29‐32]. Furthermore, our case-control study has confirmed that increase in BMI, the previous onset of benign lesions and genetic factors determining a high familiarity of BC and other tumors act as strong risk factors.

Several strong epidemiological and clinical studies support the correlation between mammary tumorigenesis, tumour progression and obesity. The main mechanisms underlying this link are capacity of conversion of androgenic precursors to estrogen through peripheral aromatization in adipose tissue, the alteration of physiological levels of insulin, insulin-like growth factor (IGF), adipokines, changes in the adipose tissue microenvironment and chronic low-grade inflammation [33‐38]. Juarez-Cruz JC et al. [39] have recently shown that the leptin, a hormone secreted by adipocytes, through the FAK and Src kinases activation, contributes to BC progression. Physical activity is closely related to obesity. A meta-analysis study investigating the relationship with BC risk showed a 20% reduction if physical activity is performed in adolescence and within 24 years old [40], by delaying the onset of menarche and reducing the bioavailable hormones levels [41]. Our study has significantly confirmed these data in relation to obesity and physical activity.

In our case-control study we found a significant increase in the frequency of alcoholic drink intake in affected women compared to controls (daily-often 22.96% against 11.61 p = 0.03 respectively), even though quantity was not evaluated. Over 100 studies support a positive association between alcohol consumption and BC risk in all age groups. Alcohol increases the risk of BC in a dose-dependent manner, but unfortunately the awareness of alcohol as a risk factor is low as well as the ability of women to estimate the amount of alcohol contained in the drinks taken daily. It is clear that information campaigns are needed on this topic and other modifiable risk factors [42]. No difference was found between the two groups for what concerns fruit and vegetables intake.

Our findings revealed that affected women are strong smokers, in fact 32.35% of them have a packs/year value≥20 compared to 21.43% in controls. In addition, a strong impact of exposure to passive smoking emerged, in agreement with other studies that showed that exposure to passive smoking contributes to an increased risk in particular of Er+/PgR+ BC [43]. Finally, 31.85% BC women compared to 16.07% of controls, reported having come into contact throughout their lifetime with chemicals such as paints, solvents, pesticides, herbicides, environmental pollutants, textile industry products, etc.

Often the questionnaire procedure can produce selection bias that can, however, be minimized when the study is appropriately conducted. All women participating to our study completed the questionnaire after receiving the necessary information from the same operator. In completing the questionnaire regarding lifestyle, the participants were invited to consider the widest possible time span and not their conduct in the period close to enrolment. We noticed that many women tended to minimize, perhaps for cultural reasons, some factors such as alcohol consumption, the use of oral contraceptive and other avoidable factors, whose role in cancerogenesis is known, as the excessive introduction of foods such as cold cuts, red meat, dessert. Therefore, we believe that these data could be underestimated. On the contrary, the affected women showed excessive attention and evaluation towards possible contacts with chemicals.

In addition to identifying mutations in predisposition genes, several studies have been carried out on the association of gene polymorphisms involved in various cellular processes, with the risk and clinicopathological features of BC. Accordingly, we have investigated if some SNPs of MTHFR, XRCC1 and OGG1 genes affect the pathogenesis in a cohort of Northern Sardinian BC patients and healthy controls.

It is known that folate plays a crucial role in regulating DNA repair and DNA methylation. The MTHFR enzyme belongs to a complicated metabolic pathway which also involves other enzymes such as methionine synthase (MTR), methionine synthase reductase (MTRR). It is biologically plausible that genetic polymorphism of these genes altering the pool of methyl group level can have effects on DNA synthesis, repair and methylation, consequent gene instability and cancer development. MTHFR wild-type C genotype can lead to an increased risk due to aberrant DNA methylation leading to activation of proto-oncogenes by hypomethylation of their promoter region and transcriptional silencing of tumor suppressor genes in case of hypermethylation of CpG islands. While the allelic T variant leads to high plasma levels of homocysteine that influences DNA methylation and can lead to changes in the availability of nucleotides for DNA synthesis and repair [44, 45] due to folate-dependent reactions. Balance in these extremely complex processes is therefore strongly influenced not only by gene polymorphisms, but also by the amount of folates introduced through diet, and other factors, including alcohol consumption, and by currently well-known ethnic differences and variable genetic background. For this reason, literature findings show controversial data [46] especially for rs1801133: on the one hand the TT genotype is associated to an increased cancer risk [47‐53] on the other hand a relatively large number of studies support a null or protective effect [54‐58]. In agreement with the latter, our results have shown that the CT allele of MTHFR-rs1801133 is associated with lower risk of BC in the codominant model, while no significant difference was found for the rs1801131 polymorphism in any model examined.

Our study compared to the previous one [23], with the study groups carefully selected regarding ethnicity, greater sample size and with a control group without the auto-selection bias, showed no evidence of association between the MTHFR-rs1801133 and rs1801131 and the clinicopathological variables.

Regarding lifestyle variables, some authors report an association between MTHFR polymorphisms and some lifestyle approaches such as cigarette smoking status, alcohol intake or high or low folate introduction through diet [59‐62]. It is known that cigarette smoking is a major preventable risk factor for lung cancer but also for many other cancers including BC, being able to interfere and modify genetic and epigenetic pathways and the expression of many proinflammatory interleukins [63]. The association between alcohol intake and the risk of developing BC in pre- and postmenopausal women has been demonstrated. Alcohol can act indirectly through the mutagenic and promoting action of its first metabolite acetaldehyde, also by increasing the level of estrogen, causing alterations of the immune system and finally causing nutritional deficiencies including folate and other vitamins [64]. We did not find any significant evidence of interaction between the polymorphisms analyzed and these lifestyles approaches.

It is clear how complex is the study of the relationships existing between genetic factors (we cannot exclude the still unknown interaction with other genes) and lifestyle, especially as regards the folate and alcohol introduction, and higher BC susceptibility. This leads to the conflicting results existing in the literature that can be minimized, within the same population, if the studies are conducted with standardized and rigorous criteria.

It is well-known that gene alterations in components of DNA repair systems, deriving from cumulative exogenous and endogenous mutagens, play a key-role in abnormal growth and malignant transformation. Some common polymorphisms in the gene repair systems may influence the ability of repairing damaged DNA and could be involved in carcinogenesis and tumour progression. The XRCC1 protein plays a central role in BER system, which is responsible for the repair of single-strand DNA break resulting from exposure to X-rays, ROS and alkylating agents [65]. XRCC1 protein acts as a scaffolding protein interacting with 8-oxoguanine DNA glycosylase, DNA ligase III, DNA polymerase β, and poly (ADP-ribose) polymerase at the site of damaged DNA.

In our study no association with the risk of BC was demonstrated for XRCC1-rs1799782 (Arg to Trp) and rs25487 (Arg to Gln). The distribution of Arg194Trp and Arg399Gln polymorphisms are significantly influenced by ethnicity: the frequency of the Trp allele is higher in Asian populations than in African and Caucasian populations [66]. Furthermore, it has been observed that patients with the Arg/Arg genotype exhibited significantly higher levels of chromosomal breaks than those with the Trp allele [67]. While the Gln allele of rs25487 leads to a reduction in BER DNA repair activity [24]. Also in this case, the results about the frequency of genotypes of XRCC1-rs1799782 (Arg to Trp) and rs25487 (Arg to Gln) and the BC susceptibility are contrasting [21, 68‐77]. In our study, the XRCC1-rs25487 polymorphism is nominally associated with family history of BC in two genetic models. In particular, the G/A genotype is significantly associated with sporadic cases in both codominant and overdominant models. Most BC are sporadic forms, which develop in the general population in the absence of familiarity and are mainly related to the action of sex hormones and environmental factors such as smoking, alcohol and nutrition. The transformation into a malignant phenotype depends on the accumulation of random genetic mutations in somatic cells. Such mutations often appear and are/or stabilized during cellular division. The hormones can modulate the growth control mechanisms, cell division frequency, differentiation and, in this way, have the possibility of favoring the onset and accumulation of random genetic errors. In this context, the association we observed, causing as reported a reduction in BER activity, could determine a greater susceptibility to transformation from chemical carcinogens in the mammary gland.

The OGG1 gene, another component of the BER pathway, is a key enzyme which removes 8-oxoguanine considered as a marker of oxidative stress and highly mutagenic. Our study shows an association between the OGG1-rs1052133: the GG (Cys) genotype frequency revealed, indeed a nominal association with lower risk of BC in the recessive model, thus exercising a protective role in BC. In the literature, many functional studies suggest that the 326Cys allele is associated with the reduced DNA repair activity and may contribute to mammary carcinogenesis [78, 79] and other types of cancer [80‐82]. However, some studies report conflicting results [74, 83‐86]. Weiguang et al. [78] in a meta-analysis study, suggested that the OGG1 Ser326Cys polymorphism is significantly associated with BC in both premenopausal and postmenopausal European women and the 326Cys allele play a protective role in BC carcinogenesis. Synowiec et al. [84] studied the association of polymorphisms of some DNA repair genes with BC by the modulation of the cellular response to oxidative stress. They also observed a protective effect of some genotypes, including the OGG1 Cys allele, against BC occurrence.

This missense variant has been shown to influence the expression level of TTLL3 (Tubulin Tyrosine Ligase Like 3) and OGG1; more in details, [https://​gtexportal.​org/​home/​snp/​rs1052133], CC genotype is associated with lower mRNA expression of TTLL3 in transformed fibroblasts (p = 7.4e-8) and tibial artery (p = 0.0000034), and with lower expression of OGG1 in transformed fibroblasts (p = 0.000035) [87]. Several previous studies have assessed the role of the OGG1 polymorphism rs1052133 in human tumors. A statistically significant association was observed between the genotype distribution of rs1052133 and chronic myelogenous leukaemia patients in an African population [88]. The same polymorphism has been nominally associated also with the risk of squamous cell carcinomas of the head and neck (SCCHN) among north Indians [89]; in the same study, the mutant (G) allele has been proposed to be a protective factor for SCCHN among north Indian subpopulations. Furthermore, OGG1-rs1052133 polymorphism has been implicated in the pathogenesis of nasopharyngeal carcinoma (NPC), especially among women: genotype GG at rs1052133 was associated with significantly lower NPC risk than genotypes GC + CC OR: 0.770, 95% CI: 0.595–0.996, p = 0.012) [90].

Regarding the clinical features, only the OGG1-rs1052133 polymorphism is associated at the nominal level with PgR-status: G allele is significantly more frequent among PgR- cases. Furthermore, it is significantly associated with Her2 status, being more frequent among Her2+ cases. This suggests an association between the G allele and the molecular subtype PgR- and Her2 overexpressing BC in our cohort. Amplification or overexpression of Her-2 occurs in approximately 15–30% of BC. Ali K. et al. [91] in a meta-analysis study showed higher OGG1 mutation frequencies in association with IDC, ER-, PgR-, and HER-2/neu status and other clinicopathological features in Pakistani populations and worldwide.

Our results suggest a possible association between CT genotype in the MTHFR-rs1801133 and the GG genotype in the OGG1-rs1052133 and a decreasing BC risk in the Northern Sardinia population. Furthermore, some interesting associations were found between some allelic variants and clinical features. However, we believe that latter data should be taken with caution because of the reduction in the sample size that subdivision into sub-categories involves.

Due to its relatively homogeneous genetic composition, the Mediterranean island of Sardinia represents an interesting population for inferring the genetic risk factors in complex diseases such as BC. Here we reported a pilot case-control study carried out on a cohort of Northern Sardinia BC patients and healthy controls, aimed to evaluate the disease risk of genetic variants in three genes involved in DNA methylation and repair mechanisms. Mutational analyses and gene expression profiles allowed us to establish that BC is a complex and heterogeneous disease with marked characteristics of biological variability and response to treatments determined by an equally complex network of aetiological factors. Therefore, it is clear that several studies with larger sample size are warranted both on our and on other ethnic groups to validate the risk factors and to clarify the complex relationships between different genes and their interaction with environmental factors in BC risk and disease progression. Overall, even if our findings should be treated with caution because of the relatively small sample size and heterogeneity, they might be helpful in early detection of BC through identification of population at risk in light of the growing need of decision tools for personalized medicine.