Scientific abstract
Background
Cervical cancer is the second most common cancer in women and each year about 440,000 new cases are diagnosed. Infection with the human papillomavirus (HPV) is the established major risk factor for this cancer, but only a small proportion of women with HPV infection and pre-invasive lesions progress to invasive cancer. Other factors determine whether HPV infection leads to invasive cervical cancer and these are likely to be associated with genetic modifications.
Methods
A cross-sectional study was carried out to examine the hypothesis that increasing severity of abnormality in cervical cells, from normal to invasive cancer, is associated with an increase in the promoter methylation of selected tumour suppressor genes. Additionally, it was hypothesised that gene methylation profile would associate with folate status.
A total of 308 women were recruited to the study, including women with a diagnosis of normal, low grade cervical abnormality (cervical intraepithelial neoplasia grades 1 and 2; CIN1 & 2), high grade abnormality (CIN 3), and invasive cancer.
Blood was collected for folate status measurements and for genotyping for the C677T polymorphism in MTHFR, and cervical cells were collected for measures of DNA methylation, and for testing of human papillomavirus (HPV) infection. Cervical biopsies were collected for diagnostic purposes.
Results
The prevalence of high risk HPV infection increased as histological classification became more severe (P < 0.001). Increasing severity of cervical abnormality was associated with a fall in folate status. Thus, women diagnosed with cervical intraepithelial neoplasia grades 1,2, or 3 or cancer had a significantly lower red cell folate status than those with normal cervical histology (P = 0.041, 0.046, 0.026, and 0.012 respectively).
Of great importance was the finding that red blood cell folate status was significantly lower in women with HR-HPV infection than those without (P = 0.031). There was no interaction between HR-HPV and histological grade. DNA global hypomethylation was greater in women with invasive cancer than for any other group (P <0.001), but showed no significant relation to folate status. Of the seven tumour suppressor genes investigated three showed a significant increase in promoter methylation with increasingly severe histology, and factor analysis confirmed that these genes formed a distinct group.
These were death-associated protein kinase; DAPK, E-cadherin; CDH1, and hypermethylated in cancer-1; HIC1. Promoter hypermethylation of these three tumour suppressor genes may lead to gene silencing and increased risk of progression of precancerous lesions to cancer.
Conclusions
The results of the study described here support a role for folate in determining risk of cervical cancer, possibly through an influence over HR-HPV infection. The gene cluster might be useful in predicting which women with HPV infection are most at risk of developing cervical cancer.
Plain language abstract
Background
Cervical cancer is the second most common cancer in women and each year about 440,000 new cases are diagnosed. The prime cause of this cancer is infection with the human papillomavirus (HPV). However, it is well known that only a small proportion of women with HPV infection actually develop cervical cancer. Other factors are clearly important in determining whether infection with HPV leads to cervical cancer and these factors are likely to involve changes to DNA.
One type of alteration in DNA that can increase the risk of cancer involves a chemical change called methylation. Several studies have shown that methylation in cancer-related genes is characteristic of cancer tissue. Although the regulation of gene methylation is not fully understood it is thought that some dietary factors can influence this process. Specifically, too little folate in the diet can lead to abnormal changes in gene methylation that might increase cancer risk.
Methods
We carried out a study to examine whether methylation of cancer-related genes was associated with the severity of cervical cell abnormality. We also examined whether the amount of circulating folate was related to the cervical cell abnormality. We studied over 300 women who had received a diagnosis of normal cervix, mildly abnormal cervix, severely abnormal cervix, or cervical cancer. We collected blood samples to measure folate, and cervical cells to test for HPV infection and to examine gene methylation.
Results
We made several important findings. Firstly, women with lower concentration of folate in the blood were more likely to be infected with HPV and more likely to have more severe cervical abnormalities. Secondly, a small group of cancer-related genes were more methylated in cervical cells collected from women with cancer or severe cervical abnormalities than those with less severe abnormalities or no abnormalities atall.
Conclusions
These results support the idea that folate might be important in protecting against cervical cancer, perhaps by influencing HPV infection. The group of genes showing more methylation as cells progress towards cancer might be useful in predicting which women with HPV infection are most at risk of developing cervical cancer.