A specific immune response to human papillomavirus (HPV) in the cervical microenvironment plays a key role in eradicating infection and eliminating mutated cells. However, high-risk HPVs modulate immune cells to create an immunosuppressive microenvironment, and induce these immune cells to produce interleukin 10 (IL-10). This production of IL-10, in conjunction with HPV infection, contributes to the appearance of cervical neoplastic lesions. We sought to characterize the IL-10-producing cellular phenotype, and investigate the influence of host and HPV factors upon the induction of an immunosuppressive microenvironment. Immunohistochemical analysis demonstrated an increase in IL-10 production by keratinocytes, macrophages and Langerhans cells in high-grade cervical lesions and cervical cancer. This increase was more pronounced in patients older than 30 years, and was also correlated with high viral load, and infection with a single HPV type, particularly high-risk HPVs. Our results indicate the existence of a highly immunosuppressive microenvironment composed of different IL-10-producing cellular phenotypes in cervical cancer samples, and samples classified as high-grade cervical lesions (cervical intraepithelial neoplasia stages II and III). The immunosuppressive microenvironment that developed for these different cellular phenotypes favours viral persistence and neoplastic progression.
There was a low prevalence of human papillomavirus detection in the oral mucosa of asymptomatic men. Highly oncogenic human papillomavirus types and infection by more than one viral type was observed. Oral sex practices and a large number of sexual partners may increase the risk of acquiring human papillomavirus infection.
Women infected with human papillomavirus (HPV) are at a higher risk of developing
cervical lesions. In the current study, self and clinician-collected vaginal and
cervical samples from women were processed to detect HPV DNA using polymerase chain
reaction (PCR) with PGMY09/11 primers. HPV genotypes were determined using
type-specific PCR. HPV DNA detection showed good concordance between self and
clinician-collected samples (84.6%; kappa = 0.72). HPV infection was found in 30%
women and genotyping was more concordant among high-risk HPV (HR-HPV) than low-risk
HPV (HR-HPV). HPV16 was the most frequently detected among the HR-HPV types. LR-HPV
was detected at a higher frequency in self-collected; however, HR-HPV types were more
frequently identified in clinician-collected samples than in self-collected samples.
HPV infections of multiple types were detected in 20.5% of clinician-collected
samples and 15.5% of self-collected samples. In this study, we demonstrated that the
HPV DNA detection rate in self-collected samples has good agreement with that of
clinician-collected samples. Self-collected sampling, as a primary prevention
strategy in countries with few resources, could be effective for identifying cases of
HR-HPV, being more acceptable. The use of this method would enhance the coverage of
screening programs for cervical cancer.
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