Prevalence of genital HPV infections and HPV serology in adolescent girls,prior to vaccination

Introduction: Monitoring the prevalence of type-specific HPV-DNA infections before and shortly after introduction of routine HPV vaccination offers the opportunity to evaluate early effects of the vaccination program. With this aim a cohort study was set up of 14- to 16-year-old girls eligible for HPV vaccination in the Netherlands. Annually, HPV-DNA and antibody status in vaginal self-samples and in serum respectively, will be studied among vaccinated (58%) and unvaccinated girls (42%). Here we present baseline data on vaginal HPV-DNA status in relation to serum antibodies. Methods: The 1800 enrolled girls filled out an internet-based questionnaire and provided a vaginal self-sample for genotype specific HPV-DNA detection using SPF₁₀ PCR amplification and reverse line probe hybridization. Furthermore, 64% of the girls provided a blood sample for HPV antibody analysis. IgG antibodies against virus-like particles were determined for 7 HPV genotypes. Results: At baseline, type-specific HPV-DNA was detected in 4.4% (n = 79) of the 1800 girls: 2.7% (n = 49) concerned a high risk HPV type (hrHPV-DNA). The three most common types were HPV type 16, 18 and 51 (40%). Out of the hrHPV-DNA positive girls, 32% was seropositive vs. 12% in HPV-DNA negative girls (p < 0.001). Risk factors independently associated with hrHPV-DNA infection among the sexually active girls were age >15 years vs. 14–15 years (OR = 2.6 (1.2–5.9)), age of sexual debut <14 vs. above 14 years (OR = 3.0 (1.1–8.2)), total number of lifetime partners above two vs. less than two partners (OR = 3.2 (1.3–8.0)) and age of partner >17 vs. under 17 years (OR = 4.2 (1.5–13.0)). Conclusion: A low hrHPV-DNA prevalence was found in the adolescent girls. The observed vs. expected age-related increase in HPV-DNA prevalence in this cohort in the coming years (with increased sexual activity) will provide understanding of the effect of HPV vaccination. Furthermore, this cohort study will offer the opportunity to improve knowledge of antibody responses following natural infection and vaccination.     

Changes in Antibody Seroprevalence of Seven High-Risk HPV Types between Nationwide Surveillance Studies from 1995–96 and 2006–07 in The Netherlands

Objective

This study evaluates trends in antibody seroprevalences of seven high-risk human papillomavirus (hr-HPV) serotypes (HPV16, 18, 31, 33, 45, 52, and 58) between the 1995–96 and 2006–07 sero-surveys among the Dutch general population in the pre-vaccination era.

Methods

Serum samples of men and women (0–79 years of age) from two cross-sectional population-based serosurveillance studies performed in 1995–96 (n = 3303) and 2006–07 (n = 6384) were tested for HPV-specific antibodies in a VLP-based multiplex immunoassay.

Results

HPV16-specific antibody seroprevalence increased during adolescence and shifted to younger ages in the 2006–07 survey compared to the 1995–96 survey. This step-up in HPV16 seroprevalence was most pronounced in women, while a more gradual increase was observed in men. Also in cohorts older than 49 years, HPV16 seroprevalence was higher in 2006–07 as compared to 1995–96 survey. A higher overall seroprevalence in individuals older than 15 years of age was found for HPV16, 18, 31 and 45 in 2006–07 as compared to 1995–96. For HPV33, 52 and 58 seroprevalences were comparable over this 11-year time period. Seropositivity for one or more HPV types was significantly higher in 2006–07 (23.1%) than in 1995–96 (20.0%) (p = 0.013). Multi-seropositivity increased from 7.1% in 1995–96 up to 10.2% in 2006–07 (p<0.0001). Differences in HPV seropositivity for at least one of the seven HPV types between both surveys could be explained in addition to demographic characteristics (age, sex, urbanization degree and ethnicity), also by changes in sexual behaviour (marital status, age of sexual debut and ever reported an STI).

Conclusion

The observed increase in particular HPV16 seroprevalence could be due to changes in sexual behaviour over the years, and especially in age of sexual debut. Seroprevalence studies provide insight into the distribution of HPV types and infection dynamics in the general population over time, which is important to assess the impact of HPV-vaccination.     

Irreversible inhibition of rapeseed protoplast (Brassica napus L.) development through treatment with the mitochondrial vital stain nonyl-acridine orange (NAO)

We describe here, for the first time, the effects of the hydrophobiccationic dye 10-n-nonyl acridinium-orange-chloride (NAO) onprotoplast development, photosynthetic capacity and infrastructure.NAO is specifically taken up by plant mitochondria under vitalstaining conditions (0.62 µM; 15–30 min). No otherorganelles revealed the bright green fluorescence typical forthis dye. Cell division and growth of protoplast cultures fromBrassica napus are severely reduced after vital staining withNAO. At higher NAO concentrations (1.25–2.5 µM;30 min) protoplast regeneration is fully blocked. Electron microscopyreveals that such a treatment causes the mitochondria to swellto a size several-fold larger than in control protoplasts. Otherorganelles appeared to be unaffected by NAO. Measurement ofoxygen production and consumption of protoplasts indicated thatNAO (1.25 µM; 30 min) was without effect on respirationin the dark, but subsequently caused a 50% reduction in oxygenevolution in the light. These results suggest that NAO is actingboth as an uncoupler as well as an ionophore. We discuss thevalue of NAO as a potentially important tool in somatic hybridizationexperiments by influencing the outcome of mitochondrial segregation/recombination. Key words: Brassica napus, mitochondria, NAO, protoplast regeneration