Genetic variability in E6, E7 and L1 protein of HPV81 from HIV-1 positive women in Italy.

The genetic variability of E6, E7 and L1 of HPV81 from HIV-1 positive women carrying multiple HPV infections was investigated by clonal analysis for E6 and E7. The range of maximal divergence from the prototype was 0.6%-2.6% for E6 and 1.0%-3.1% for E7. Compared to prototype HPV81, 13 and 10 mutations were identified in E6 and E7, respectively. In the pRB binding domain of E7, all HPV81 clones showed D21, as reported for prototype HPV81 and for HPV16 and 18, while G22 is reported in HPV6 and 11. In the CR3 region, CxxC motif was conserved in all but one clone. The L1 sequence of a single clone from 5 study patients was also established. The range of similarity with prototype HPV81 was 97.8%-99.2%, with 25 polymorphic sites. Two substitutions (R492K and T493S) were observed in 5/5, one (T287N) in 4/5 patients. Among L1 immune-related regions, BC loop presented T56N in 1/5, while FGb loop presented T287N in 4/5 patients. Our data indicate the presence of polymorphisms in all 3 HPV81 genes analyzed, with a certain degree of intra-patient diversity. The importance of polymorphisms on HPV81 persistence and pathogenicity needs to be addressed in longitudinal studies involving larger patient numbers.

Improved detection of human influenza A and B viruses in respiratory tract specimens by hemi-nested PCR.

RT-PCR is the most sensitive assay for diagnosis of influenza, due to enhanced rapidity and sensitivity as compared to classical methods. Hemi-nested RT-PCR was developed, targeting NP gene for influenza A and NS gene for influenza B, based on a previous single round RT-PCR method. The new method was compared with the previous technique for analytical sensitivity and specificity, and was applied to clinical samples from the lower and upper respiratory tract. The analytical sensitivity of hemi-nested RT-PCR was 10 (influenza A) and 4 times (influenza B) higher than the previous method. A high specificity of the new hemi-nested RT-PCR assay was observed by using whole respiratory viruses. When applied to lower respiratory tract specimens, the new method showed an increased rate of positivity as compared to the previous technique (9.3% versus 0.7% for influenza A, and 0.9% versus 0.2% for influenza B). Screening of upper respiratory tract samples collected during the seasonal 2005-2006 outbreak indicated 26.4% and 5.8% positivity for influenza A and B, respectively. The results were confirmed by sequence analysis: apart from influenza B, both influenza A subtypes H3N2 and H1N1, associated with the seasonal outbreak, were detected.

Possible compartmentalization of hepatitis C viral replication in the genital tract of HIV-1-coinfected women.

BACKGROUND: We estimated the prevalence of hepatitis C virus (HCV) in cervical cytobrush samples from HCV/human immunodeficiency virus (HIV)-coinfected women and analyzed the HCV quasi species in both cytobrush and plasma samples. Possible compartmentalization of viral quasi species in the genital tract and plasma was evaluated by comparison of genetic heterogeneity and use of phylogenetic analysis. METHODS: Paired plasma and cytobrush samples were obtained from 85 HCV/HIV-coinfected women. The presence of HCV in cytobrush samples was evaluated by reverse-transcription polymerase chain reaction of the 5' untranslated region. Viral quasi species were analyzed by cloning and sequencing the highly variable region-1 in 8 patients. RESULTS: HCV was detected in 27% of cytobrush samples. The composition of viral quasi species was different in the 2 body compartments at both the nucleotide and amino acid level. In fact, the mean complexity was significantly lower in cytobrush samples, and a similar trend was observed for the other parameters of heterogeneity. Phylogenetic analysis and amino acid alignment identified several viral variants that were unique to each body compartment. CONCLUSIONS: Our data suggest that the genital and plasma quasi species represent distinct subpopulations, which possibly reflects compartmentalized viral replication. Alternatively, cell carriers harboring viral quasi species in the genital tract that are distinct from those in plasma could transfer the virus through the barrier separating the 2 body sites.

Application of a molecular panel to demonstrate enterotropic virus shedding by healthy and human immunodeficiency virus-infected patients.

We used a molecular panel, targeting seven enteric viruses, to explore the advantage of using molecular methods to establish the etiology of enteric diseases and to evaluate the prevalence of enteric viruses in asymptomatic human immunodeficiency virus-infected patients. This approach favors rapidity and sensitivity of laboratory diagnosis of viral enteric syndromes.