Patrizia Bagnarelli

Analysis of HIV-1 load in blood, semen and saliva : evidence for different viral compartments in a cross-sectional and longitudinal study

Objectives: To quantify the HIV‐1 load (measured as copies of viral RNA/ml using competitive reverse transcription‐polymerase chain reaction) in blood, semen and saliva and to look for relationships between the viral burden, the clinical and immunological status and antiretroviral therapy. Methods: Peripheral blood, semen and whole saliva samples were collected from 26 anti‐HIV‐1‐seropositive patients selected for a cross‐sectional study. Nine of the 26 patients provided samples of the three biological fluids for a longitudinal study. Results: HIV‐1 RNA was detected in 26 out of 26 samples of plasma, in 25 out of 26 samples of semen and in 24 out of 25 samples of saliva. The median number of HIV‐1 copies in plasma was 14 817/ml (range: 167‐254 880), in semen was 515/ml (range: 0‐196 050) and in saliva was 162/ml (range: 0‐72 080). The viral load in semen and in saliva was significantly lower than in plasma (P < 0.0001 ). The HIV‐1 RNA levels in plasma and in saliva were correlated (P < 0.05), but levels in semen were not corre‐lated with either plasma or saliva levels. The HIV‐1 copy number in plasma was significantly higher in symptomatic patients than in asymptomatic subjects (P<0.05). Plasma and saliva HIV‐1 RNA levels were higher in subjects with a CD4+ cell count < 200×106/1 than in subjects with a CD4+ cell count > 200×106/1 (P < 0.05). The HIV‐1 RNA load in either plasma, semen or saliva is not related to antiretroviral therapy. Conclusions: The absence of a correlation between plasma and semen loads suggests that semen and blood are distinct viral compartments. Viral load in semen is not related to the clinical stage of HIV infection or to the CD4+ lymphocyte count. Consequently, HIV‐1 ‐infected subjects are potentially infectious at all stages of immunodeficiency and adequate precautions must always be taken to prevent the sexual transmission of HIV.

Homozygous Δ32 deletion of the CCR-5 chemokine receptor gene in an HIV-1-infected patient

Background:Recent research has found that entry of non-syncytium-inducing (NSI), monocyte-macrophage-tropic HIV-1 isolates requires binding to both CD4 and CCR5 receptors, and that Δ32/Δ32 homozygous individuals are protected against infection. Objective:To analyse the polymorphism of CCR-5 gene in HIV-1-infected and uninfected subjects. Design and methods:CCR-5 sequences were amplified by polymerase chain reaction (PCR) from DNA of peripheral blood mononuclear cells. Samples from 152 HIV-1-infected subjects and 122 uninfected controls were tested for the detection of the 32 base-pair deletion. HIV-1 phenotype was determined by viral isolation and MT-2 evaluation. Results:The wild-type/Δ32 heterozygous and Δ32/Δ32 homozygous conditions were represented in 10.7 and 0.8% of healthy controls and in 9.8 and 0.7% of HIV-1-infected subjects, respectively. Of note, the Δ32/Δ32 deletion of the CCR-5 gene was detected by PCR and sequencing confirmed in a patient with progressive infection harbouring a clade B virus with SI phenotype. Conclusions:Δ32/Δ32 homozygosity for the CCR-5 gene does not confer absolute protection against HIV-1 infection, suggesting that either macrophage-tropic viral strains could use coreceptors other than CCR-5 or infect independently of the presence of a functional CCR-5 coreceptor. Alternatively, primary infection sustained by T-cell-tropic isolates, although exceptional, may occur.

Synthetic full-length and truncated RANTES inhibit HIV-1 infection of primary macrophages.

Objective: To evaluate the role of the selective forces exerted by the host on the HIV-1 structures involved in viral entry. Design and methods: The V3 region of the env gene was analysed in cell-free HIV-1 RNA from 17 infected subjects: 11 long-term non-progressors (LTNP) and six symptomless, typical progressor patients. To evaluate the potential biological significance of one of the rare variants detected in the LTNP, it was reproduced by recombinant PCR into a HIV-1 molecular clone. Results: The intrapatient divergence of the V3-loop sequences averaged 8.62% in LTNP and 5.29% in progressors, although LTNP displayed lower divergence from the clade B consensus than progressors (16.65 and 19.76%, respectively). The analysis of non-synonymous and synonymous substitutions indicated that selective pressure was exerted in this region in both LTNP and progressors. Individual peculiarities (unique and rare V3-loop variants) emerged, however, in most sequences from LTNP, and variants bearing mutations in a domain crucial for the V3-loop structure were more prevalent in LTNP (P = 0.0012). The pNL4-3-derived mutant reproducing a V3-loop variant detected in a LTNP was efficiently expressed upon transfection, but the mutant virus was nearly completely unable to infect CD4+ cell lines, activated primary peripheral blood lymphocytes, or monocyte-derived macrophages, suggesting that a defect impaired the entry phase of the replication cycle. Conclusions: The results indicate that host factors impose selective constraints on the evolution of the HIV-1 structures involved in viral entry. In LTNP, these factors are likely to force the virus into attenuated variants.

Genotype and Phenotype Patterns of Human Immunodeficiency Virus Type 1 Resistance to Enfuvirtide during Long-Term Treatment

ABSTRACT The human immunodeficiency virus type 1 (HIV-1) fusion inhibitor enfuvirtide has recently been introduced into clinical practice and has exhibited efficient anti-HIV-1 activity in combination with other antiretroviral agents. In the present study, we addressed the effect of long-term treatment with enfuvirtide on the intrahost evolution of HIV-1. The genotype and phenotype patterns and the relative replication capacity (rRC) of enfuvirtide-resistant HIV-1 mutants were evaluated in samples from 11 subjects (7 virological nonresponders and 4 responders) who received the compound for more than 1 year in combination with different regimens. Selection of one or more mutations clustering in a sequence (amino acids 36 to 45) of the gp41 N-terminal heptad repeat was observed in samples from the seven virological nonresponders but not in those from responders. In two subjects who discontinued enfuvirtide, reversion of the resistant genotype was detected within 3 months. Recombinant clones bearing mutated gp41 sequences displayed reduced susceptibilities to enfuvirtide, with the 50% inhibitory concentrations (IC50s) ranging from 0.6 to 12.8 μg/ml, whereas the IC50 for isolates with baseline sequences was 0.013 ± 0.010 μg/ml. Interestingly, long-term monitoring of resistant variants provided evidence that ongoing adaptation to the drug is paralleled by phenotypic changes. A limited drop in the rRC in the absence of drug was observed for clones from four of the seven nonresponders bearing mutations associated with resistance. Overall, the data indicate that the different genotype patterns associated with a detectable degree of HIV-1 resistance to enfuvirtide generated during long-term treatments are characterized by a substantially low genetic barrier, possible ongoing adaptation with increased degrees of resistance, and limited influence on the viral rRC.

Hepatitis C virus core antigen: Analytical performances, correlation with viremia and potential applications of a quantitative, automated immunoassay

BACKGROUND Testing for hepatitis C virus core antigen (HCV Ag) may represent a complementary tool to anti-HCV and HCV-RNA in the diagnosis and monitoring of HCV infection. OBJECTIVE To evaluate the performance characteristics of the automated Abbott ARCHITECT HCV Ag assay. STUDY DESIGN Five sites analyzed over 3000 routine serum samples from populations at different risk, comparing HCV Ag results with anti-HCV screening and supplemental assay results and with HCV-RNA. RESULTS The HCV Ag assay showed a specificity of 100%, a good precision (CV<10%) and excellent dilution linearity (r>0.999). The sensitivity (3 fmol/L) corresponds to 700-1100 IU/mL of HCV-RNA. A non-linear correlation with HCV-RNA was found: r=0.713 vs. Siemens bDNA (523 specimens), r=0.736 vs. Roche Cobas TaqMan (356 specimens) and r=0.870 vs. Abbott Real-Time PCR (273 specimens). HCV Ag quantitation was equally effective on different HCV genoypes (239 for genotype 1/1a/1b/1c, 108 for genotype 2/2a/2c, 86 for genotype 3/3a, 50 for genotype 4/4a/4c/4d). Testing of subjects at high risk for HCV and with potential or actual impairment of the immune system identified 2 cases negative for anti-HCV and positive for HCV Ag on 361 hemodialyzed (0.6%) and 7 cases on 97 (7.2%) among transplant recipients. HCV Ag positivity anticipated anti-HCV seroconversion in all three cases of acute hepatitis C. CONCLUSIONS HCV Ag may be used as reflex testing on anti-HCV positive individuals to confirm or exclude an active infection, and on subjects with acute hepatitis or belonging to high risk groups.

Rapid spread of the novel respiratory syncytial virus a on1 genotype, central Italy, 2011 to 2013

Respiratory infections positive for human respiratory syncytial virus (RSV) subtype A were characterised in children admitted to hospitals in Rome and Ancona (Italy) over the last three epidemic seasons. Different strains of the novel RSV-A genotype ON1, first identified in Ontario (Canada) in December 2010, were detected for the first time in Italy in the following 2011/12 epidemic season. They bear an insertion of 24 amino acids in the G glycoprotein as well as amino acid changes likely to change antigenicity. By early 2013, ON1 strains had spread so efficiently that they had nearly replaced other RSV-A strains. Notably, the RSV peak in the 2012/13 epidemic season occurred earlier and, compared with the previous two seasons, influenza-like illnesses diagnoses were more frequent in younger children; bronchiolitis cases had a less severe clinical course. Nonetheless, the ON1-associated intensive care unit admission rate was similar, if not greater, than that attributable to other RSV-A strains. Improving RSV surveillance would allow timely understanding of the epidemiological and clinicopathological features of the novel RSV-A genotype.

Characterization of a Streptococcus suis tet(O/W/32/O)-Carrying Element Transferable to Major Streptococcal Pathogens

ABSTRACT Mosaic tetracycline resistance determinants are a recently discovered class of hybrids of ribosomal protection tet genes. They may show different patterns of mosaicism, but their final size has remained unaltered. Initially thought to be confined to a small group of anaerobic bacteria, mosaic tet genes were then found to be widespread. In the genus Streptococcus, a mosaic tet gene [tet(O/W/32/O)] was first discovered in Streptococcus suis, an emerging drug-resistant pig and human pathogen. In this study, we report the molecular characterization of a tet(O/W/32/O) gene-carrying mobile element from an S. suis isolate. tet(O/W/32/O) was detected, in tandem with tet(40), in a circular 14,741-bp genetic element (39.1% G+C; 17 open reading frames [ORFs] identified). The novel element, which we designated 15K, also carried the macrolide resistance determinant erm(B) and an aminoglycoside resistance four-gene cluster including aadE (streptomycin) and aphA (kanamycin). 15K appeared to be an unstable genetic element that, in the absence of recombinases, is capable of undergoing spontaneous excision under standard growth conditions. In the integrated form, 15K was found inside a 54,879-bp integrative and conjugative element (ICE) (50.5% G+C; 55 ORFs), which we designated ICESsu32457. An ∼1.3-kb segment that apparently served as the att site for excision of the unstable 15K element was identified. The novel ICE was transferable at high frequency to recipients from pathogenic Streptococcus species (S. suis, Streptococcus pyogenes, Streptococcus pneumoniae, and Streptococcus agalactiae), suggesting that the multiresistance 15K element can successfully spread within streptococcal populations.

Prevalence of multiple dideoxynucleoside analogue resistance (MddNR) in a multicenter cohort of HIV-1-infected Italian patients with virologic failure.

We evaluated the prevalence of both Q151M and 6-bp insert at position 69 of RT region responsible for multiple dideoxynucleoside analogue-resistant (MddNR) HIV-1 variants in 177 patients who failed to respond to combination therapy. Patients had received protease inhibitors (PI) and/or nonnucleoside reverse transcriptase inhibitors (NNRTIs) after a long-term experience with nucleoside reverse transcriptase inhibitors (NRTIs) (including zidovudine monotherapy). Two of 177 patients (1.1%) showed the specific complex of Q151M mutation, while 4 (2.3%) had the 69 6-bp insert. Mutations that belong to the 151 set in the absence of the pivotal Q151M substitution were detected in as many as 3.9% of the patients. One patient exhibited a 69S [VG] insert that has not been previously phenotypically characterized. This HIV-1 isolate had high levels of resistance to all NRTIs except stavudine. MddNR is an emerging problem after sequential therapy with this class of compounds among HIV-1-infected patients. Either didanosine (ddI) or zidovudine (ZDV) monotherapy allowed the emergence of MddNR variants containing Q151M complex. Monotherapy with ZDV and ddI or subsequent treatments with various NRTI combinations were the common background in the patients with the 69 insert. The overall prevalence of MddNR (3.4%) in Italy is comparable with that observed in several other European countries (3.4%-6.5%). These data suggest that patients failed by NRTI regimens should be analyzed for the presence of both patterns of MddNR.

Competitive polymerase chain reaction and analysis of viral activity at the molecular level

Due to the high sensitivity level (which can be pushed to the limit of one molecule) and its extraordinary flexibility, the polymerase chain reaction (PCR) is the method of choice for the detection of nucleic acids present in very low concentration in biological samples. Since the qualitative features of PCR amplification have limited its use, several PCR-based approaches for the quantitation of low-abundance nucleic acid species have been planned and proposed in the last few years. Recently, different lines of evidence have indicated that competitive PCR and competitive reverse-transcription-PCR share several advantages over other quantitative approaches. This evidence opens up unexpected possibilities in many biological fields, including virology; in fact, availability of reliable techniques for the absolute quantitation of DNA and RNA species may be the key to a better understanding of the pathogenic steps of most viral diseases and for a more precise monitoring of patients treated with specific antiviral compounds. In this review article, we summarize the procedures adopted for this quantitative molecular approach; additionally, several important technical aspects to plan novel competitive PCR-based applications are analyzed, and early results obtained using cPCR for the direct evaluation of viral activity in vivo are discussed.

Molecular epidemiology and pathogenic potential of underdiagnosed human papillomavirus types

BackgroundHuman papillomavirus (HPV) tests are crucial diagnostic tools for the prevention of neoplastic lesions of the uterine cervix. However most commercial methods are designed to detect high-risk (HR) HPV types and a limited selection of low-risk ones, thus missing a fair number of intermediate/low-risk types. As a result, many HPV infections remain undiagnosed, generating distrust in virological diagnosis among gynaecologists, who continue to rely preferentially on cytological and colposcopic findings.ResultsIn this study, we tested 6,335 consecutive clinical samples, most of them from Italian patients with cytological abnormalities. The samples, collected in 2000–2007, were analyzed using PCR amplification of a 173–206 bp (depending on HPV type) conserved region in the L1 open reading frame, restriction endonuclease analysis and, where required, sequence analysis for type determination. Analysis of a smaller male sample and long term follow-up of a few female subjects was also performed. A total of 2,161 samples tested positive for HPV DNA (32.1%); 21.3% of them were mixed infections. Overall, 59 known and 2 unknown HPV types were detected. Their relative prevalence was calculated; notably, types not clearly identifiable using the most common commercial method accounted for 36% of infections. Clinical findings associated with the underdiagnosed types ranged from H-SIL to low-grade abnormalities, although none of these infections resulted in invasive cancer.ConclusionGiven the high prevalence of some underdiagnosed HPV types in the population (principally HPV53, HPV66, HPV84, and HPV87) and their frequent association with cytological abnormalities, techniques capable of detecting and typing them would prove extremely useful.