Elisa Rita Ceresola

Cross-resistance Profile of the Novel Integrase Inhibitor Dolutegravir (S/GSK1349572) Using Clonal Viral Variants Selected in Patients Failing Raltegravir

Novel integrase inhibitors are in advanced clinical development, and cross-resistance data are needed to consider the possibility to plan a sequential usage within this class of antiretroviral drugs. Ex vivo phenotypic assays were conducted on 11 wild-type and 27 fully replicating recombinant viruses obtained from 11 patients failing previous raltegravir-containing regimens. Dolutegravir maintained its activity in vitro on viruses with mutations in position 143 and 155. However, viruses with mutation Q148R associated with secondary mutations and the combination Q148H+G140S were instead associated with a reduced level of susceptibility to dolutegravir in vitro.

The role of infections and coinfections with newly identified and emerging respiratory viruses in children

Acute respiratory infections are a major cause of morbidity in children both in developed and developing countries. A wide range of respiratory viruses, including respiratory syncytial virus (RSV), influenza A and B viruses, parainfluenza viruses (PIVs), adenovirus, rhinovirus (HRV), have repeatedly been detected in acute lower respiratory tract infections (LRTI) in children in the past decades. However, in the last ten years thanks to progress in molecular technologies, newly discovered viruses have been identified including human Metapneumovirus (hMPV), coronaviruses NL63 (HcoV-NL63) and HKU1 (HcoV-HKU1), human Bocavirus (HBoV), new enterovirus (HEV), parechovirus (HpeV) and rhinovirus (HRV) strains, polyomaviruses WU (WUPyV) and KI (KIPyV) and the pandemic H1N1v influenza A virus. These discoveries have heavily modified previous knowledge on respiratory infections mainly highlighting that pediatric population is exposed to a variety of viruses with similar seasonal patterns. In this context establishing a causal link between a newly identified virus and the disease as well as an association between mixed infections and an increase in disease severity can be challenging. This review will present an overview of newly recognized as well as the main emerging respiratory viruses and seek to focus on the their contribution to infection and co-infection in LRTIs in childhood.

In vitro phenotypes to elvitegravir and dolutegravir in primary macrophages and lymphocytes of clonal recombinant viral variants selected in patients failing raltegravir

OBJECTIVES The cross-resistance profiles of elvitegravir and dolutegravir on raltegravir-resistant variants is still controversial or not available in macrophages and lack extensive evaluations on wide panels of clonal variants. Thus, a complete evaluation in parallel with all currently available integrase inhibitors (INIs) was performed. METHODS The integrase coding region was RT-PCR-amplified from patient-derived plasma samples and cloned into an HIV-1 molecular clone lacking the integrase region. Twenty recombinant viruses bearing mutations to all primary pathways of resistance to raltegravir were phenotypically evaluated with each integrase inhibitor in freshly purified CD4+ T cells or monocyte-derived macrophages. RESULTS Y143R single mutants conferred a higher level of raltegravir resistance in macrophages [fold change (FC) 47.7-60.24] compared with CD4+ T cells (FC 9.55-11.56). All other combinations had similar effects on viral susceptibility to raltegravir in both cell types. Elvitegravir displayed a similar behaviour both in lymphocytes and macrophages with all the tested patterns. When compared with raltegravir, none to modest increases in resistance were observed for the Y143R/C pathways. Dolutegravir maintained its activity and cross-resistance profile in macrophages. Only Q148H/R variants had a reduced level of susceptibility (FC 5.48-18.64). No variations were observed for the Y143R/C (+/-T97A) or N155H variants. CONCLUSIONS All INIs showed comparable antiretroviral activity in both cell types even if single mutations were associated with a different level of susceptibility in vitro to raltegravir and elvitegravir in macrophages. In particular, dolutegravir was capable of inhibiting with similar potency infection of raltegravir-resistant variants with Y143 or N155 pathways in both HIV-1 major cell reservoirs.

Kuwanon-L as a New Allosteric HIV-1 Integrase Inhibitor: Molecular Modeling and Biological Evaluation

HIV‐1 integrase (IN) active site inhibitors are the latest class of drugs approved for HIV treatment. The selection of IN strand‐transfer drug‐resistant HIV strains in patients supports the development of new agents that are active as allosteric IN inhibitors. Here, a docking‐based virtual screening has been applied to a small library of natural ligands to identify new allosteric IN inhibitors that target the sucrose binding pocket. From theoretical studies, kuwanon‐L emerged as the most promising binder and was thus selected for biological studies. Biochemical studies showed that kuwanon‐L is able to inhibit the HIV‐1 IN catalytic activity in the absence and in the presence of LEDGF/p75 protein, the IN dimerization, and the IN/LEDGF binding. Kuwanon‐L also inhibited HIV‐1 replication in cell cultures. Overall, docking and biochemical results suggest that kuwanon‐L binds to an allosteric binding pocket and can be considered an attractive lead for the development of new allosteric IN antiviral agents.

Viral tropism by geno2pheno as a tool for predicting CD4 decrease in HIV-1-infected naive patients with high CD4 counts

OBJECTIVES To investigate the value of tropism (determined by genotypic testing) to predict CD4 depletion in HIV-infected antiretroviral-naive patients with high CD4 counts. METHODS Viral tropism was determined by geno2pheno (false positive rate = 10%) in 223 HIV-infected subjects naive to antiretrovirals with CD4 count ≥350 cells/μL and HIV-RNA >500 copies/mL enrolled in the ICONA Foundation Study for whom a stored plasma sample (baseline) was retrospectively tested. We monitored CD4 cell count and identified predictors of decline before antiretroviral therapy initiation, applying a mixed linear model with covariates (age, gender, tropism, HIV risk factor, calendar year of HIV infection, months from HIV diagnosis to baseline, hepatitis C virus status, CD4 and HIV-RNA at sample collection and duration of follow-up). RESULTS Two hundred and twenty-three subjects met the eligibility criteria; 137 (61%) were male and the median age was 35 (31-40) years. Median follow-up was 16.4 (3.2-37.2) months. Median CD4 decrease during follow-up was -157 (-278 to -13) cells/μL. At baseline, 192 (86%) subjects were defined as harbouring R5 virus and 31 (14%) non-R5. Median CD4 count was 571 (458-729) cells/μL and median HIV-RNA was 4.08 (3.57-4.55) log(10) copies/mL. At multivariable analysis, a greater mean CD4 decrease was associated with non-R5 viral tropism (-159.9 ± 12.22, P = 0.0002) at baseline. Other significant covariates were female gender, older age, intravenous drug use, longer duration of follow-up, and higher CD4 cell count and higher HIV-RNA at sample collection. CONCLUSIONS In patients with CD4 counts ≥350 cells/μL, non-R5 viral tropism by geno2pheno is predictive of CD4 decrease independent of their viral set point and CD4 counts.

Evolution patterns of raltegravir-resistant mutations after integrase inhibitor interruption

The objective of this study was to address the evolution of human immunodeficiency virus type 1 (HIV-1) mutations resistant to the integrase inhibitor raltegravir after drug interruption. Thirteen HIV-1 infected patients undergoing virological failure due to the selection of raltegravir-resistant variants, who had interrupted raltegravir treatment, were enrolled. For all patients, the virological failure was associated with the selection of variants, with mutations conferring resistance to all of the drugs present in their regimens. Patients were prospectively monitored at baseline (raltegravir interruption) and every 4-24 weeks for clinical, virological and immunological parameters, including HIV-1 viraemia, CD4(+) T-cell counts, and sequence analysis of the HIV-1 integrase sequence. Reversion to the wild-type HIV-1 integrase sequence genotype was observed between 4 and 36 weeks after raltegravir withdrawal in eight out of the 13 patients. Reversion was not observed in three patients. In two patients, reversion was partial at week 24 from raltegravir interruption. These results highlight that in eight out of 13 patients under treatment with raltegravir and experiencing a virological failure, HIV-1 variants harbouring mutations associated with raltegravir resistance become undetectable after drug interruption within a few weeks (in some cases, very rapidly). This occurs under different therapy regimens and in patients receiving 3TC mono-therapy. In the other patients, complete reversion of the integrase sequence is not observed, and either primary or secondary resistance mutations are fixed in the replication competent viral population in vivo also for long time, suggesting that other factors may influence this dynamic process.

Adaptive immunity against gut microbiota enhances apoE-mediated immune regulation and reduces atherosclerosis and western-diet-related inflammation

Common features of immune-metabolic and inflammatory diseases such as metabolic syndrome, diabetes, obesity and cardiovascular diseases are an altered gut microbiota composition and a systemic pro-inflammatory state. We demonstrate that active immunization against the outer membrane protein of bacteria present in the gut enhances local and systemic immune control via apoE-mediated immune-modulation. Reduction of western-diet-associated inflammation was obtained for more than eighteen weeks after immunization. Immunized mice had reduced serum cytokine levels, reduced insulin and fasting glucose concentrations; and gene expression in both liver and visceral adipose tissue confirmed a reduced inflammatory steady-state after immunization. Moreover, both gut and atherosclerotic plaques of immunized mice showed reduced inflammatory cells and an increased M2 macrophage fraction. These results suggest that adaptive responses directed against microbes present in our microbiota have systemic beneficial consequences and demonstrate the key role of apoE in this mechanism that could be exploited to treat immune-metabolic diseases.

2-Aminothiazolones as Anti-HIV Agents That Act as gp120-CD4 Inhibitors

ABSTRACT We report here the synthesis of 2-aminothiazolones along with their biological properties as novel anti-HIV agents. Such compounds have proven to act through the inhibition of the gp120-CD4 protein-protein interaction that occurs at the very early stage of the HIV-1 entry process. No cytotoxicity was found for these compounds, and broad antiviral activities against laboratory strains and pseudotyped viruses were documented. Docking simulations have also been applied to predict the mechanism, at the molecular level, by which the inhibitors were able to interact within the Phe43 cavity of HIV-1 gp120. Furthermore, a preliminary absorption, distribution, metabolism, and excretion (ADME) evaluation was performed. Overall, this study led the basis for the development of more potent HIV entry inhibitors.

The new and less toxic protease inhibitor saquinavir–NO maintains anti-HIV-1 properties in vitro indistinguishable from those of the parental compound saquinavir

Although, the antiviral activity, tolerability and convenience of protease inhibitors have improved significantly in recent years, toxicity-associated adverse events including diarrhea, lipid alterations, disturbance of glucose homeostasis and liver enzyme elevations still remain a major concern during treatment of HIV-1 patients. We have recently shown that the covalent attachment of the NO moiety to the HIV-1 protease inhibitor saquinavir (Saq-NO) reduces its toxicity. In this study, we evaluated in vitro the anti-HIV activity of Saq-NO vs. its parental compound Saq. Site directed mutants with the most frequently identified Saq associated resistance mutations and their combinations were generated on proviral AD8-based backbones. Phenotypic assays were conducted using wild type clinical isolates and fully replicating recombinant viruses with Saq and Saq-NO in parallel on purified CD4+ T cells. The following recombinant viruses were generated and tested: L33F, M46I, G48V, I54V, I84V + L90M, M46I + L90M, G48V + L90M, M46I + I54V + L90M, L33F + M46I + L90M. The fold change resistance compared to the wild type viruses was between 1.3 and 7 for all single mutants, between 3.4 and 20 for double mutants and between 16.7 and 28.5 for viruses carrying three mutations for both compounds. The results clearly demonstrate that Saq-NO maintains an anti-HIV-1 profile very similar to that of Saq. The possibility to reduce Saq associated side effects and to increase the concentration of the drug in vivo may allow a higher and possibly more effective dosage of Saq-NO in HIV-1-infected patients and to increase the genetic barrier of this PI thus impairing the selection of resistant clones.

Epidemiological, molecular and clinical features of Enterovirus 109 infection in children and in adult stem cell transplant recipients

BackgroundA novel human enterovirus (HEV) type within the species HEV-C, named EV109, was discovered from cases of respiratory illness in Nicaragua in September 2010. The aim of this study, was to retrospectively examine the presence and the role of EV109 in respiratory samples from two patients populations; infants below the age of 2 years, hospitalized for acute respiratory diseases (ARDs) and adult hematopoietic stem cell transplantation recipients.ResultsA total of 1149 nasopharingeal aspirates were collected and tested for the presence of EV109 by reverse transcription-PCR (RT-PCR). In positive samples, the presence of the most common respiratory viruses was also assayed and clinical symptoms were evaluated. Samples from 2 of the 974 infants tested positive for EV109 RNA (0.2%) and belonged to patients with lower ARDs; co-infection with other viral pathogens under study was observed in both cases. In transplant recipients, one out of the 175 samples analyzed, from a patients with upper respiratory simptoms tested positive for HEV 109 in the absence of co-infecting viruses. Sequence analysis of amplified EV109 genomic regions, showed only a few nucleotide differences when compared with the Nicaraguan strains.ConclusionsOverall these results indicate that HEV109 variants have circulated and differentiated in different lineages worldwide. Although more cases and larger studies are needed, HEV109 infection may be associated to ARDs both in infants and in hematopoietic stem cell transplantation recipients. If these preliminary observations will be confirmed, improved molecular methods with a wider panel of potential pathogens will be useful for monitoring these categories of patients.