Bernard Besse

Screening for amino acid substitutions in the Candida albicans Erg11 protein of azole-susceptible and azole-resistant clinical isolates: new substitutions and a review of the literature

For several years, azole antifungal drugs have been a treatment option for potentially life-threatening Candida infections. However, azole resistance can occur through various mechanisms such as alterations in ERG11, encoding lanosterol 14alpha-demethylase (CYP51). In this study, we investigated the antifungal susceptibility to fluconazole, itraconazole, and voriconazole of 73 clinical isolates of Candida albicans. Screening for amino acid substitutions in Erg11 was performed on each of the 73 isolates. Twenty isolates displayed a marked decrease in azole susceptibility. Amino acid substitutions were detected in more than two-thirds of the strains. In all, 23 distinct substitutions were identified. Four have not been described previously, among which N136Y and Y447H are suspected to be involved in azole resistance. We suggest that the high genetic polymorphism of ERG11 must be considered in the rationale design of new azole compounds targeting lanosterol 14alpha-demethylase. A review of all Erg11 amino acid polymorphisms described to date is given.

A FUT2 Gene Common Polymorphism Determines Resistance to Rotavirus A of the P[8] Genotype

Attachment to carbohydrates of the histo-blood group type of several human Rotavirus strains (RVA) has recently been described. Synthesis of these ligands requires a functional FUT2 enzyme, suggesting that FUT2 null homozygote (ie, nonsecretor) individuals may not be recognized by most human RVA strains. Whereas such individuals represent 20% of the control population, this retrospective study determined that none of 51 patients infected by P[8] rotavirus strains were nonsecretors. The lack of α1,2fucosylated carbohydrate motifs in the gut surface mucosa is thus associated with resistance to symptomatic infection and virus attachment to such motifs is essential to the infection process.

Cellular normalization of viral DNA loads on whole blood improves the clinical management of cytomegalovirus or Epstein Barr virus infections in the setting of pre-emptive therapy.

Two quantitative duplex real‐time PCR assays were developed for co‐amplification of human albumin and cytomegalovirus (CMV) or Epstein Barr virus (EBV) genes after automated extraction on whole blood, and compared two units for expressing viral DNA loads (copies per ml of blood or per 106 peripheral blood leukocytes (PBLs)) on 1,138 positive samples. Both PCRs were characterized by high sensitivity, reproducibility, and linear range. Automated extraction by a MagNA Pure LC Instrument was shown to be more efficient when peripheral blood cell count was inferior to 5 × 109 PBLs/L. Albumin co‐amplification allows the detection of PCR inhibitors and normalization of viral load according to the number of cells calculated in the sample. The two ways of expressing viral load results were highly correlated, but quantitative differences varied in relation to variations of blood cell count. As these two viruses are highly cell associated, viral loads can be underestimated in patients with leucopenia. In the setting of pre‐emptive strategies during CMV infection, the units in which results are expressed can influence clinical management, as illustrated in this article. J. Med. Virol. 81:90–98, 2009.

Simplified reverse transcription polymerase chain reaction procedure with detection by microplate hybridization for routine screening of hepatitis A virus

Reverse transcription polymerase chain reaction, using either nested or seminested primers, is used extensively for the detection of viruses in small quantities. However, existing methods are prone to false positive reactions. We report here an improved polymerase chain reaction technique based on the use of longer primers (39 nucleotides) with single-step amplification, applied to the detection of hepatitis A in low quantities. While the sensitivity of this technique (10 x the 50% tissue culture infective dose) is equivalent to that of existing methods, it is a simpler procedure, less time consuming, and less susceptible to contamination and therefore provides a more reliable tool for routine diagnosis. Finally, the development of a DNA enzyme immunoassay detection technique and the complete automation of the procedure allow a large number of samples to be processed in clinical laboratories.

Evaluation of the presence of equine viral herpesvirus 1 (EHV-1) and equine viral herpesvirus 4 (EHV-4) DNA in stallion semen using polymerase chain reaction (PCR)

In the horse, the risk of excretion of two major equine pathogens (equine herpesvirus types 1 (EHV-1) and 4 (EHV-4)) in semen is unknown. The objective of our study was to assess the possible risks for the horizontal transmission of equine rhinopneumonitis herpesviruses via the semen and the effect of the viruses on stallion fertility. Samples of stallion semen (n=390) were gathered from several different sources. Examination of the semen involved the detection of viral DNA using specific PCR. The mean fertility of the stallions whose sperm tested positive for viral DNA and the mean fertility of stallions whose sperm did not contain viral DNA, were compared using the Students t-test. EHV-4 viral DNA was not detected in any of the semen samples. EHV-1 DNA was identified in 51 of the 390 samples, (13%). One hundred and eighty-two samples came from 6 studs and there was significant difference (p<0.05) among the proportion of stallions whose semen tested positive for viral DNA from 0 to 55% between the studs. There was a significant difference (p<0.014) between the fertility of stallions whose semen tested positive for viral DNA and those whose semen was free from viral DNA. The stallions that excreted the EHV-1 virus in their semen appeared to be more fertile than the non-excretors, but this difference was in fact related to the breeding technique since higher proportion of excretors were found among those whose semen was used fresh rather than preserved by cooling or freezing. In conclusion, this study suggests that the EHV-1 virus may be transmitted via the semen at mating or by artificial insemination as demonstrated with other herpes viruses in other species.

Emergence of HCV resistance-associated variants in patients failing sofosbuvir-based regimens: an observational cohort.

BACKGROUND Real-life effectiveness data of new hepatitis C direct-acting antivirals are now required. The present study aims to assess the rate of sustained viral response (SVR) and virological failure (VF) in patients infected with chronic HCV treated with sofosbuvir (SOF)-based regimens in routine medical practice. METHODS This observational study included a total of 106 patients infected with HCV genotypes (G)1-4, who initiated SOF-based regimens in 2014. Viral load was followed at baseline, week (W)2, W4, W12 (or W24) and W12 post-treatment. For all VFs, resistance-associated variants (RAVs) were determined at baseline and failure by sequencing of NS5A, NS5B and/or NS3 genes, using the Sanger method. RESULTS SVR rate was 85% for the whole cohort, 91% for the patients who underwent the full treatment course. The distribution of HCV genotypes was as follows: G1 n=66 (1a=33, 1b=29; 62%), G2 n=8 (8%), G3a n=20 (19%) and G4 n=12 (11%). The main regimens used were SOF+daclatasvir (37%), SOF+ribavirin (33%), SOF+simeprevir (26%) and SOF+ledipasvir (3%). Twenty-five (23%) patients were HIV-coinfected and 1 was HBV-coinfected. Seventy (65%) patients had a prior treatment experience. All VF were relapses (n=9): 3 G1a, 1 G2, 4 G3a and 1 G4, and mutations conferring resistance to NS5A inhibitors were found but none for NS5B polymerase inhibitors. CONCLUSIONS In a real-life context, the rate of SVR in DAA-treated HCV-infected patients is close to clinical Phase III trial results. RAVs emerged for all patients treated by the anti-NS5A daclatasvir, and persisted several weeks after the end of treatment.

Influenza virus A subtype H1N1 is inhibited by methylated β-lactoglobulin

Addition of methylated β-lactoglobulin (Met-BLG) in the medium of MDCK cell lines infected with influenza virus subtype H1N1 reduced hemagglutination activity (HA) in a concentration dependent manner. Antiviral activity of Met-BLG depended on its concentration, viral load, and duration of infection. Using 17 μg/ml of Met-BLG inhibited 50% of HA of H1N1 grown in MDCK cells at 1 MOI after 24 h incubation at 37°C and in 5% CO₂. Extension of incubation time enhanced antiviral action since the same concentration of Met-BLG inhibited about 61% of viral activity after 48 h. This viral inhibition was accompanied by a protection of MDCK cells as observed by using neutral red or by direct microscope examination. Reduction of viral RNA replication upon the addition of Met-BLG (50 μg/ml) was observed by real time-PCR showing a reduction of viral log value of about 0·9. When viral stock solution was mixed with 25 μg/ml Met-BLG in absence of cell lines, the morphology and viability of virus particles were significantly affected as observed by electron microscopy, and the number of intact virus particles was reduced by roughly 65%.

Use of reverse transcription polymerase chain reaction with colorimetric plate hybridization to detect a cytomegalovirus late spliced mRNA in polymorphonuclear leukocytes from renal transplant patients.

Human cytomegalovirus replication was evaluated in polymorphonuclear leukocytes from ten renal transplant recipients. Three new reverse transcription polymerase chain reactions with plate hybridization suitable for automation were developed for the detection of immediate-early spliced UL123 mRNA, early-late pp65 mRNA, and late spliced UL22 mRNA. The presence of UL22mRNA was found to be significantly associated with the occurrence of cytomegalovirus (CMV) disease.

Quantification of two viral transcripts by real time PCR to investigate human herpesvirus type 6 active infection

BACKGROUND Human herpesvirus 6 (HHV-6) causes exanthema subitum and is associated with symptomatic reactivations in immunocompromised patients, particularly after hematopoietic stem cell transplantation. The detection of viral mRNA can help to make the difference between latent, chromosomally integrated and true replicating virus. It can also be a useful tool to investigate viral multiplication in different cell types. OBJECTIVES To develop molecular tools for the detection and quantification HHV-6 transcripts that can be used in a clinical setting. STUDY-DESIGN Two one-step reverse-transcriptase quantitative real-time PCR (RT-qPCR) were developed for the quantification of the immediate early U90 and the late U100 mRNAs. Viral mRNA loads were compared to viral DNA loads during infection in vitro and in blood samples collected from stem cell transplanted patients. RESULTS Analytical performances of the two quantitative real-time PCR were good. In vitro, kinetics of both transcripts was well correlated with DNA levels. Sixty blood samples from patients with active HHV-6 infection were analyzed. Overall agreement of qualitative results for HHV-6 DNA, U90 RNA and U100 RNA was good. HHV-6 DNA loads were significantly higher than mRNA loads. In clinical samples, the amounts of U100 and U90 mRNAs were low and their detection was mainly associated to viral DNA loads upper than 1000 copies/ml of blood. CONCLUSION The new assays are sensitive and reliable methods for the monitoring of viral transcription in vitro and in vivo. As their detection is associated to high DNA loads in vivo, they can be helpful tools for the diagnosis of active infection.

An NS5A single optimized method to determine genotype, subtype and resistance profiles of Hepatitis C strains

The objective was to develop a method of HCV genome sequencing that allowed simultaneous genotyping and NS5A inhibitor resistance profiling. In order to validate the use of a unique RT-PCR for genotypes 1–5, 142 plasma samples from patients infected with HCV were analysed. The NS4B-NS5A partial region was successfully amplified and sequenced in all samples. In parallel, partial NS3 sequences were analyzed obtained for genotyping. Phylogenetic analysis showed concordance of genotypes and subtypes with a bootstrap >95% for each type cluster. NS5A resistance mutations were analyzed using the Geno2pheno [hcv] v0.92 tool and compared to the list of known Resistant Associated Substitutions recently published. In conclusion, this tool allows determination of HCV genotypes, subtypes and identification of NS5A resistance mutations. This single method can be used to detect pre-existing resistance mutations in NS5A before treatment and to check the emergence of resistant viruses while undergoing treatment in major HCV genotypes (G1-5) in the EU and the US