Ruth Bridget Ferns

Minor groove binder modification of widely used TaqMan probe for hepatitis E virus reduces risk of false negative real-time PCR results

Hepatitis E virus (HEV) is a major cause of acute viral hepatitis in many parts of the developing world. It is responsible for both sporadic infections and large scale epidemics and may be associated with significant mortality during pregnancy. Over the past two decades many serological and nucleic acid based diagnostic tests for HEV have been developed, including several reverse transcription real-time polymerase chain reaction assays (RT-qPCR). One of the most widely used of these RT-qPCRs is that developed by Jothikumar and colleagues (Journal of Virological Methods 2006, 131, 65-71). Whilst reviewing this assay we calculated the predicted melting temperature of its TaqMan probe and consequently synthesised a minor groove binder (MGB) version in order to increase its hybridisation stability. In this report the performance of the original unmodified probe is compared with that of the MGB-modified version. We demonstrate that the MGB-modified probe detected HEV RNA in plasma samples from six patients with serologically confirmed hepatitis E in whom the unmodified probe had failed to detect HEV RNA. Sequence analysis of the ORF3 segment targeted by the RT-qPCR was possible in 4 of the 6 patients and revealed an identical C→T single nucleotide mutation in the probe binding region in each case.

The dynamics of appearance and disappearance of HIV-1 integrase mutations during and after withdrawal of raltegravir therapy

Objectives:To monitor HIV-1 integrase resistance mutations during raltegravir (RAL) therapy, including the impact of RAL interruption. Design and method:An analysis of viral load and the HIV-1 integrase gene evolution in 26 HIV-1 treatment-experienced patients undergoing RAL therapy. Results:Initial suppression of viral load was observed in all patients; however, four patients failed to maintain suppression and subsequently developed resistance at viral load rebound. Mutations Q148R (2 months) followed by G140A/Q148R and then G140A/Y143CHR/Q148R/G163R were detected in the virus from one patient, and these reverted to wild type when treatment was withdrawn, although clonal analysis identified maintenance of RAL resistance minority species at this time point. RAL treatment was restarted after 6 months, and 2 weeks later, Y143CY/G163RG mutations appeared. In three other patients, viruses with N155H emerged at viral rebound either alone (2 months), followed by V151I (8 months) or alone (10 months), or together with V151I/G163RG (7 months). Loss of virus with the N155H mutation occurred in these patients when RAL therapy was terminated, despite maintenance of reverse transcriptase/polymerase resistance mutations. Conclusion:Complete viral suppression was important in order to prevent resistance emerging. RAL-resistance mutations were detected in the presence of other antiviral treatments, and the reverse of these mutations following RAL cessation suggests that a fitness deficit was conferred by these mutants. The observation that following RAL interruption virus rebound was with previously existing reverse transcriptase/polymerase mutations in the absence of integrase mutations implies that it is pre-RAL-archived viruses that re-emerge.

Quantitation of hepatitis delta virus using a single-step internally controlled real-time RT-qPCR and a full-length genomic RNA calibration standard.

Quantitation of circulating hepatitis delta virus (HDV) RNA is important for assessing the response to antiviral therapy and for understanding the complex dynamic interactions between hepatitis B virus (HBV) and HDV replication. Although several PCR assays for HDV RNA have been described none of them incorporate an internal control or use a full-length RNA calibration standard for absolute quantitation. This study describes the development and evaluation of a novel single-step real-time RT-qPCR assay for HDV RNA quantitation which incorporates a Brome Mosaic virus internal control to prevent false negatives and under-reporting due to inhibitors or due to inefficient RNA purification, reverse transcription or PCR amplification. The assay has a dynamic range of ≥7log(10) and is designed to detect all HDV genotypes. The 95% detection limit is ∼3800 HDV RNA copies/ml, 700 copies/ml being detectable in 20% of repeats. Both intra-assay and inter-assay variability are low (CV 8% and 17%, respectively). Plasma HDV RNA was detected in 75% of 59 HDV antibody-positive samples with titres ranging from 8.4×10(4) to 4.4×10(8) copies/ml. The assay described provides a reliable and sensitive quantitative system for therapeutic monitoring and for studying the dynamic interplay between hepatitis B virus replication and HDV viral load.

Emergence of a novel subclade of influenza A(H3N2) virus in London, December 2016 to January 2017

We report the molecular investigations of a large influenza A(H3N2) outbreak, in a season characterised by sharp increase in influenza admissions since December 2016. Analysis of haemagglutinin (HA) sequences demonstrated co-circulation of multiple clades (3C.3a, 3C.2a and 3C.2a1). Most variants fell into a novel subclade (proposed as 3C.2a2); they possessed four unique amino acid substitutions in the HA protein and loss of a potential glycosylation site. These changes potentially modify the H3N2 strain antigenicity.

Bigger and Better? Representativeness of the Influenza A surveillance using one consolidated clinical microbiology laboratory data set as compared to the Belgian Sentinel Network of Laboratories

Infectious diseases remain a serious public health concern globally, while the need for reliable and representative surveillance systems remains as acute as ever. The public health surveillance of infectious diseases uses reported positive results from sentinel clinical laboratories or laboratory networks, to survey the presence of specific microbial agents known to constitute a threat to public health in a given population. This monitoring activity is commonly based on a representative fraction of the microbiology laboratories nationally reporting to a single central reference point. However in recent years a number of clinical microbiology laboratories (CML) have undergone a process of consolidation involving a shift towards laboratory amalgamation and closer real-time informational linkage. This report aims to investigate whether such merging activities might have a potential impact on infectious diseases surveillance. Influenza data was used from Belgian public health surveillance 2014-2017, to evaluate whether national infection trends could be estimated equally as effectively from only just one centralised CML serving the wider Brussels area (LHUB-ULB). The overall comparison reveals that there is a close correlation and representativeness of the LHUB-ULB data to the national and international data for the same time periods, both on epidemiological and molecular grounds. Notably, the effectiveness of the LHUB-ULB surveillance remains partially subject to local regional variations. These results illustrate that centralised CML-derived data are not only credible but also advantageous to use for future surveillance and prediction purposes, especially for automatic detection systems that might include multiple layers of information and timely implementation of control strategies.