Mala Ratnamohan

Detection of the rapid emergence of the H275Y mutation associated with oseltamivir resistance in severe pandemic influenza virus A/H1N1 09 infections

In 2009 a new swine-origin influenza virus A/H1N1 (A/H1N1 09) emerged, causing the centurys first pandemic. Most isolates of the new A/H1N1 09 virus are susceptible to neuraminidase inhibitors, but the H275Y mutation in the neuraminidase gene region associated with high-level oseltamivir resistance has been detected. Using rolling circle amplification (RCA) technology, 96 A/H1N1 09-specific RT-PCR positive clinical samples collected from 80 oseltamivir-treated and untreated patients were screened for the presence of the H275Y mutation. Samples positive for 275Y mutation by RCA were cloned and sequenced for confirmation. From 25 patients who had been treated with oseltamivir and remained A/H1N1 09 RT-PCR positive, we identified three (12%) individuals with the H275Y mutation: one immuno-suppressed adult, one immuno-competent adult and one child. Samples collected at multiple time points from the two adults showed a switch from wild-type oseltamivir-sensitive 275H to oseltamivir-resistant 275Y population after 9 days of treatment. The child had the 275Y mutation detected after being persistently A/H1N1 09 RT-PCR positive while receiving oseltamivir treatment. Resistance was not detected in 17 pre-treatment samples and 54 A/H1N1 09 RT-PCR positive outpatients. RCA demonstrates the rapid emergence of the H275Y resistance mutation in individuals with severe A/H1N1 09 infection receiving neuraminidase inhibitors. Rapid detection of oseltamivir resistance in severe infection is essential for patients to receive maximum therapeutic benefit. In the light of emerging resistance, close monitoring and understanding of the nature and dynamics of resistance mutations in newly emerging strains should be a priority.

Comparison of the Incidence of Influenza in Relation to Climate Factors During 2000-2007 in Five Countries

Relatively few international comparisons of the incidence of influenza related to climate parameters have been performed, particularly in the Eastern hemisphere. In this study, the incidence of influenza and climate data such as temperature, relative humidity, and rainfall, from cities at different latitudes with contrasting climates: Singapore, Hong Kong (China), Ulaanbaatar (Mongolia), Vancouver (Canada), and three Australian cities (Brisbane, Melbourne and Sydney) were examined to determine whether there was any overall relationship between the incidence of influenza and climate. Applying time‐series analyses to the more comprehensive datasets, it was found that relative humidity was associated with the incidence of influenza A in Singapore, Hong Kong, Brisbane, and Vancouver. In the case of influenza B, the mean temperature was the key climate variable associated with the incidence of influenza in Hong Kong, Brisbane, Melbourne, and Vancouver. Rainfall was not significantly correlated with the incidence of influenza A or B in any of these cities. J. Med. Virol. 82:1958–1965, 2010.

Segregation of Human Immunodeficiency Virus Type 1 Subtypes by Risk Factor in Australia

ABSTRACT The aim of this study was to determine which human immunodeficiency virus type 1 (HIV-1) subtypes were circulating in Australia and to correlate the subtypes with risk factors associated with the acquisition of HIV-1 infection. DNA was extracted from peripheral blood mononuclear cells, and HIV-1 env genes were amplified and subtyped using heteroduplex mobility analysis, with selected samples sequenced and phylogenetic analysis performed. The HIV-1 env subtypes were determined for 141 samples, of which 40 were from female patients and 101 were from male patients; 13 samples were from children. Forty-seven patients were infected by homosexual or bisexual contact, 46 were infected through heterosexual contact, 21 were infected from injecting drug use (IDU), 13 were infected by vertical transmission, 8 were infected from nosocomial exposure, and 6 were infected by other modes of transmission, including exposure to blood products, ritualistic practices, and two cases of intrafamilial transmission. Five subtypes were detected; B (n = 104), A (n = 5), C (n = 17), E (CRF01_AE; n = 13), and G (n = 2). Subtype B predominated in HIV-1 acquired homosexually (94% of cases) and by IDU (100%), whereas non-subtype B infections were mostly seen in heterosexually (57%) or vertically (22%) acquired HIV-1 infections and were usually imported from Africa and Asia. Subtype B strains of group M viruses predominate in Australia in HIV-1 transmitted by homosexual or bisexual contact and IDU. However, non-B subtypes have been introduced, mostly acquired via heterosexual contact.

Measurement of Epstein-Barr virus DNA load using a novel quantification standard containing two EBV DNA targets and SYBR Green I dye

BackgroundReactivation of Epstein-Barr virus (EBV) infection may cause serious, life-threatening complications in immunocompromised individuals. EBV DNA is often detected in EBV-associated disease states, with viral load believed to be a reflection of virus activity. Two separate real-time quantitative polymerase chain reaction (QPCR) assays using SYBR Green I dye and a single quantification standard containing two EBV genes, Epstein-Barr nuclear antigen-1 (EBNA-1) and BamHI fragment H rightward open reading frame-1 (BHRF-1), were developed to detect and measure absolute EBV DNA load in patients with various EBV-associated diseases. EBV DNA loads and viral capsid antigen (VCA) IgG antibody titres were also quantified on a population sample.ResultsEBV DNA was measurable in ethylenediaminetetraacetic acid (EDTA) whole blood, peripheral blood mononuclear cells (PBMCs), plasma and cerebrospinal fluid (CSF) samples. EBV DNA loads were detectable from 8.0 × 102 to 1.3 × 108 copies/ml in post-transplant lymphoproliferative disease (n = 5), 1.5 × 103 to 2.0 × 105 copies/ml in infectious mononucleosis (n = 7), 7.5 × 104 to 1.1 × 105 copies/ml in EBV-associated haemophagocytic syndrome (n = 1), 2.0 × 102 to 5.6 × 103 copies/ml in HIV-infected patients (n = 12), and 2.0 × 102 to 9.1 × 104 copies/ml in the population sample (n = 218). EBNA-1 and BHRF-1 DNA were detected in 11.0% and 21.6% of the population sample respectively. There was a modest correlation between VCA IgG antibody titre and BHRF-1 DNA load (rho = 0.13, p = 0.05) but not EBNA-1 DNA load (rho = 0.11, p = 0.11).ConclusionTwo sensitive and specific real-time PCR assays using SYBR Green I dye and a single quantification standard containing two EBV DNA targets, were developed for the detection and measurement of EBV DNA load in a variety of clinical samples. These assays have application in the investigation of EBV-related illnesses in immunocompromised individuals.

Evidence of the circulation of pandemic influenza (H1N1) 2009 with D222D/G/N/S hemagglutinin polymorphisms during the first wave of the 2009 influenza pandemic

BACKGROUND The hemagglutinin HA1 D222G substitution may be associated with adverse outcomes in pandemic influenza A (H1N1) 2009 infections by enhancing the binding capacity of α2-3 sialyl receptors to pandemic influenza (H1N1) 2009 viruses. OBJECTIVES To investigate the emergence of the D222G mutation and other polymorphisms at this position during the first southern hemisphere pandemic wave in 2009. STUDY DESIGN A total of 127 samples that were nucleic acid test positive for pandemic influenza (H1N1) 2009 virus were subjected to a sequence-based genotypic assessment of viral populations. Specimens showing polymorphisms at position 222 were further cloned to characterise the viral quasispecies. RESULTS A high proportion of intensive care unit (ICU) admissions (20%) and outpatients with mild symptoms (11.3%) carried polymorphisms of D/G/N/S at position 222 in hemagglutinin. Viral quasispecies derived from the upper and lower respiratory tract (URT and LRT) in ICU patients showed comparable levels of 222G populations. CONCLUSION The detection of 222G quasispecies present in the URT in both ICU and outpatient groups suggest ready transmission of these variants, and its frequent detection (and clusters) in outpatients imply local community transmission.

Identification of 20 Common Human Enterovirus Serotypes by Use of a Reverse Transcription-PCR-Based Reverse Line Blot Hybridization Assay

ABSTRACT The more than 100 human enterovirus (HEV) serotypes can also be classified into four species, HEV-A to -D, based on phylogenetic analysis of multiple gene regions. Current molecular typing methods depend largely on reverse transcription-PCR (RT-PCR) amplification and nucleotide sequencing of the entire or 3′ half of the VP1 gene. An RT-PCR-based reverse line blot (RLB) hybridization assay was developed as a rapid and efficient approach to characterize common HEVs. Twenty HEV serotypes accounted for 87.1% of all HEVs isolated at an Australian reference virology laboratory from 1979 to 2007. VP1 sequences of all known HEV prototype strains were aligned to design one sense primer and three antisense primers for RT-PCR. After sequencing of the complete VP1 genes of 37 previously serotyped examples of the commonest 20 serotypes and alignment of these VP1 sequences with GenBank sequences, four serotype-specific probes for each serotype were designed for RLB. The RT-PCR-RLB assay was then applied to 132 HEV isolates, made up of the previously sequenced 37 isolates and another 95 serotyped clinical isolates. The RT-PCR-RLB genotypes corresponded with the serotypes for 131/132 isolates; the one exception was confirmed by VP1 sequencing, and the genotype was confirmed by repeat conventional serotyping. Genotyping by RT-PCR-RLB complements traditional serotyping methods and VP1 sequencing and has the advantages of convenience, speed, and accuracy. RT-PCR-RLB allows detection of specific enteroviral serotypes or genotypes associated with HEV outbreaks and significant disease.

Molecular Identification and Analysis of Nonserotypeable Human Enteroviruses

ABSTRACT Conventional approaches to characterizing human enteroviruses (HEVs) are based on viral isolation and neutralization. Molecular typing methods depend largely on reverse transcription-PCR (RT-PCR) and nucleotide sequencing of the entire or partial VP1 gene. A modified RT-PCR-based reverse line blot (RLB) hybridization assay was developed as a rapid and efficient way to characterize common and nonserotypeable (by neutralization) HEVs. Twenty HEV serotypes accounted for 87.1% of all HEVs isolated at a reference laboratory from 1979 to 2007; these common serotypes were identified using one sense and three antisense primers and a set of 80 serotype-specific probes in VP1 (F. Zhou et al., J. Clin. Microbiol. 47:2737-2743, 2009). In this study, one HEV-specific primer pair, two probes in the 5′ untranslated region (UTR), and a new set of 80 serotype-specific probes in VP1 were designed. First, we successfully applied the modified RT-PCR-RLB (using two HEV-specific probes and two sets of serotype-specific probes) to synchronously detect the 5′ UTR and VP1 regions of 131/132 isolates previously studied (F. Zhou et al., J. Clin. Microbiol. 47:2737-2743, 2009). Then, this method was used to identify 73/92 nonserotypeable HEV isolates; 19 nonserotypeable isolates were hybridized only with HEV-specific probes. The VP1 region of 92 nonserotypeable HEV isolates was sequenced; 73 sequences corresponded with one or both RLB results and 19 (not belonging to the 20 most common genotypes) were identified only by sequencing. Two sets of serotype-specific probes can capture the majority of strains belonging to the 20 most common serotypes/genotypes simultaneously or complementarily. Synchronous detection of the 5′ UTR and VP1 region by RT-PCR-RLB will facilitate the identification of HEVs, especially nonserotypeable isolates.

Epstein-Barr Virus Genotypes and Strains in Central Nervous System Demyelinating Disease and Epstein-Barr Virus-Related Illnesses in Australia

Objectives: To identify Epstein-Barr virus (EBV) genotypes and strains in samples from individuals with and without a first diagnosis of central nervous system (CNS) demyelinating disease (a possible precursor to multiple sclerosis) and patients with EBV-associated diseases in Australia. Methods: Samples from 55 EBV DNA and serology positive subjects including individuals with (n = 17) and without (n = 21) a first clinical diagnosis of CNS demyelination and patients with EBV-related diseases (n = 17) were examined. EBV genotype and strain were identified by sequence mutations within the Epstein-Barr nuclear antigen-2 region (EBNA-2) using DNA sequence analysis. Results: Both EBV genotypes, A and B, were detected (genotype A, 54/55, 98.2%; genotype B, 1/55, 1.8%). Within genotype A, GD1 was the most commonly detected strain (42/54, 77.7%), followed by B95-8 (9/54, 16.7%) and M-ABA (3/54, 5.6%). Genotype B, strain AG876, was found in one individual with CNS demyelinating disease. Conclusions: EBV genotype A and the GD1 strain were the common EBV genotypes isolated from individuals with and without CNS demyelinating disease, and in subjects with various EBV-related diseases. Although disease-specific genotypes or strains were not identified, this study provides useful insights into the molecular epidemiology of EBV infection in Australia.

Varicella Zoster virus

Varicella Zoster virus (VZV) is an alpha herpesvirus that causes chicken pox (varicella), usually in childhood. Following primary infection, VZV establishes a latent infection in the sensory nerve ganglia. Reactivation of VZV from the dorsal root ganglia, known as shingles or herpes zoster, may be seen decades later, usually in older people and immunocompromised patients. Shingles presents with or without rash and may lead to neurological disease [5], however CNS involvement is a rare manifestation after primary varicella infection. Detection of VZV in CSF by conventional virological methods is difficult as the virus is highly cell associated and has a narrow host range. DNA amplification methods have improved sensitivity over viral culture for the detection of viruses in CSF samples. Although enteroviruses are the major cause of aseptic meningitis in immunocompetent adults, VZV and herpes simplex virus are the next two most frequently detected aetiological agents [3, 4]. In recent years some leading laboratories have incorporated the practice of routinely testing for these three viruses in all CSF samples from patients presenting with suspected neurological symptoms [4]. As symptoms may not easily differentiate the diagnosis of viral meningitis, a definitive diagnosis by PCR is useful for the early initiation of antiviral treatment.