Tiffany G. Sheu

Surveillance for Neuraminidase Inhibitor Resistance among Human Influenza A and B Viruses Circulating Worldwide from 2004 to 2008

ABSTRACT The surveillance of seasonal influenza virus susceptibility to neuraminidase (NA) inhibitors was conducted using an NA inhibition assay. The 50% inhibitory concentration values (IC50s) of 4,570 viruses collected globally from October 2004 to March 2008 were determined. Based on mean IC50s, A(H3N2) viruses (0.44 nM) were more sensitive to oseltamivir than A(H1N1) viruses (0.91 nM). The opposite trend was observed with zanamivir: 1.06 nM for A(H1N1) and 2.54 nM for A(H3N2). Influenza B viruses exhibited the least susceptibility to oseltamivir (3.42 nM) and to zanamivir (3.87 nM). To identify potentially resistant viruses (outliers), a threshold of a mean IC50 value + 3 standard deviations was defined for type/subtype and drug. Sequence analysis of outliers was performed to identify NA changes that might be associated with reduced susceptibility. Molecular markers of oseltamivir resistance were found in six A(H1N1) viruses (H274Y) and one A(H3N2) virus (E119V) collected between 2004 and 2007. Some outliers contained previously reported mutations (e.g., I222T in the B viruses), while other mutations [e.g., R371K and H274Y in B viruses and H274N in A(H3N2) viruses) were novel. The R371K B virus outlier exhibited high levels of resistance to both inhibitors (>100 nM). A substantial variance at residue D151 was observed among A(H3N2) zanamivir-resistant outliers. The clinical relevance of newly identified NA mutations is unknown. A rise in the incidence of oseltamivir resistance in A(H1N1) viruses carrying the H274Y mutation was detected in the United States and in other countries in the ongoing 2007 to 2008 season. As of March 2008, the frequency of resistance among A(H1N1) viruses in the United States was 8.6% (50/579 isolates). The recent increase in oseltamivir resistance among A(H1N1) viruses isolated from untreated patients raises public health concerns and necessitates close monitoring of resistance to NA inhibitors.

Detection of Molecular Markers of Drug Resistance in 2009 Pandemic Influenza A (H1N1) Viruses by Pyrosequencing

ABSTRACT The M2 blockers amantadine and rimantadine and the neuraminidase (NA) inhibitors (NAIs) oseltamivir and zanamivir are approved by the FDA for use for the control of influenza A virus infections. The 2009 pandemic influenza A (H1N1) viruses (H1N1pdm) are reassortants that acquired M and NA gene segments from a Eurasian adamantane-resistant swine influenza virus. NAI resistance in the H1N1pdm viruses has been rare, and its occurrence is mainly limited to oseltamivir-exposed patients. The pyrosequencing assay has been proven to be a useful tool in surveillance for drug resistance in seasonal influenza A viruses. We provide a protocol which allows the detection of adamantane resistance markers as well as the I43T change, which is unique to the H1N1pdm M2 protein. The protocol also allows the detection of changes at residues V116, I117, E119, Q136, K150, D151, D199, I223, H275, and N295 in the NA, known to alter NAI drug susceptibility. We report on the detection of the first cases of the oseltamivir resistance-conferring mutation H275Y and the I223V change in viruses from the United States using the approach described in this study. Moreover, the assay permits the quick identification of the major NA group (V106/N248, I106/D248, or I106/N248) to which a pandemic virus belongs. Pyrosequencing is well suited for the detection of drug resistance markers and signature mutations in the M and NA gene segments of the pandemic H1N1 influenza viruses.

Pyrosequencing as a tool to detect molecular markers of resistance to neuraminidase inhibitors in seasonal influenza A viruses

Pyrosequencing has been successfully used to monitor resistance in influenza A viruses to the first class of anti-influenza drugs, M2 blockers (adamantanes). In contrast to M2 blockers, resistance to neuraminidase (NA) inhibitors (NAIs) is subtype- and drug-specific. Here, we designed a pyrosequencing assay for detection of the most commonly reported mutations associated with resistance to NAIs, a newer class of anti-influenza drugs. These common mutations occur at residues: H274 (N1), E119 (N2), R292 (N2), and N294 (N2) in seasonal influenza A viruses. Additionally, we designed primers to detect substitutions at D151 in NAs of N1 and N2 subtypes. This assay allows detection of mutations associated with resistance not only in grown viruses but also in clinical specimens, thus reducing the time needed for testing and providing an advantage for disease outbreak investigation and management. The pyrosequencing approach also allows the detection of mixed populations of virus variants at positions of interest. Analysis of viruses in the original clinical specimens reduces the potential for introducing genetic variance in the virus population due to selection by cell culture. Our results showed that, in at least one instance, a D151E change seen in N1NA after virus propagation in cell culture was not detected in the original clinical specimen. Although the pyrosequencing assay allows high throughput screening for established genetic markers of antiviral resistance, it is not a replacement for the NA inhibition assays due to insufficient knowledge of the molecular mechanisms of the NAI-resistance.

Host cell selection of influenza neuraminidase variants: implications for drug resistance monitoring in A(H1N1) viruses.

The neuraminidase inhibitors (NAIs), oseltamivir and zanamivir, are essential for treatment and prevention of influenza A and B infections. Oseltamivir resistance among influenza A (H1N1) viruses rapidly emerged and spread globally during the 2007-2008 and 2008-2009 influenza seasons. Approximately 20% and 90% of viruses tested for NAI susceptibility at CDC during these seasons, respectively, were resistant to oseltamivir (IC(50) approximately 100-3000 time>those of sensitive viruses), based on the chemiluminescent NA inhibition assay. Pyrosequencing analysis confirmed H274Y mutation (H275Y in N1 numbering) in the neuraminidase (NA) gene of oseltamivir-resistant viruses. Full NA sequence analysis of a subset of oseltamivir-resistant and sensitive virus isolates from both seasons (n=725) showed that 53 (7.3%) had mutations at residue D151 (D-->E/G/N), while 9 (1.2%) had mutations at Q136 (Q-->K) and 2 (0.3%) had mutations at both residues. Viruses with very high IC(50) for oseltamivir and peramivir, and elevated IC(50) for zanamivir, had H274Y in addition to mutations at D151 and/or Q136, residues which can potentially confer NAI resistance based on recent N1 NA crystal structure data. Mutations at D151 without H274Y, did not elevate IC(50) for any tested NAI, however, Q136K alone significantly reduced susceptibility to zanamivir (36-fold), peramivir (80-fold) and A-315675 (114-fold) but not oseltamivir. Mutations at D151 and Q136 were present only in MDCK grown viruses but not in matching original clinical specimens (n=33) which were available for testing, suggesting that these variants were the result of cell culture selection or they were present in very low proportions. Our findings provide evidence that propagation of influenza virus outside its natural host may lead to selection of virus variants with mutations in the NA that affect sensitivity to NAIs and thus poses implications for drug resistance monitoring and diagnostics.

Comprehensive assessment of 2009 pandemic influenza A (H1N1) virus drug susceptibility in vitro.

BACKGROUND Antiviral drugs are an important option for managing infections caused by influenza viruses. This study assessed the drug susceptibility of 2009 pandemic influenza A (H1N1) viruses collected globally between April 2009 and January 2010. METHODS Virus isolates were tested for adamantane susceptibility, using pyrosequencing to detect the S31N marker of adamantane resistance in the M2 protein and biological assays to assess viral replication in cell culture. To assess neuraminidase (NA) inhibitor (NAI) susceptibility, virus isolates were tested in chemiluminescent NA inhibition assays and by pyrosequencing to detect the H275Y (H274Y in N2 numbering) marker of oseltamivir resistance in the NA. RESULTS With the exception of three, all viruses that were tested for adamantane susceptibility (n=3,362) were resistant to this class of drugs. All viruses tested for NAI susceptibility (n=3,359) were sensitive to two US Food and Drug Administration-approved NAIs, oseltamivir (mean ±sd 50% inhibitory concentration [IC(50)] 0.25 ±0.12 nM) and zanamivir (mean IC(50) 0.29 ±0.09 nM), except 23 (0.7%), which were resistant to oseltamivir, but sensitive to zanamivir. Oseltamivir-resistant viruses had the H275Y mutation in their NA and were detected in patients exposed to the drug through prophylaxis or treatment. NA activity of all viruses was inhibited by the NAIs peramivir, laninamivir (R-125489) and A-315675, except for H275Y variants, which exhibited approximately 100-fold reduction in peramivir susceptibility. CONCLUSIONS This report provides data regarding antiviral susceptibility of 2009 pandemic influenza A (H1N1) surveillance viruses, the majority of which were resistant to adamantanes and sensitive to NAIs. These findings provide information essential for antiviral resistance monitoring and development of novel diagnostic tests for detecting influenza antiviral resistance.

Assessment of Pandemic and Seasonal Influenza A (H1N1) Virus Susceptibility to Neuraminidase Inhibitors in Three Enzyme Activity Inhibition Assays

ABSTRACT The neuraminidase inhibitors (NAIs) zanamivir and oseltamivir are currently the only antiviral drugs effective for the treatment and prophylaxis of 2009 pandemic influenza A (H1N1) virus infections. The proven potential of these viruses to acquire NAI resistance during treatment emphasizes the need to assess their NAI susceptibility. The 50% inhibitory concentrations (IC50s) are known to vary depending on the neuraminidase inhibition (NI) test used; however, few side-by-side comparisons of different NI assays have been done. In the present study, a panel of 11 isolates representing 2009 seasonal and pandemic influenza H1N1 viruses, including oseltamivir-resistant H275Y variants, were tested in three functional NI assays: chemiluminescent (CL), fluorescent (FL), and colorimetric (CM). The sensitivities of the viruses to zanamivir, oseltamivir, and three investigational NAIs (peramivir, R-125489, and A-315675) were assessed. All isolates with the exception of H275Y variants were sensitive to all five NAIs by all three NI assays. The H275Y variants showed substantially elevated IC50s against oseltamivir and peramivir. The three NI assays generally yielded consistent results; thus, the choice of NI assay does not appear to affect conclusions based on drug susceptibility surveillance. Each assay, however, offers certain advantages compared to the others: the CL assay required less virus volume and the FL assay provided the greatest difference in the IC50s between the wild type and the variants, whereas the IC50s obtained from the CM assay may be the most predictive of the drug concentrations needed to inhibit enzyme activity in humans. It would be desirable to develop an NI assay which combines the advantages of all three currently available assays but which lacks their shortcomings.

Detection of E119V and E119I Mutations in Influenza A (H3N2) Viruses Isolated from an Immunocompromised Patient: Challenges in Diagnosis of Oseltamivir Resistance

ABSTRACT The clinical use of the neuraminidase inhibitor (NAI) oseltamivir is associated with the emergence of drug resistance resulting from subtype-specific neuraminidase (NA) mutations. The influenza A/Texas/12/2007 (H3N2) virus isolated from an oseltamivir-treated immunocompromised patient exhibited reduced susceptibility to oseltamivir in the chemiluminescent neuraminidase inhibition (NI) assay (∼60-fold increase in its 50% inhibitory concentration [IC50] compared to that for a control virus). When further propagated in cell culture, the isolate maintained reduced susceptibility to oseltamivir in both chemiluminescent and fluorescent NI assays (∼50- and 350-fold increases in IC50, respectively). Sequencing analysis of the isolate revealed a mix of nucleotides coding for amino acids at position 119 of the NA [E119(V/I)]. Plaque purification of the isolate yielded E119V and E119I variants, both exhibiting reduced susceptibility to oseltamivir. The E119I variant also showed decreased susceptibility to zanamivir and the investigational NAIs peramivir and A-315675. The emergence of E119V variants in oseltamivir-treated patients has been previously reported; however, the E119I mutation detected here is a novel one which reduces susceptibility to several NAIs. Both mutations were not detected in unpropagated original clinical specimens using either conventional sequencing or pyrosequencing, suggesting that these variants were present in very low proportions (<10%) in clinical specimens and gained dominance after virus propagation in MDCK cells. All virus isolates recovered from the patient were resistant to adamantanes. Our findings highlight the potential for emergence and persistence of multidrug-resistant influenza viruses in oseltamivir-treated immunocompromised subjects and also highlight challenges for drug resistance diagnosis due to the genetic instability of the virus population upon propagation in cell culture.

Influenza B viruses with mutation in the neuraminidase active site, North Carolina, USA, 2010-11.

Oseltamivir is 1 of 2 antiviral medications available for the treatment of influenza B virus infections. We describe and characterize a cluster of influenza B viruses circulating in North Carolina with a mutation in the neuraminidase active site that may reduce susceptibility to oseltamivir and the investigational drug peramivir but not to zanamivir.

Detection of antiviral resistance and genetic lineage markers in influenza B virus neuraminidase using pyrosequencing

We report here the design of a pyrosequencing approach for the detection of molecular markers of resistance to the neuraminidase inhibitors zanamivir and oseltamivir in influenza viruses of type B. Primers were designed to analyze the sequences at eight amino acid positions E119, R152, D198, I222, S250, H274, R371, and G402 (universal A/N2 numbering) in the neuraminidase (NA) which have been previously found to be associated with resistance or reduced susceptibility to oseltamivir and/or zanamivir in the NA inhibition assay. In addition, the designed primers could be utilized to the distinguish between the NAs of influenza B viruses from the two major lineages (Victoria and Yamagata) that have co-circulated globally in recent years, thus providing a valuable tool for virus strain surveillance.

Assays for monitoring susceptibility of influenza viruses to neuraminidase inhibitors

Please cite this paper as: Okomo‐Adhiambo et al. (2012) Assays for monitoring susceptibility of influenza viruses to neuraminidase inhibitors. Influenza and Other Respiratory Viruses 7(Suppl. 1), 44–49.