Validated RealTime reverse transcriptase PCR methods for the diagnosis and pathotyping of Eurasian H7 avian influenza viruses

Slomka, Marek J; Pavlidis, Theo; Coward, Vivien J; Voermans, John; Koch, Guus; Hanna, Amanda; Banks, Jill; Brown, Ian H.

doi:10.1111/j.1750-2659.2009.00083.x

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Validated RealTime reverse transcriptase PCR methods for the diagnosis and pathotyping of Eurasian H7 avian influenza viruses

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Author(s): Marek J. Slomka ¹ , Theo Pavlidis ¹ , Vivien J. Coward ¹ , John Voermans ² , Guus Koch ² , Amanda Hanna ¹ , Jill Banks ¹ , Ian H. Brown ¹

Publication date (Electronic): 15 June 2009

Journal: Influenza and Other Respiratory Viruses

Publisher: Blackwell Publishing Ltd

Keywords: H7 avian influenza virus, pathotyping, RRT PCR, validation

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Abstract

Background Avian influenza (AI) caused by H7 AI viruses (AIVs) of both low pathogenicity (LP) and high pathogenicity (HP) are notifiable poultry diseases.

Objectives Design and validate two RealTime reverse transcriptase polymerase chain reactions (RRT PCRs) for Eurasian H7 AIV detection and pathotyping.

Methods The H7 RRT PCRs amplified within the (i) HA2 and (ii) cleavage site CS regions of the haemagglutinin gene. Both were validated against 65 H7 AIVs, 57 non‐H7 AIVs and 259 poultry swabs in comparison to M gene (AI generic) RRT PCR and virus isolation (VI). An additional 38 swabs and 20 tissue specimens extended validation against M gene RRT PCR.

Results Both H7 RRT PCRs amplified all 61 Eurasian lineage H7 AIVs and none of 57 non‐H7 AIVs. A total of 297 poultry swabs were used to determine diagnostic sensitivity and specificity relative to M gene RRT PCR, sensitivity was 95·4% and 64·6% for the HA2 and CS RRT PCRs respectively, and specificity 97·9% and 99·6% respectively. The H7 HA2 RRT PCR was more sensitive than VI. This was emphasized by analysis of 37 swabs from turkeys infected experimentally with HPAI H7N1 virus sampled at 24 hours post‐inoculation and LPAI H7N1 chicken infections sampled at 40–64 hours. Although less sensitive, usefulness of the H7 CS RRT PCR was confirmed by the correct molecular pathotyping for all 61 Eurasian lineage H7 AIVs tested.

Conclusions The high sensitivity of H7 HA2 RRT PCR confirms its suitability for use in poultry surveillance and disease diagnosis. H7 CS RRT PCR provides an opportunity for rapid pathotyping of H7 AIVs.

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Most cited references 16

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Survey of the hemagglutinin (HA) cleavage site sequence of H5 and H7 avian influenza viruses: amino acid sequence at the HA cleavage site as a marker of pathogenicity potential.

D Senne, B Panigrahy, Y. Kawaoka … (2015)

The deduced amino acid sequence at the hemagglutinin (HA) cleavage site of 76 avian influenza (AI) viruses, subtypes H5 and H7, was determined by reverse transcription-polymerase chain reaction and cycle sequencing techniques to assess pathogenicity. Eighteen of the 76 viruses were isolated in 1993 and 1994 from various sources in the United States. In addition, 34 H5 (4 highly pathogenic [HP] and 30 non-highly pathogenic [non-HP]) and 24 H7 (3 HP and 21 non-HP) repository viruses, isolated between 1927 and 1992, were sequenced and the sequences compared to those in recent isolates. All repository HP H5 and H7 viruses studied had multiple basic amino acids adjacent to the HA cleavage site and most had basic amino acids in excess of the proposed minimum motif B-X-B-R (B = basic amino acids arginine or lysine, X = nonbasic amino acid, R = arginine) that has been associated with high pathogenicity. Of the non-HP viruses studied, 35 of 38 for H5 and 30 of 31 for H7 conformed to the motif B-X-X-R and B-X-R, respectively. Two non-HP H5 viruses had the motif X-X-X-R at the cleavage site and a third had the motif B-X-X-K (K = basic amino acid lysine). One non-HP H7 (A/Pekin robin/CA/30412-5/94) had four basic amino acids (K-R-R-R) adjacent to the cleavage site. Although the Pekin robin isolate did not produce disease in chickens under the conditions of the study it did have the amino acid sequence compatible with that in HP AI viruses and, therefore, is considered potentially HP. This is the first account of an H7 virus that is non-HP in chickens but meets the molecular criterion to be classified as HP.

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Validated H5 Eurasian real-time reverse transcriptase-polymerase chain reaction and its application in H5N1 outbreaks in 2005-2006.

M J Slomka, T. Pavlidis, J. Banks … (2007)

Real time reverse transcriptase (RRT)-polymerase chain reaction (PCR) for the detection of Eurasian H5 avian influenza virus (AIV) isolates was adapted from an existing protocol, optimized, and validated using a number of genetically diverse H5 isolates (n = 51). These included 34 "Asian lineage" H5N1 highly pathogenic avian influenza (HPAI) viruses (2004-2006), plus 12 other H5 isolates from poultry outbreaks and wild birds in the Eastern Hemisphere (1996-2005). All 51 were positive by H5 Eurasian RRT-PCR. Specificity was assessed by testing representative isolates from all other AL virus subtypes (n = 52), non-AI avian pathogens (n = 8), plus a negative population of clinical specimens derived from AI-uninfected wild birds and poultry (n = 604); all were negative by H5 Eurasian RRT-PCR. RNA was directly extracted from suspect HPAI H5N1 clinical specimens (Africa, Asia, and Europe; 2005-2006; n = 58) from dead poultry and wild birds, and 55 recorded as positive by H5 Eurasian RRT-PCR: Fifty-one of these 55 were in agreement with positive AIV isolation in embryonated chickens' eggs. H5 Eurasian RRT-PCR was invaluable in H5 outbreak diagnosis and management by virtue of its rapidity and high degree of sensitivity and specificity. This method provides a platform for automation that can be applied for large-scale intensive investigations, including surveillance.

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Development and validation of a one-step real-time PCR assay for simultaneous detection of subtype H5, H7, and H9 avian influenza viruses.

Bianca Zecchin, Alessandra Drago, Giovanni Cattoli … (2008)

Among the different hemagglutinin (HA) subtypes of avian influenza (AI) viruses, H5, H7, and H9 are of major interest because of the serious consequences for the poultry industry and the increasing frequency of direct transmission of these viruses to humans. The availability of new tools to rapidly detect and subtype the influenza viruses can enable the immediate application of measures to prevent the widespread transmission of the infection. In this study, a novel one-step real-time reverse transcription-PCR (RRT-PCR) was developed to detect simultaneously the H5, H7, and H9 subtypes of AI viruses from clinical samples of avian origin. The sensitivity of the RRT-PCR assay was determined by using in vitro-transcribed RNA and 10-fold serial dilutions of titrated AI viruses. High sensitivity levels were obtained, with limits of detection ranging from 10(1) to 10(3) RNA copies and from 10(1) 50% egg infectious dose (EID(50))/100 microl to 10(2.74) EID(50)/100 microl with titrated viruses. Excellent results were achieved in the intra- and interassay variability tests. The comparison of the results with those obtained from the analysis of 725 avian samples by means of the reference method (virus isolation [VI]) showed a high level of agreement. To date, this is the first real-time PCR protocol available for the simultaneous detection of AI viruses belonging to subtypes H5, H7, and H9, and the results obtained indicate that this method is suitable as a routine laboratory test for the rapid detection and differentiation of the three most-important AI virus subtypes in samples of avian origin.

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Author and article information

Journal

Journal ID (nlm-ta): Influenza Other Respir Viruses

Journal ID (iso-abbrev): Influenza Other Respir Viruses

Journal ID (doi): 10.1111/(ISSN)1750-2659

Journal ID (publisher-id): IRV

Title: Influenza and Other Respiratory Viruses

Publisher: Blackwell Publishing Ltd (Oxford, UK )

ISSN (Print): 1750-2640

ISSN (Electronic): 1750-2659

Publication date (Electronic): 15 June 2009

Publication date (Print): July 2009

Volume: 3

Issue: 4 ( doiID: 10.1111/irv.2009.3.issue-4 )

Pages: 151-164

Affiliations

[ ¹ ]Avian Virology Workgroup, Virology Department, Veterinary Laboratories Agency (VLA Weybridge), Addlestone, Surrey, UK

[ ² ]Virology Dept, Central Veterinary Institute (Centraal Veterinair Instituut, CVI), Lelystad, The Netherlands

Author notes

[*]Dr Marek J Slomka, Avian Virology Workgroup, Virology Dept, Veterinary Laboratories Agency (VLA), Woodham Lane, Addlestone, Surrey, KT15 3NB, United Kingdom. E‐mail: m.slomka@ 123456vla.defra.gsi.gov.uk