Abstract

Detection and molecular characterization of infectious laryngotracheitis virus in laying hens in Brazil

Villarreal LYB^I; Brandão PEB^II; Chacón JLV^I; Doretto Junior L^III; Ito N^IV; Gama NS^V; Ishizuka MM^VI; Luchese A^VII; Buchala F^VII; Astolfi-Ferreira CS^I; Ferreira AJP^I

^IDepartamento de Patologia, FMVZ - USP

^IIInstituto Pasteur - São Paulo, SP

^IIILARA - Campinas, SP

^IVSPAVE - São Paulo, SP

^VCAPTAA- Instituto Biológico de São Paulo - APTA

^VIDepartamento de Medicina Veterinária Preventiva e Saúde Animal, FMVZ - USP

^VIICDA - SAA, SP

^{Correspondence} correspondence to Antônio José Piantino Ferreira Departamento de Patologia Faculdade de Medicina Veterinária e Zootecnia Universidade de São Paulo Av. Prof. Dr Orlando Marques de Paiva, 87 Cidade Universitária - Butantã 05.508-900 - São Paulo, SP, Brasil E-mail: ajpferr@usp.br

ABSTRACT

Avian Infectious Laryngotracheitis, caused by Infectious Laryngotracheitis Virus (ILTV), has been reported for decades in Brazilian laying and broiler flocks. More recently, outbreaks have occurred in São Paulo State. This study reports the application of PCR and DNA sequencing targeted to the p32 gene of ILTV using laying chicken samples from Bastos, São Paulo, Brazil. Three out of four field samples were positive by PCR. DNA sequencing of two samples evidenced homology of the amplified fragments with the p32 gene of ILTV. The results definitely confirmed the presence of ILTV in the birds during the outbreak. Further studies are needed to establish the sources of infection and to determine whether the detected virus was originated from vaccine or field virus strains.

Keywords: Avian infectious laryngotracheitis, Brazil, p32, PCR, sequencing.

INTRODUCTION

Avian Infectious Laryngotracheitis Virus (ILTV) is the common name of the Gallid herpesvirus 1 species, classified in the family Herpesviridae, subfamily Alphaherpesvirinae, genus Iltovirus, which genome is a linear double-stranded DNA with 32 kb (Johnson & Tyack, 1995).

The term infectious laryngotracheitis comes from the clinical symptoms caused by ILTV, such as dyspnea, coughing with expectoration of blood-stained mucus and nasal discharge, decreased egg production, conjunctivitis and sinusal swelling (Bagust & Guy, 1997).

Major gross lesions observed in affected birds are inflammatory processes in the trachea and larynx, which might vary from hemorrhagic to mucoid. Diphtheritic lesions with mucoid or hemorrhagic membranes and necrotic tissue may be seen along the trachea and may spread to the inferior respiratory tract. ILTV disseminates from bird to bird by aerogenic route and via fomites until virtually all birds are affected; egg transmission has not been reported yet (Davidson et al., 1988; Linares et al., 1994; Bagust & Guy, 1997).

As a herpesvirus, ILTV is expected to become latent in some tissues of an infected bird as circular DNA in the cytoplasm or by integrating its DNA to the genomic DNA of the host cell. This is true not only in field strains but also in vaccine strains, with implications to the clearance of the virus from the infected birds and in the control of the disease on poultry flocks (Bagust & Johnson, 1995).

The improvement of simple and objective diagnostic techniques such as the Polymerase Chain Reaction (PCR) and DNA sequencing is required to confirm ILTV infections when the disease is clinically suspected and situations in which no disease is suspected, such as latent infections.

The first report of infectious laryngotracheitis in Brazil dates from 1974 and since then many cases were reported based on serological, virological and histopathological tests (Hipólito et al., 1974; Vargas, 1995; Beltrão et al, 2002; Ito et al, 2003; Gama, 2004).

This article reports the detection of ILTV by PCR and DNA sequencing targeted to the p32 gene in samples collected from an outbreak of infectious laryngotracheitis in laying hens in Brazil.

MATERIAL AND METHODS

History

Four suspicious virus isolates that induced characteristic ILTVlesions in the chorioallantoic membrane (CAM) of embryonated eggs were sent to the Laboratory of Ornitopathology from University of São Paulo by Ministério da Agricultura, Pecuária e Abastecimento (MAPA) and Laboratório Regional de Apoio Animal (LARA) in order to confirm and characterize ILTV.

The isolates originated from samples collected during an outbreak in Bastos, São Paulo, in 2002; the samples were stored at -80º C prior to the tests.

Polymerase Chain Reaction (PCR)

Primers

The pair of primers described by Vögtlin et al (1999) was used in the PCR (Table 1). These primers targeted the p32 gene of ILTV and produced a 588-bp fragment.

DNA extraction

DNA was extracted according to Chomczinsky (1993) and was stored at -80ºC until analysis.

The positive control was allantoic fluid of SPF chicken embryos inoculated with a ILTV reference strain from MAPA and the negative control was PBS 0.01 M, pH 7.2.

Amplification

Five microliters of the extracted DNA were added to the PCR mix (1 x PCR Buffer^TM (Invitrogen^TM), 0.2mM of each dNTP, 0.5 pmol/µL of each primer (ILTU2 and ILTL2), 1.5mM MgCl₂, 25.25 µL of ultra-pure water and 1.25U Taq DNA polymerase to a final reaction of 50µL). The reaction was carried out in a Biometra™ termocycler, with a initial denaturation at 95º C for 5 minutes, followed by 35 cycles at 95ºC for 1min, 55ºC for 1.5min, 72ºC for 2min, and a final extension at 72ºC for 10min.

Ten microliters of the PCR product were analyzed by electrophoresis in 1.5% agarose gel, stained with 0.5 mg/mL ethidium bromide and observed under UV light for visualization of the 588-bp fragment.

DNA sequencing

The PCR products (588 bp) from two samples were submitted to DNA sequencing to confirm the specificity of the amplicons.

The sequencing reaction contained 4 mL of BigDye 3 (Applied Biosystems^®), 4 mL of 5 x Sequencing Buffer (Applied Biosystems^®), 4 pmol of each primer ILTU2 and ILTL2 and 10 ng of target DNA. Product sequences were resolved on an ABI-310 automatic sequencer (Applied Biosystems^®).

Sequence homology of ILTV was evaluated by alignment and comparison with sequences from GenBank using BLASTn (www.ncbi.nlm.nih.gov/BLAST).

RESULTS

Polymerase Chain Reaction (PCR)

As shown in Figure 1, the expected fragment of 588 bp of the p32 gene of ILTV was obtained in three out of four samples, as well as in the reference strain used as positive control; no bands were detected in the negative control.

DNA sequencing

The amplicons of the two positive samples showed sequences with 534 and 518 nucleotides (nucleotide identity of 99%). BLASTn retrieved only sequences from ILTV (mean nucleotide identities of 99.2% and 98.4% to samples 01 and 02 respectively), and no other sequences showed significant scores (Figure 2).

The sequences of p32 gene were deposited in the GenBank under the accesion numbers AY598339 and AY541676.

DISCUSSION

Four samples of CAM collected from chicken embryo eggs inoculated with Infectious Laryngotracheitis- suspected tissues from laying chickens were analyzed by PCR and three showed positive results to ILTV. The specificity of the PCR product was confirmed when two of these were submitted to DNA sequencing.

The positive results in the PCR directed to the p32 gene of ILTV is in agreement with the characteristic symptoms of laryngotracheitis observed in the surveyed birds, as tracheitis, watery eyes and dyspnea.

Thus, the PCR described in the present study is a useful tool to confirm the diagnosis of birds suspected of infectious laryngotracheitis. Results can be obtained in less than 24 hours, which is an essential point in outbreaks, when fast decisions are required.

The application of the procedures described herein must be evaluated for field strains collected from suspected birds prior to the inoculation in embryonated eggs, considering that PCR applied to viral diagnosis is a highly sensitive technique (Forghani & Erdman, 1994) that allows the detection of infection in a very early phase when compare to serological reactions (Pang et al., 2002).

Besides, as shown by sequencing of the PCR products of two samples, the primers and amplification conditions described here allow a specific and safe diagnosis when applied to ILTV strains present in Brazilian poultry farms. The DNA sequencing technique can be applied to the identification of field and vaccine strains, since some available molecular markers permit such differentiation (Chang et al, 1997).

These results definitely confirm the presence of ILTV in the Infectious Laryngotracheitis outbreak in the region of Bastos, São Paulo State. Nevertheless, it is necessary to establish a continuous epidemiological surveillance in this region to determine the incidence, prevalence and economic impact of the disease, using conventional methods such as isolation in embryonated eggs and also the PCR described herein.

Furthermore, it is fundamental to identify the origin of the viruses detected in this outbreak, i.e., whether they are field or vaccine strains, in order to determine the source of infection and routes of transmission. The evaluation of the molecular diversity of field strains in the surveyed area, involving also other regions of the genome of the pathogen, might also contribute to the establishment of prophylactic and control measures.

Arrived: july / 2004

Approved: november / 2004

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