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Detection of enteric viruses in pancreas and spleen of broilers with runting-stunting syndrome (RSS)

Detecção de vírus entéricos em pâncreas e baço de frangos com a síndrome de nanismo e raquitismo (RSS)

Abstract:

Enteric disease is a multifactorial problem in chickens, which causes gastrointestinal alterations, elevated feed conversions and impairment. In the last years, several enteric viruses were implicated in enteric disease; case reports have shown their presence alone or in concomitant infections during outbreaks and have suggested that they might be determining factors in the aetiology of enteric disease. This study shows high detection rates of enteric viruses in the pancreas and spleen in samples from an outbreak of enteritis and malabsorption in 16 chicken flocks (n=80 broilers). Avian nephritis virus (ANV) was the most ubiquitous virus, present in 75% of the flocks followed by avian rotavirus group A (ART-A) with 68.75%, and by chicken astrovirus (CAstV) and chicken parvovirus (ChPV) in 43.75% of samples. Viruses were present in the pancreas of positive flocks at extremely high rates: 100% for ART-A, 91.7% for ANV, 100% for CAstV and 57.14% for ChPV. By contrast, only 16.7% and 57.14% of intestine samples were positive for ANV and CAstV, respectively. Avian reovirus (AReo) and avian adenovirus group 1 (FAdV-1) were not detected. These results suggest that high viral detection rates in pancreas samples may be a result of viremia during enteric disease, with subsequent damage of the exocrine pancreas, leading to runting-stunting syndrome (RSS).

Index Terms:
Broiler; enteric viruses; detection; pancreas; spleen; runting-stunting syndrome; RSS

Resumo:

A doença entérica é um problema multifatorial em galinhas que causa alterações gastrointestinais, conversão alimentar elevada e deficiência de crescimento. Nos últimos anos, os vírus entéricos foram associados à doença entérica; casos reportados mostraram a infecção de um único vírus e também infecções concomitantes durante os surtos sugerindo a presença de múltiplos fatores etiológicos nas doenças entéricas. Este estudo mostra uma alta taxa de detecção dos vírus entéricos em amostras de pâncreas e baço de um surto de enterite e má-absorção em 16 lotes de frangos (n=80 frangos). O vírus de nefrite aviária (ANV) foi o vírus mais detectado, estando presente em 75% dos lotes seguido pelo rotavírus aviário grupo A (ART-A) em 68,75% dos casos, e pelo astrovirus (CAstV) e parvovírus aviários (ChPV), ambos em 43,75% das amostras. Os vírus estavam presentes no pâncreas dos lotes positivos em percentuais elevados: 100% para ART-A e CAstV; 91,7% para ANV, e em 57,14% para ChPV. Em contraste, somente 16,7% e 57,14%, em amostras de intestino, foram positivos para ANV e CAstV, respectivamente. Reovírus aviário (AReo) e o adenovírus do grupo 1 (FAdV-1) não foram detectados. Estes resultados sugerem que os elevados percentuais de vírus detectados em amostras de pâncreas podem estar associados à viremia durante a doença entérica, com subsequente lesão no pâncreas exócrino das aves levando ao desenvolvimento da síndrome de nanismo e raquitismo.

Termos de Indexação:
Frangos; vírus entéricos; detecção; pâncreas; baço; síndrome de nanismo e raquitismo; RSS

Introduction

Enteric disease in poultry is a multifactorial problem that is not fully understood. This disorder (also known as malabsorption syndrome and as runting-stunting syndrome or RSS) is a multifactorial disease of chickens which results in gastrointestinal alterations along with elevated feed conversion and decreased body weight (Rebel et al. 2006Rebel J.M., Balk F.R., Post J., Van Hemert S., Zekarias B. & Stockhofe N. 2006. Malabsorption syndrome in broilers. World´s Poult. Sci. J. 62:17-29., Saif 2013Saif Y.M. 2013. Viral Enteric Infections, p.375-376. In: Swaine D.E., Glisson J.R., McDougald N.L.K., Suarez D.L. & Nair V. (Eds), Diseases of Poultry. Wiley-Blackwell, Oxford, UK., Nuñez et al. 2016aNuñez L.F., Sá L.R.M., Parra S.H.S., Astolfi-Ferreira C.S., Carranza C. & Piantino Ferreira A.J. 2016a. Molecular detection of chicken pARTovirus in broilers with enteric disorders presenting curving of duodenal loop, pancreatic atrophy, and mesenteritis. Poult. Sci. DOI: 10.3382/ps/pev439
https://doi.org/10.3382/ps/pev439...
, Nuñez et al. 2016bNuñez L.F., Santander Parra S.H., Carranza C., Astolfi-Ferreira C.S., Buim M.R. & Piantino Ferreira A.J. 2016b. Detection and molecular characterization of chicken astrovirus associated with chicks that have an unusual condition known as "white chicks" in Brazil. Poult. Sci. <http://dx.doi.org/10.3382/ps/pew062>
http://dx.doi.org/10.3382/ps/pew062...
). Bacterial, protozoal and viral agents are known to be involved in the development of outbreaks, which are also related to flock management and to the immunological status of flocks (Nuñez & Ferreira 2013Nuñez L.F.N. & Ferreira A.J.P. 2013. Viral agents related to enteric disease in commercial chicken flocks, with special reference to Latin America. World´s Poult. Sci. J. 69:853-864., Moura-Alvarez et al. 2013Moura-Alvarez J., Chacon J.L., Scanavini L.S., Nuñez L.F.N., Astolfi-Ferreira C.S., Jones R.C. & Piantino Ferreira A.J. 2013. Enteric viruses in Brazilian turkey flocks: single and multiple virus infection frequency according to age and clinical signs of intestinal disease. Poult. Sci. 92:945-955., Moura-Alvarez et al. 2014Moura-Alvarez J., Nuñez L.F., Astolfi-Ferreira C.S., Knöbl T., Chacón J.L., Moreno A.M., Jones R.C. & Ferreira A.J. 2014. Detection of enteric pathogens in Turkey flocks affected with severe enteritis, in Brazil. Trop. Anim. Health Prod. 46:1051-1058.). In the last years, enteric viruses, such as chicken astrovirus (CAstV), chicken parvovirus (ChPV), avian rotavirus (ART), fowl adenovirus type I (FAdV I) and avian reovirus (AReo) have been increasingly implicated. This report is showing its presence alone or in concomitant infections during outbreaks and suggesting that they play an important role in the aetiology of enteric disease (Zsak et al. 2013Zsak L., Cha R.M. & Day J.M. 2013. Chicken PARTovirus-induced runting-stunting syndrome in young broilers. Avian Dis. 57:123-127.). These recent reports have led to the development of experimental models to recreate the disease and to try to determine its etiopathogenicity (Zsak et al. 2013Zsak L., Cha R.M. & Day J.M. 2013. Chicken PARTovirus-induced runting-stunting syndrome in young broilers. Avian Dis. 57:123-127., Decaesstecker et al. 1989Decaesstecker M., Charlier G., Peeters J. & Meulemans G. 1989. Pathogenicity of fowl enteroviruses. Avian Pathol. 18:697-713., Nuñez et al. 2015aNuñez L.F., Parra S.H., Mettifogo E., Catroxo M.H., Astolfi-Ferreira C.S. & Piantino Ferreira A.J. 2015a. Isolation of chicken astrovirus from specific pathogen-free chicken embryonated eggs. Poult Sci. 94:947-954.). However, due to the complex nature of this disease, the exact aetiology remains unknown.

The objective of this study was to detect viruses associated with RSS in Brazilian commercial chicken flocks.

Materials and Methods

Description of the problem. In late 2012, 16 broiler flocks from the state of Minas Gerais, Brazil, were reported to be excreting undigested feed and aqueous feces and to be exhibiting delayed growth and increased mortality, at variable rates. Necropsy revealed severe congestion of the duodenal walls compatible with duodenitis, and runting-stunting syndrome (RSS) was mooted.

Sampling. Five broilers aged 8 to 28 days randomly, chosen from each affected flock described above, were submitted to the Avian Diseases Laboratory at the FMVZ-USP, São Paulo/SP, Brazil, giving a total of 80 birds analyzed. A separate pool of each organ (gastrointestinal tract, spleen or pancreas) was obtained from the five sampled birds from each flock, so were collected 16 samples (pool) of intestinal tract, 16 samples (pool) of pancreas and 10 samples (pool) of spleen, giving a total of 42 samples, all samples were submitted to molecular analyses for the presence of enteric viruses.

Nucleic acid extraction for viral detection. Tissues from the intestine, pancreas or spleen of five (05) birds of each flock were pooled separately and homogenized; pooled samples from each tissue type and from each flock were homogenized separately and diluted in 1.5-mL microcentrifuge tubes containing 0.1 M sterile PBS, pH 7.4, at a 1:1 proportion. These diluted samples were then frozen at -20°C for 10 minutes and thawed at 56°C for 1 minute, and this process was repeated three times, including homogenization between freeze-thaw cycles and vortexing for 20 seconds. For DNA extraction, the samples were centrifuged at 12.000xg for 20 minutes at 4°C, and for RNA extraction, the samples were centrifuged for 30 minutes under the same conditions. The resulting supernatants were stored at -20°C until analysis. DNA and RNA were extracted from the supernatants using TRIzol® (Invitrogen, Valencia, CA, USA) according to the manufacturer's instructions.

PCR and RT-PCR detection of viral agents. The screening procedures performed to detect the most common enteric viruses in Brazilian flocks (Moura-Alvarez et al. 2013Moura-Alvarez J., Chacon J.L., Scanavini L.S., Nuñez L.F.N., Astolfi-Ferreira C.S., Jones R.C. & Piantino Ferreira A.J. 2013. Enteric viruses in Brazilian turkey flocks: single and multiple virus infection frequency according to age and clinical signs of intestinal disease. Poult. Sci. 92:945-955.) included polymerase chain reaction (PCR) assays for the detection of avian adenovirus group 1 (FAdV-1) (Meulemans et al. 2001Meulemans G., Boschmans M., Berg T.P. & Decaesstecker M. 2001. Polymerase chain reaction combined with restriction enzyme analysis for detection and differentiation of fowl adenoviruses. Avian Pathol. 30:655-660.) and chicken parvovirus (ChPV) (Zsak et al. 2009Zsak L., Strother K.O. & Day J.M. 2009. Development of a polymerase chain reaction procedure for detection of chicken and turkey parvoviruses. Avian Dis. 53:83-88.) and RT-PCR analysis for chicken astrovirus (CAstV), avian nephritis virus (ANV), avian rotavirus group A (ART-A) (Day et al. 2007Day J.M., Spackman E. & Pantin-Jackwood M.J. 2007. A multiplex RT-PCR test for the differential identification of turkey astrovirus type 1, turkey astrovirus type 2, chicken astrovirus, avian nephritis virus, and avian rotavirus. Avian Dis. 51:681-684.) and Avian reovirus (AReo) (Pantin-Jackwood et al. 2008Pantin-Jackwood M.J., Day J.M., Jackwood M.W. & Spackman E. 2008. Enteric viruses detected by molecular methods in commercial chicken and turkey flocks in the United States between 2005 and 2006. Avian Dis. 52:235-244.). Target genes, primers and amplicon sizes are listed in Table 1. ChPV, FAdV-1, CAstV and ANV strains previously isolated from Brazilian flocks and whose identity was confirmed by sequencing were used as positive controls in the molecular assays. Additionally, Nebraska calf diarrhoea virus and the S1133 strain were used as controls for rotavirus and reovirus, respectively.

Table 1:
Primer sequences, amplicon sizes for RT-PCR and PCR assays performed to detect enteric viruses in chickens with RSS in Brazil

Results

Table 2 shows the detection rates of the screened viruses. All flocks that presented enteric problems were positive for at least one of these pathogens. Avian nephritis virus (ANV) and avian rotavirus group A (ART-A) were present in more than 60% of the flocks (75% and 68.75%, respectively). Both chicken astrovirus (CAstV) and chicken parvovirus (ChPV) were both detected in 43.75% of the samples; while no avian reovirus (AReo) or avian adenovirus group 1 (FAdV-1) was detected. In addition, as expected, concomitant infection with two or more viruses were observed in most flocks (75%), and single viral infections were observed in only 25% (n=4) of the flocks. Notably, in the 4 flocks with single viral infections, the main organ in which virus was detected was the pancreas. In general, the pancreas was the organ in which viruses were detected at the highest rates; 33 out of 37 (89.1%) pancreas samples were positive, by contrast only 6 of 37 (16.2%) pooled intestine samples were positive for the presence of at least one enteric virus. Enteric viruses were also detected at high rates in spleen samples from the different flocks; 77.3% of all spleen samples were positive for at least one virus (Table 3). Finally, a regression analysis (Minitab® software) showed no relationship between the age of birds (8-28 days) and the molecular detection of one or more enteric pathogens (Fig.1).

Table 2:
Viral detection in each flock and the presence of concomitant infections
Table 3:
Distribution of enteric viruses in tissues of naturally infected broiler chickens

Fig.1:
Regression analysis showing the relationship between the ages of birds and the molecular detection of viral agents. A result of p > 0.05 indicated that there was no relation between the ages of birds and the molecular detection of enteric pathogens in these sampled flocks.

Discussion

In this case of severe duodenitis and RSS in 16 broiler flocks, molecular analysis showed that concomitant infection with 2 or 4 viruses were detected in 75% of the flocks, while single viral infections were detected in the remaining 25% of the flocks. Analysis revealed that the prevalence of viruses such as avian nephritis virus (ANV), avian rotavirus group A (ART-A), chicken astrovirus (CAstV) and chicken parvovirus (ChPV) were high among broilers with digestive disorders. These results are consistent with previous reports from Brazil and from several other poultry-producing countries, where enteric problems and growth retardation are often linked to the detection of one or more of these enteric viruses (Otto et al. 2012Otto P.H., Ahmed M.U., Hotzel H., Machnowska P., Reetz J., Roth B., Trojnar E. & Johne R. 2012. Detection of avian rotaviruses of groups A, D, F and G in diseased chickens and turkeys from Europe and Bangladesh. Vet. Microbiol. 156:8-15., Koo et al. 2013Koo B., Lee H., Jeon E., Jang H., Han M. & Mo I. 2013. An unusual case of concomitant infection with chicken astrovirus and group A avian rotavirus in broilers with a history of severe clinical signs. J. Vet. Sci. 14:231-233., Villarreal et al. 2006Villarreal L., Uliana G., Valenzuela G., Chacon J.L., Saidenberg A., Sanches A., Brandão P.E., Jerez J.A. & Ferreira A.J.P. 2006. Rotavirus detection and isolation from chickens with or without symptoms. Braz. J. Poult. Sci. 8:187-191.) and support the hypothesis that RSS has a multifactorial aetiology. Despite of a strong relationship between pathogen detection and the development of the disease the diagnoses has not been clearly established (Koo et al. 2013Koo B., Lee H., Jeon E., Jang H., Han M. & Mo I. 2013. An unusual case of concomitant infection with chicken astrovirus and group A avian rotavirus in broilers with a history of severe clinical signs. J. Vet. Sci. 14:231-233.). Notwithstanding, the diversity of viruses detected during outbreaks, variations in virulence among serotypes or strains, or similarities in the signs and lesions are observed (Saif 2013Saif Y.M. 2013. Viral Enteric Infections, p.375-376. In: Swaine D.E., Glisson J.R., McDougald N.L.K., Suarez D.L. & Nair V. (Eds), Diseases of Poultry. Wiley-Blackwell, Oxford, UK.). Thereby, concomitant infections are more likely to have a detrimental, synergistic effect on birds (Nuñez & Ferreira 2013Nuñez L.F.N. & Ferreira A.J.P. 2013. Viral agents related to enteric disease in commercial chicken flocks, with special reference to Latin America. World´s Poult. Sci. J. 69:853-864., Mettifogo et al. 2014Mettifogo E., Nuñez L.F.N., Chacón J.L., Santander Parra S.H., Astolfi-Ferreira C.S., Jerez J.A., Jones R.C. & Piantino Ferreira A.J. 2014. Emergence of enteric viruses in production chickens is a concern for avian health. Scient. World J. 2014:450423. <http://dx.doi.org/10.1155/2014/450423>
http://dx.doi.org/10.1155/2014/450423...
, Nuñez et al. 2015bNuñez L.F., Santander Parra S.H., Mettifogo E., Astolfi-Ferreira C.S. & Piantino Ferreira A.J. 2015b. Isolation and molecular characterisation of chicken pARTovirus from Brazilian flocks with enteric disorders. Brit. Poult. Sci. 56:39-47.). Nevertheless, these results show a high prevalence of enteric viruses circulating in Brazilian chicken flocks located in Minas Gerais.

The result that ANV was detected in 75% of the flocks differs from the results of previous reports for Brazil, where the same virus was found in 35.5 % of turkey flocks Moura-Alvarez et al. 2013Moura-Alvarez J., Chacon J.L., Scanavini L.S., Nuñez L.F.N., Astolfi-Ferreira C.S., Jones R.C. & Piantino Ferreira A.J. 2013. Enteric viruses in Brazilian turkey flocks: single and multiple virus infection frequency according to age and clinical signs of intestinal disease. Poult. Sci. 92:945-955.) and in 29.6% of chicken flocks tested (Mettifogo et al. 2014Mettifogo E., Nuñez L.F.N., Chacón J.L., Santander Parra S.H., Astolfi-Ferreira C.S., Jerez J.A., Jones R.C. & Piantino Ferreira A.J. 2014. Emergence of enteric viruses in production chickens is a concern for avian health. Scient. World J. 2014:450423. <http://dx.doi.org/10.1155/2014/450423>
http://dx.doi.org/10.1155/2014/450423...
). This difference in results could be due to the different sources of diagnostic material used in these studies. While only faecal samples were analysed in previous works, the present study analysed homogenates from the intestine, pancreas and spleen from chickens showing signs of enteric diseases for the detection of viruses, based on the intracellular nature of the agent. This methodological difference could explain the higher detection rate in the present study for this and other viruses, including ART-A, CAstV and ChPV. However, despite the high incidence of ANV, it may not be the causative agent of the elevated mortality in these flocks because no visceral urate deposition or renal disturbances, which are classical lesions caused by pathogenic ANV, were noticed during necropsy (Siller et al. 1981Siller W.G. 1981. Renal pathology of the fowl - a review. Avian Pathol. 10:187-262.). On the other hand, ART-A was detected in 68.75% of flocks (11/16), and by contrast with what may have been expected, the pancreas was found to have the highest rate of infection, followed by the spleen; virus was detected in 100% and 91.7% of positive flocks, respectively. No virus was detected in the intestine. Studies in rats have shown the capacity of avian rotavirus to disseminate and replicate in different organs, such as the liver, spleen and pancreas; however, the mechanism by which rotavirus escapes the gastrointestinal tract and reaches other organs remains unknown (Crawford et al. 2006Crawford S.E., Patel D.G., Cheng E., Hyser J.M., Ciarlet M., Finegold M.J., Conner M.E., Estes M.K. & Berkova Z. 2006. Rotavirus Viremia and Extraintestinal Viral Infection in the Neonatal Rat Model. J. Virol. 80:4820-4832.).

Affected RSS flocks were positive for CAstV and ChPV at equal rates (43.75% for both viruses). Previous surveys have also found that these pathogens circulate both in birds showing signs suggestive of RSS and in apparently healthy birds in Brazil (Moura-Alvarez et al. 2013Moura-Alvarez J., Chacon J.L., Scanavini L.S., Nuñez L.F.N., Astolfi-Ferreira C.S., Jones R.C. & Piantino Ferreira A.J. 2013. Enteric viruses in Brazilian turkey flocks: single and multiple virus infection frequency according to age and clinical signs of intestinal disease. Poult. Sci. 92:945-955., Mettifogo et al. 2014Mettifogo E., Nuñez L.F.N., Chacón J.L., Santander Parra S.H., Astolfi-Ferreira C.S., Jerez J.A., Jones R.C. & Piantino Ferreira A.J. 2014. Emergence of enteric viruses in production chickens is a concern for avian health. Scient. World J. 2014:450423. <http://dx.doi.org/10.1155/2014/450423>
http://dx.doi.org/10.1155/2014/450423...
), United States (Pantin-Jackwood et al. 2008Pantin-Jackwood M.J., Day J.M., Jackwood M.W. & Spackman E. 2008. Enteric viruses detected by molecular methods in commercial chicken and turkey flocks in the United States between 2005 and 2006. Avian Dis. 52:235-244.), and Poland (Domanska et al. 2014Domanska K., Jacukowicz A., Bocian L. & Minta Z. 2014. Astroviruses in Polish Commercial Turkey Farms in 2009-2012. Avian Dis. 58:158-164.). Chicken astrovirus was also detected in one-day-old breeder chicks, indicating that vertical transmission may occur (Mettifogo et al. 2014Mettifogo E., Nuñez L.F.N., Chacón J.L., Santander Parra S.H., Astolfi-Ferreira C.S., Jerez J.A., Jones R.C. & Piantino Ferreira A.J. 2014. Emergence of enteric viruses in production chickens is a concern for avian health. Scient. World J. 2014:450423. <http://dx.doi.org/10.1155/2014/450423>
http://dx.doi.org/10.1155/2014/450423...
). Moreover, parvoviruses have also been identified in day-old broiler chickens showing neurological signs, impaired mobility and diarrhoea, suggesting that these viruses may cause neurological disturbances in young chickens. The neurological disturbances that have been observed were characterized by cerebellar hypoplasia and hydrocephalus (Marusak et al. 2010Marusak R.A., Guy J.S., Abdul-Aziz T.A., West M.A., Fletcher O.J., Day J.M., Zsak L. & Barnes H.J. 2010. PARTovirus-Associated Cerebellar Hypoplasia and Hydrocephalus in day old broiler chickens. Avian Dis. 54:156-160.). These findings suggest that both CAstV and ChPV may potentially be implicated in the aetiology and perpetuation of enteric disease and that pathogenicity and clinical signs may vary with the infecting strains.

No AReo and FAdV-1 were detected. These findings are in agreement with other results that show a low prevalence of these viruses (Moura-Alvarez et al. 2013Moura-Alvarez J., Chacon J.L., Scanavini L.S., Nuñez L.F.N., Astolfi-Ferreira C.S., Jones R.C. & Piantino Ferreira A.J. 2013. Enteric viruses in Brazilian turkey flocks: single and multiple virus infection frequency according to age and clinical signs of intestinal disease. Poult. Sci. 92:945-955., Mettifogo et al. 2014Mettifogo E., Nuñez L.F.N., Chacón J.L., Santander Parra S.H., Astolfi-Ferreira C.S., Jerez J.A., Jones R.C. & Piantino Ferreira A.J. 2014. Emergence of enteric viruses in production chickens is a concern for avian health. Scient. World J. 2014:450423. <http://dx.doi.org/10.1155/2014/450423>
http://dx.doi.org/10.1155/2014/450423...
). These findings also support the hypothesis of Decaesstecker et al. (1989)Decaesstecker M., Charlier G., Peeters J. & Meulemans G. 1989. Pathogenicity of fowl enteroviruses. Avian Pathol. 18:697-713. that AReo may not cause enteric disease, as these viruses do not exhibit pathogenicity when inoculated alone.

Viruses were most frequently detected in the pancreas, among the organs screened for enteric viruses. In general, the pancreas is an accessory organ of the gastrointestinal tract, and it has both endocrine and exocrine functions. The exocrine function of the pancreas is to produce and secrete several digestive enzymes, including trypsinogen, amylase, lipase and procarboxypeptidase, among others (Denbow 2000Denbow M.D. 2000. Gastrointestinal anatomy and physiology, p.299-325. In: Whittow G.C. (Ed.), Sturkie's Avian Physiology. Academic Press, San Diego, CA.). In healthy birds, these enzymes are released into the ascending loop of the duodenum, thereby ensuring the digestion of lipids, carbohydrates and proteins in the diet (Osman et al. 1982Osman A.M. 1982. Amylase in chicken intestine and pancreas. Comp. Biochem. Physiol. 73:571-574., Horváthová et al. 2000Horváthová V., Janeček Š. & Šturdík E. 2000. Amylolytic enzymes: their specificities, origins and properties. Biol. Bratislava 55:605-615.). By contrast, flocks with characteristic signs of malabsorption syndrome may present alterations in the physiology of the exocrine pancreas. Previous studies have shown that birds with this syndrome exhibited diminished pancreatic amylase activity and changes in pancreatic protease levels (Szabo et al. 1989Szabo J., Salyi G. & Rudas P. 1989. Effect of malabsorption syndrome on pancreatic function in broilers. Poult. Sci. 68:1553-1560.). Histological studies of pancreatic lesions in broilers with RSS revealed fibrosis, inflammation, vacuolar changes in the exocrine compartment, degeneration of acinar cells and loss of zymogen granules (Qamar et al. 2013Qamar M.F., Aslam H. & Jahan N. 2013. Histopathological studies on stunting syndrome in broilers, Lahore, Pakistan. Vet. Med. Int. 2013:1-6. <http://dx.doi.org/10.1155/2013/212830>
http://dx.doi.org/10.1155/2013/212830...
). In pigeons, exocrine pancreas disease produced voluminous, coloured faeces and weight loss (Amann et al. 2006Amann O., Visschers M.J.M., Dorrestein G.M., WesterhoI F. & Lumeij J.T. 2006. Exocrine pancreatic insufficiency in pigeons. Avian Pathol. 35:58-62.), and when aflatoxins are present in the diet, histological changes in the pancreas are observed, together with effects on performance and nutrient absorption (Marchioro et al. 2013Marchioro A., Mallmann O., Diel A., Dilkin P., Rauber R.H., Blazquez F.J.H., Oliveira M.G.A. & Mallmann C.A. 2013. Effects of aflatoxins on performance and exocrine pancreas of broiler chickens. Avian Dis. 57:280-284.). Together, these findings establish a relationship between pancreatic damage and signs of malabsorption, and, more importantly, a relationship between pancreatic damage and RSS.

In this study, malabsorption, enteritis and RSS in broilers associated with detection of CAstV, ANV, ART-A and ChPV were identified primarily in the pancreas, thereby suggesting that at least one of these pathogens may be implicated in insufficiency pancreatic, which may have led to the development of signs of malabsorption. However, no pathogen has yet been clearly determined to be a cause of these signs of illness in birds. Yet, in humans, rotavirus infection is known to produce increased secretion of pancreatic enzymes in some patients and to cause a moderately enlarged, oedematous pancreas (Giordano et al. 2013Giordano S., Serra G., Dones P., Di Gangi M., Failla M.C., Iaria C., Ricciardi F., Pernice L.M., Pantaleo D. & Cascio A. 2013. Acute pancreatitis in children and rotavirus infection. New Microbiol. 36:97-101.). Our hypothesis is that some rotavirus strains that usually infect mature, differentiated enterocytes of the small intestine could be escaping the gastrointestinal tract, thereby causing viremia, as shown in neonatal rat models by Crawford et al. (2006)Crawford S.E., Patel D.G., Cheng E., Hyser J.M., Ciarlet M., Finegold M.J., Conner M.E., Estes M.K. & Berkova Z. 2006. Rotavirus Viremia and Extraintestinal Viral Infection in the Neonatal Rat Model. J. Virol. 80:4820-4832., and therefore could be affecting pancreatic tissue in birds. It must be taken into account that interactions with other enteric viruses may occur and that synergistic damage to the intestines, as well as to other organs, may happen concomitantly. We recommend specific viral challenges and pathologic assessments of viral replication using each of these enteric viruses to establish the aetiology of RSS. Our findings show that pancreatic tissue samples are an important source for the diagnosis of infection with enteric viruses in poultry. Finally, studies of experimental infections should be performed with isolated viruses to clarify the aetiology and pathogenesis of these viral infections associated with RSS.

Acknowledgements

This sudy was supported by grants received from CNPq no 453920/2014-4, and FAPESP grant no 2013/08560-5. Antonio J. Piantino Ferreira is a recipient of CNPq fellowships.

References

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Publication Dates

  • Publication in this collection
    July 2016

History

  • Received
    27 July 2015
  • Accepted
    19 Apr 2016
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