Correlation between Marek's disease virus pathotype and replication.

Marek's disease (MD) virus (MDV) is an alphaherpesvirus that causes MD, a lymphoproliferative disease in chickens. Pathotyping has become an increasingly important assay for monitoring shifts in virulence of field strains; however, it is time-consuming and expensive, and alternatives are needed to provide fast answers in the face of current outbreaks. The purpose of this study was to determine whether differences in virus replication between pathotypes that have been reported using a small number of virulent (v) and very virulent plus (vv+) MDV strains could be confirmed with a large collection of MD viruses. Based on pilot study data, bursa, brain, and lung samples were collected at 9 and 11 days postinoculation (dpi) from birds challenged with 1 of 15 MDV strains. The correlation between virus replication and virulence was confirmed between vMDV strains and higher virulent strains, but in most cases, there was no significant difference between very virulent (vv) and vv+MDV groups. At both 9 and 11 dpi, chickens infected with vv and vv+MDV had significantly lower body weights and relative thymus and bursa weights compared with chickens challenged with vMDV. However, similar to virus quantity, there was no significant difference between weights in birds challenged with vv or vv+MDV. The significant differences observed in maternal antibody negative (ab-) chickens were not significant in maternal antibody positive (ab+) chickens, demonstrating the requirement of ab- birds for this type of comparison. These data do not support the use of virus replication or organ weights as an alternative to pathotyping for discrimination between all three virulent MDV pathotypes but may be useful for determining a virus replication threshold to choose which field strains meet a minimum virulence to be pathotyped by traditional methods.

Influence of the addition of antibiotics on survival of herpesvirus of turkeys.

To determine the influence of the antibiotics ceftiofur sodium from two different laboratories (A and B) and gentamycin sulfate on a Marek's disease commercial vaccine herpesvirus of turkey (HVT), samples were assayed by titration in chicken embryo fibroblasts (CEF). Viruses were tested in vitro to establish the average number of plaque-forming units before and after different periods of incubation with the addition of the antibiotic. These tests showed no effect of gentamycin or ceftiofur A or B on HVT titers when treatments were for 1 hr or less. However, ceftiofur B decreased the titer at 2 hr. The in vivo effects of the antibiotics were determined by vaccinating 15 one-day-old chickens with HVT plus gentamycin or ceftiofur A or B. Birds were considered viremic at 1 wk postvaccination when one or more plaques were detected in CEF 5 days after inoculation of peripheral blood lymphocytes. Viremia levels were similar between 1 and 16 wk after vaccination with HVT with ceftiofur A or B. The pH values (7.5) were the same in vaccines with and without antibiotics.

Mixed infections of Marek's disease and reticuloendotheliosis viruses in layer flocks in Argentina.

The presence of reticuloendotheliosis virus (REV) was examined in flocks affected with Marek's disease (MD). Sera were positive to REV antibodies by agar gel precipitation. However, these findings were not conclusive since fowlpox vaccines can have REV fragments or the whole genome inserted. Frozen sections from tumors were positive for MD virus (MDV) but negative for REV. Chicken embryo fibroblast (CEF) and chicken kidney cell (CKC) culture inoculated with buffy coat cells or blood from the affected birds were examined. Positive cells were shown for REV and MDV by fluorescent antibodies tests in CEF and CKC, respectively, indicating the presence of REV in Argentinean layer flocks. This is the first report of REV in Argentina and also in South America.

A survey for avian influenza from gulls on the coasts of the District of Pinamar and the Lagoon Salada Grande, General Madariaga, Argentina.

In the present study, fecal samples obtained from kelp gulls (Larus dominicanus), brown-hooded gulls (Larus maculipennis), and Olrog's gulls (Larus atlanticus) on the coast of the District of Pinamar, and grey-hooded gulls (Larus cirrocephalus) on the coast of the Lagoon Salada Grande and surrounding wetlands, General Madariaga, Buenos Aires Province, Argentina, were tested for evidence of avian influenza virus over a period of 3 yr. This surveillance in free-living wild birds in the Buenos Aires Province started in October 2008. Additional samples, which included cloacal swabs, tracheal swabs, or pooled organs, were obtained from sick or dead gulls that arrived at the Fundaci6n Ecol6gica Pinamar or were provided by the Direcci6n de Seguridad en Playas, Municipalidad de Pinamar. Samples were pooled according to date, species, and area. Pooled samples were inoculated in 9- to 11-day-old eggs, and after 5 days, allantoic fluids were tested for evidence of hemagglutination. None of the samples was positive for avian influenza viruses.

Selection for increased nitric oxide production does not increase resistance to Marek's disease in a primary broiler breeder line.

Two primary broiler breeder lines, A and B, were examined for their potential to produce nitric oxide (NO) after stimulating splenocytes from 20-day-old embryos with lipopolysaccharide and interferon-gamma. Significant differences were found between lines A and B. Overall, line A had a higher response than line B, but line A also had a large degree of variation between individual sire families. Selection for high and low responders within line A resulted in the segregation of high- and low-responder sire families. Offspring from sire families selected for high and low NO responses and from a nonselected control group from line A were challenged with RB-1B Marek's disease (MD) virus to determine whether these differences could be used to select for improved resistance to MD. Virus isolation rates at 6 and 10 days postinfection were not significantly different, but unexpectedly, the MD incidence in the high-responder group was significantly higher than in the other two groups.

Characterization of four very virulent Argentinian strains of Marek's disease virus and the influence of one of those isolates on synergism between Marek's disease vaccine viruses.

Isolates of Marek's disease virus (MDV) from vaccinated flocks in Argentina were characterized as very virulent (vv) and very virulent plus (vv+) strains. Experimental infection with these viruses caused a high incidence of Marek's disease in both resistant N-2a line and susceptible P-2a line birds. Vaccine viruses from each of the three Marek's disease viral serotypes were evaluated alone and in various combinations for protection against challenge with a vvMDV called NULP-1. Vaccination of P-2a birds with HVT did not protect satisfactorily against any of the vv and vv+MDV strains isolated. However, CVI988/Rispens vaccine alone or combined with serotype 2 and/or serotype 3 vaccine strains enhanced protection significantly against NULP-1. Serotype 2 plus serotype 3 vaccines also provided significant protection when challenged with this strain. This is one the first reports of the occurrence of vvMDV and vv+MDV in Argentina and Latin America. It is also a preliminary evaluation of the synergistic protective effect of different vaccine viruses with local MDV strains. However, further studies are needed to evaluate the real role of these and other Marek's disease isolates in 'vaccination failures' and the influence of serotype and virus strain on synergism between Marek's disease vaccine viruses.