Effects of experimental immunosuppression on reovirus‐induced tenosynovitis in light‐hybrid chickens

Abstract

Groups of specific pathogen‐free light‐hybrid chickens which had been immunosuppressed either by surgical thymectomy (Tx) or surgical bursectomy (Bx) or cyclophosphamide (Cy) treatment or Tx plus Cy treatment (Tx + Cy), as well as intact (untreated) birds, were inoculated with graded doses of an arthrotropic avian reovirus at 1 day of age and observed up to 5 weeks post‐inoculation (p.i.). Cy‐treatment with or without Tx considerably increased the mortality, incidence of gross leg lesions and severity of microscopic lesions due to reovirus infection. The Bx group showed only a significant increase in mortality, and the Tx group response was generally similar to the untreated group. Dead birds showed hepatic necrosis, which in Cy‐treated groups (Cy, Tx + Cy) was associated with calcification. Surviving Cy‐treated birds had acute tenosynovitis characterised grossly by large amounts of serous exudate in leg tendon sheaths, and microscopically by a massive heterophilic but only mild lymphocytic infiltration of tendon sheaths. Tenosynovitis lesions in Bx birds were generally similar to those of the untreated chickens, i.e. grossly small amounts of yellowish brown gelatinous exudate and microscopically moderate chronic inflammatory changes in leg tendon sheaths. In Tx birds gross lesions were rarely seen and the microscopic lesions were often very mild. Reovirus could be recovered from cloacal swabs from untreated and Tx birds for 2 weeks, Bx birds for 3 to 4 weeks, and Cy and Tx + Cy chickens continuously throughout. Reovirus was isolated from tendon tissue of all Cy and Tx + Cy infected birds examined at 5 weeks p.i. and gross tenosynovitis lesions were seen in all birds. The virus was recovered from the tendons of only a proportion of the infected untreated, Tx and Bx groups, and overall more frequently from apparently normal birds. This was especially marked in the infected Tx group. Antibody responses as shown by gel precipitation and virus neutralisation were positive and similar in untreated and Tx birds, were delayed in the Bx group with the precipitation test only, and absent from most of the Cy and Tx + Cy birds. The results of these experiments indicate that recovery from reovirus infection probably involves both B‐ and T‐cell systems but that the B‐cell system is predominantly protective.