Recombinant Bovine Interferon-γ as an Immunomodulator in Dexamethasone-Treated and Nontreated Cattle

Three dosages (0.1, 0.5, and 2.5 mg/animal, subcutaneously), of recombinant bovine interferon-γ) (rBoIFN-γ) were evaluated for their in vivo influence on neutrophil function and lymphocyte blastogenesis in cattle. The optimal of the three dosages tested (0.5 mg/ animal or 1.1 × 10⁶ U/animal) was then evaluated for its influence on neutrophils and lymphocytes in both normal and dexamethasone-treated cattle. One animal, which received 2.5 mg of rBoIFN-γ, died by 24 h after administration due to acute diffuse interstitial pneumonia with interlobular edema and emphysema. The two highest dosages used caused fever at 24 h and the highest dosage caused a decrease in lymphocyte blastogenesis at 24 h after administration. The influence of rBoIFN-γ on neutrophil function was dose dependent and depended on the baseline values for neutrophil function. Random migration by neutrophils was consistently inhibited in animals that received 0.5 mg or more of rBoIFN-γ. Staphlococcus aureus ingestion and antibody-dependent cell-mediated cytotoxicity by neutrophils was enhanced by rBoIFN-γ treatment in both dexamethasone-treated cattle and in nondexamethasone-treated cattle, which had relatively low values for these parameters before treatment. Iodination by neutrophils was also enhanced by rBoIFN-γ when either a suboptimal concentration of neutrophil stimulant was used or when the cattle were treated with dexamethasone. In summary, the rBoIFN-γ had greater immunomodulator activity in immunosuppressed than in normal cattle. The in vivo influence of rBoIFN-γ therefore depends on the physiologic status of the animal.