Abstract

Inhalation of ricin toxin (RT) elicits profuse inflammation and cell death within the upper and lower airways, ultimately culminating in acute respiratory distress syndrome. We previously reported that the effects of pulmonary RT exposure in mice are nullified by intranasal administration of an mAb mixture consisting of PB10, directed against ricin's enzymatic subunit (RTA), and SylH3, directed against ricin's binding subunit (RTB). We now report that delivery of PB10 and SylH3 as an RT-mAb immune complex (RIC) to mice by the intranasal or i.p. routes stimulates the rapid onset of RT-specific serum IgG that persists for months. RIC administration also induced high-titer, toxin-neutralizing Abs. Moreover, RIC-treated mice were immune to a subsequent 5 × LD50 RT challenge on days 30 or 90. Intranasal RIC administration was more effective than i.p. delivery at rendering mice immune to intranasal RT exposure. Finally, we found that the onset of RT-specific serum IgG following RIC delivery was independent of FcγR engagement, as revealed through FcγR knockout mice and RICs generated with PB10/SylH3 LALA (leucine to alanine) derivatives. In conclusion, a single dose of RICs given intranasally to mice was sufficient to stimulate durable protective immunity to RT by an FcγR-independent pathway.

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