Induction of TNF-alpha autoantibody production by AutoVac TNF106: a novel therapeutic approach for the treatment of allergic diseases.

BACKGROUND: Cytokines play an integral role in the coordination and persistence of allergic inflammatory processes and therefore represent prime targets for novel therapies in diseases such as asthma. Multiple attempts to generate low-molecular-weight cytokine inhibitors have failed, and the main attention has focused on the development of biological agents such as neutralizing antibodies. The present work describes a simple and effective method to induce the production of therapeutic anti-cytokine autoantibodies by active immunization against a modified endogenous cytokine. METHODS: Balb/c mice were subcutaneously injected with AutoVac TNF106, a recombinant murine TNF-alpha molecule containing a foreign immunogenic T helper epitope, and the induction of neutralizing anti-TNF-alpha autoantibodies was analysed. These mice were then sensitized with ovalbumin (OVA), and the effect of neutralizing anti-TNF-alpha autoantibodies on the allergen-induced airway inflammation was analysed. RESULTS: AutoVac TNF106-immunized mice developed high titres of neutralizing anti-TNF-alpha autoantibodies, which were maintained for at least 4 weeks after the last booster injection. Mice vaccinated with AutoVac TNF106 and further immunized against OVA showed diminished TNF-alpha levels in the bronchoalveolar lavage (BAL) fluid after OVA challenge. Moreover, pretreatment with AutoVac TNF106 resulted in significantly reduced numbers of eosinophils and neutrophils in BAL fluid in response to single or multiple allergen exposure. CONCLUSION: The induction of anti-TNF-alpha autoantibody production by the AutoVac TNF106 technology not only confirmed the role of TNF-alpha in the induction of allergic inflammation but also offers a novel approach to block the activity of cytokines in order to treat allergic inflammatory conditions.

Long-term protective and antigen-specific effect of heat-killed Mycobacterium vaccae in a murine model of allergic pulmonary inflammation.

This report examines the effect of heat-killed Mycobacterium vaccae in a mouse model of allergic pulmonary inflammation. The s.c. administration of M. vaccae 3 wk before the immunization significantly reduced Ag-induced airway hyperreactivity and the increase in the numbers of eosinophils observed in the bronchoalveolar lavage fluid, blood, and bone marrow, even though no detectable changes in either cytokine (IL-4, IL-13, IL-5, and IFN-gamma) or total IgE levels were observed. Furthermore, transfer of splenocytes from OVA-immunized and M. vaccae-treated mice into recipient, OVA-immunized mice significantly reduced the allergen-induced eosinophilia by an IFN-gamma-independent mechanism, clearly indicating that the mechanism by which M. vaccae induces its inhibitory effect is not due to a redirection from a predominantly Th2 to a Th1-dominated immune response. The protective effect of M. vaccae on the allergen-induced eosinophilia lasted for at least 12 wk after its administration, and the treatment was also effective in presensitized mice. Moreover, the allergen specificity of the inhibitory effect could be demonstrated using a double-immunization protocol, where M. vaccae treatment before OVA immunization had no effect on the eosinophilic inflammation induced by later immunization and challenge with cockroach extract Ag. Taken together, these results clearly demonstrate that M. vaccae is effective in blocking allergic inflammation by a mechanism independent of IFN-gamma, induces long term and Ag-specific protection, and therefore has both prophylactic and therapeutic potential for the treatment of allergic diseases.