Adjuvant-free in vivo targeting. Antigen delivery by alpha 2- macroglobulin enhances antibody formation

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Adjuvant-free in vivo targeting. Antigen delivery by alpha 2- macroglobulin enhances antibody formation

CT Chu, TD Oury, JJ Enghild and SV Pizzo
Department of Pathology, Duke University Medical Center, Durham, NC 27710.

The proteinase "inhibitor" alpha 2-macroglobulin (alpha 2M) is able to entrap and form covalent linkages with diverse proteins during a transient proteinase-activated state. These complexes are rapidly endocytosed after binding to receptors present on macrophages and other cells. We have previously shown that compared to free hen egg lysozyme (HEL), alpha 2M-complexed HEL undergoes enhanced macrophage uptake, processing, and presentation to T hybridoma clones in vitro. Inasmuch as it is not clear whether T hybridoma responses accurately reflect primary immune responses in vivo, we studied antibody production in rabbits using two Ag complexed with either human alpha 2M (H alpha 2M) or a homologous protein purified from rabbit plasma, alpha 1- macroglobulin (R alpha 1M). Pathogen-free NZW rabbits received s.c. injections with adjuvant-free preparations of free HEL or porcine pancreatic elastase (PPE), H alpha 2M-HEL-PPE complexes, R alpha 1M-HEL- PPE complexes, or mixtures of the uncomplexed proteins. Complexing the Ag to alpha 2M resulted in 10 to 500-fold higher IgG titers compared to uncomplexed controls. Injection of Ag complexed to either H alpha 2M or R alpha 1M resulted in levels of anti-HEL IgG comparable to those elicited by emulsification in CFA. Inasmuch as inflammatory proteinases such as neutrophil elastase can initiate covalent complex formation with alpha 2M, we propose that "proteinase-activated" alpha 2M may mediate receptor-enhanced Ag uptake by macrophages, resulting in augmented Ag processing and antibody production.

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				J. P. Hart, M. D. Gunn, and S. V. Pizzo A CD91-Positive Subset of CD11c+ Blood Dendritic Cells: Characterization of the APC that Functions to Enhance Adaptive Immune Responses against CD91-Targeted Antigens J. Immunol., January 1, 2004; 172(1): 70 - 78. [Abstract] [Full Text] [PDF]

				C. L. Adlakha, J. P. Hart, and S. V. Pizzo Kinetics of Nonproteolytic Incorporation of a Protein Ligand into Thermally Activated alpha 2-Macroglobulin. EVIDENCE FOR A NOVEL NASCENT STATE J. Biol. Chem., November 2, 2001; 276(45): 41547 - 41552. [Abstract] [Full Text] [PDF]

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				M.-B. Villiers, C. L. Villiers, A.-M. Laharie, and P. N. Marche Amplification of the Antibody Response by C3b Complexed to Antigen Through an Ester Link J. Immunol., March 15, 1999; 162(6): 3647 - 3652. [Abstract] [Full Text] [PDF]

				G. C. Howard, Y. Yamaguchi, U. K. Misra, G. Gawdi, A. Nelsen, D. L. DeCamp, and S. V. Pizzo Selective Mutations in Cloned and Expressed alpha -Macroglobulin Receptor Binding Fragment Alter Binding to Either the alpha 2-Macroglobulin Signaling Receptor or the Low Density Lipoprotein Receptor-related Protein/alpha 2-Macroglobulin Receptor J. Biol. Chem., June 14, 1996; 271(24): 14105 - 14111. [Abstract] [Full Text] [PDF]

				L. G. Legr�s, F. Pochon, M. Barray, F. Gay, S. Chouaib, and E. Delain Evidence for the Binding of a Biologically Active Interleukin-2 to Human [IMAGE][IMAGE]-Macroglobulin J. Biol. Chem., April 14, 1995; 270(15): 8381 - 8384. [Abstract] [Full Text] [PDF]

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Adjuvant-free in vivo targeting. Antigen delivery by alpha 2- macroglobulin enhances antibody formation