Lamprey VLRB response to influenza virus supports universal rules of immunogenicity and antigenicity

MO Altman, JR Bennink, JW Yewdell, BR Herrin - Elife, 2015 - elifesciences.org
MO Altman, JR Bennink, JW Yewdell, BR Herrin
Elife, 2015elifesciences.org
Immunoglobulins (Igs) are a crown jewel of jawed vertebrate evolution. Through
recombination and mutation of small numbers of genes, Igs can specifically recognize a vast
variety of natural and man-made organic molecules. Jawless vertebrates evolved a parallel
system of humoral immunity, which recognizes antigens not with Ig, but with a structurally
unrelated receptor called the variable lymphocyte receptor B (VLRB). We exploited the
convergent evolution of Ig and VLRB antibodies (Abs) to investigate if intrinsic chemical …
Immunoglobulins (Igs) are a crown jewel of jawed vertebrate evolution. Through recombination and mutation of small numbers of genes, Igs can specifically recognize a vast variety of natural and man-made organic molecules. Jawless vertebrates evolved a parallel system of humoral immunity, which recognizes antigens not with Ig, but with a structurally unrelated receptor called the variable lymphocyte receptor B (VLRB). We exploited the convergent evolution of Ig and VLRB antibodies (Abs) to investigate if intrinsic chemical features of foreign proteins determine their antigenicity and immunogenicity. Surprisingly, we find lamprey VLRB and mouse Ig responses to influenza A virus are extremely similar. Each focuses ∼80% of the response on hemagglutinin (HA), mainly through recognition of the major antigenic sites in the HA globular head domain. Our findings predict basic conservation of Ab responses to protein antigens, strongly supporting the use of animal models for understanding human Ab responses to viruses and protein immunogens.
DOI: http://dx.doi.org/10.7554/eLife.07467.001
eLife
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