Heavy chain variable region allotypic sub-specificities of rabbit immunoglobulins. I. Identification of three subpopulations of a1 IgG molecules.

Four anti-al Ab subpopulations were isolated from an anti-al antiserum by sequential immunoadsorption chromatography. These four anti-al Ab subpopulations were differentially bound by two "limited heterogeneity" Abs having different components of the al allotypic specificity. Each of the four anti-al Ab subpopulations reacted with al IgG molecules obtained from a2 and a3 rabbits. A subpopulation designated anti-al Ab reacted with 100% of al IgG molecules. Thus, the anti-al-A Ab recognizes al determinants common to all al IgG molecules. Each of the other three subpopulations, designated anti-al-B Ab, anti-al-C Ab, and anti-al-D Ab, reacted with only a fraction of the al IgG molecules but the sum of the percentages of al IgG molecules which reacted with each of these three anti-al Ab subpopulations approximated 100% of the al IgG molecules. Thus each of the anti-al-B Ab, anti-al-C Ab, and anti-al-D Ab recognizes non-common determinants distinct for each of three subpopulations of al IgG molecules. Although 65 to 90% of IgG molecules in al homozygous rabbits have the al allotypic specificity, these IgG molecules are heterogeneous with respect to their antigenic determinants comprising the al allotype; at least three kinds of al IgG molecules are identified. This heterogeneity probably reflects variation in the amino acid sequence of the Vh region of al IgG molecules and, therefore, poses a similar argument which had led to the hypothesis of two genes for one polypeptide chain and to the theory of episomal insertions for the genetic control of immunoglobulin synthesis.