Normal and altered phenotypic expression of immunoglobulin genes

Abstract

Genetically controlled intraspecific differences between immunoglobulins (allotypes) provide valuable markers for the study of the quantitative expression of allelic and nonallelic alternative forms of immunoglobulins (Igs) during the normal development of rabbits. Heterozygous rabbits are mosaics of cells expressing different Ig-genes since fully differentiated productive cells generally secrete only one of alternative forms of Ig. The proportions of cells that differentiate to produce allelic forms of immunoglobulins during normal development depend on the particular heterozygous genotype. The normal proportions of some markers can be drastically altered if the differentiation of lymphoid cells in the young rabbit occurs in the milieu of antibody specific for one form (allotype suppression). An initiating step in the establishment of persistent allotype suppression is probably the interaction of antiallotype antibody with allotype-bearing receptors on lymphoid cell surfaces, but the mechanism for the maintenance of a state of chronic suppression may well be more complex. Allotype suppression can be viewed as one example of numerous immunological phenomena that reflect specific and finely tuned regulatory mechanisms governing the differentiation and clonal expansion of lymphoid cells destined to secrete immunoglobulins.