Frequencies of background immunoglobulin-secreting cells in mice as a function of organ, age, and immune status

Abstract

The influence of hereditary absence of thymus and spleen upon the numbers, organ, and class distribution of background immunoglobulin Ig-secreting cells was studied in mice by means of the protein-A plaque assay. In young adult BALB/c mice the spleen contained the largest number of Ig-secreting cells (about 0.5% ). The absolute number of Ig-secreting cells in the spleen was larger than the estimate for all lymph nodes together. Between 8 and 40 weeks of age, the number of Ig-secreting cells in spleen and lymph nodes increased by a factor of 3, maximally. In the same period, the number of Ig-secreting cells in the bone marrow, however, increased by a factor of 20, so that it became the major site of Ig synthesis. Hereditary absence of the spleen did hardly or not at all affect the number of Ig-secreting cells in the other lymphoid organs. However, the athymic state did affect the organ distribution. The most consistent finding was the decreased number of Ig-secreting cells in the Peyer's patches. The class distribution of Ig-secreting cells was found to be independent of the presence of the spleen, but did depend on the presence of the thymus. Athymic mice had a higher percentage of IgM-secreting cells and a lower percentage of IgA-secreting cells. The percentage of IgG 1- and IgG 2-secreting cells did not differ clearly between normal and athymic mice. Percent-wise, most IgM-secreting cells occurred in the spleen, whereas most IgG 1-, IgG 2-, and IgA-secreting cells occurred in the bone marrow, lymph nodes, and Peyer's patches. The specificity repertoire of the background Ig-secreting cells was tested by determining the frequencies of IgM-producing cells with specificity for a panel of six different antigens. These frequencies ranged from 1 in 85 for nitroiodophenyl(NIP)-conjugated sheep erythrocytes (SRBC) till 1 in 1500 for unconjugated SRBC and were found to be the same for the spleen of germ-free and specific pathogen-free (SPF) C3H mice, and for spleen, bone marrow, and thymus of SPF C3H mice.