Aging-Associated Changes in Murine Intestinal Immunoglobulin A and M Secretions

Abstract

The aging effect on the quantity of intestinal IgA and IgM class-specific immunoglobulins secreted and the quality of intraluminal intestinal IgA was studied in 5-to 6-month old and 24-to 28-month-old male BALB/c mice. The level of IgA increased in the intestinal juice from the aged mice, while the IgM level remained unchanged. These alterations were similar to those found in serum, but the effect of age on serum IgA was profound, almost a threefold increase, in found in serum, but the effect of age on serum IgA was profound, almost a threefold increase, in contrast, to an increase of just under 35% in intestinal secretions. The ratio of the dimeric to total IgA in the small intestine decreased in the older mice, though that of serum was unchanged. In contrast, the total amounts of dimeric IgA in the small intestinal lavage fluid did not change between the two age groups, while the dimeric IgA in serum in older mice were 4.5 times as high as those of young mice. The binding of purified intestinal dimeric IgA to antigens from normal habitant enteric bacteria (γ streptococci and Enterobacter agglomerans) declined in the old mice. In the immunochemical studies, using SDS-PAGE and isoelectric focusing, the purified intestinal IgA from the young and old mice showed no major difference. Thus, the findings in aged small intestinal perfusates that the increased content of intestinal IgA is due to an increased monomeric IgA, but not to a reduced dimeric IgA, which remains unchanged, and that the binding capacity of the dimeric IgA to the bacterial antigens is diminished, suggest that the level of the matural secretory IgA antibody is decreased. These altered quantitative and functional features of intraluminal intestinal IgA observed in the aged mice appear to be due to the complex heterogeneous effects of senescence on gut-associated lymphoid tissues, and may contribute to age-related impairment in gut humoral immune function.