Oxidation as a possible mechanism of cellular aging: vitamin E deficiency causes premature aging and IgG binding to erythrocytes.

Senescent-cell antigen is a "neo-antigen" that appears on the surface of senescent cells and initiates IgG binding and cellular removal. As an approach to evaluating oxidation as a possible mechanism for generation of senescent-cell antigen, we studied erythrocytes from vitamin E-deficient rats. Vitamin E is localized primarily in cellular membranes. Its major role is the termination of free-radical chain reactions propagated by the polyunsaturated fatty acids of membrane propagated by the polyunsaturated fatty acids of membrane phospholipids. Results of our studies indicate that erythrocytes of all ages from vitamin E-deficient rats behave like old erythrocytes from normal rats, as determined by their susceptibility to phagocytosis, IgG binding, anion transport ability, and glyceraldehyde-3-phosphate dehydrogenase activity. Increased breakdown products of band 3 were observed with immunoblotting in membranes of erythrocytes from vitamin E-deficient rats. Breakdown products of band 3 are known to increase as cells age in normal individuals. The data suggest that oxidation may be a possible mechanism for erythrocyte aging and generation of senescent-cell antigen in vivo.

Polypeptides immunologically related to band 3 are present in nucleated somatic cells.

Band 3, the major transmembrane polypeptide of erythrocytes, mediates the exchange of anions (chloride and bicarbonate) across the membrane. We suspected that band 3 was present on nucleated somatic cells as well as erythrocytes because the senescent cell antigen that is immunologically related to band 3 is present on lymphocytes, platelets, adult liver cells, and embryonic kidney cells; and antibodies prepared against the senescent cell antigen isolated from leukocytes react with erythrocyte band 3. For this reason, we examined human fibroblasts, lung cells, neutrophils, mononuclear leukocytes, squamous epithelial (mouth) cells, lung squamous epithelial carcinoma, mouse neuroblastoma cells, and rat hepatocytes for immunoreactive forms of band 3 by using monospecific antibodies to erythrocyte band 3. The results demonstrated that polypeptides sharing common antigenic determinants with erythrocyte band 3 are present in nucleated somatic cells as determined by immunofluorescence, immunoelectron microscopy, and immunoautoradiography. Peptide mapping revealed substantial sequence homology between erythrocyte band 3 and the band 3-like protein of leukocytes. Immunofluorescence studies indicate that the band 3-like proteins in nucleated cells participate in antibody-induced cell surface capping.