The natural anti-Gal antibody constitutes 1% of circulating IgG in humans and interacts specifically with the carbohydrate epitope Gal alpha 1–3Gal beta 1–4GlcNAc-R (the alpha-galactosyl epitope). In view of the unusually large amounts of this antibody in the serum, it was of interest to determine the proportion of circulating B lymphocytes capable of synthesizing anti-Gal. For this purpose, blood B lymphocytes were incubated with Epstein-Barr virus (EBV) and plated in microtiter wells. Proliferation of the EBV transformed B lymphocytes was readily visible after 3 weeks of incubation. The supernatants from wells containing proliferating B-lymphoid clones were assayed for anti-Gal by an agglutination assay with rabbit red blood cells and the specificity of the agglutinating antibodies was further confirmed by their interaction with synthetic oligosaccharides and by enzyme-linked immunosorbent assay with glycoproteins. Approximately 5% of the wells contained anti-Gal antibodies. Limiting dilution studies and IgH gene rearrangement patterns suggested that each well contained an average of five proliferating B-lymphoid clones. Thus, it is concluded that approximately 1% of circulating B lymphocytes are capable of producing anti-Gal. The proportion of anti-Gal--producing lymphoid clones exceeds by fourfold that of clones producing anti-blood group A or anti-blood group B antibodies. Individual anti-Gal clones display fine variations in their combining site, as indicated by their differential interaction with alpha-galactosyl epitopes on glycolipids and on N-linked carbohydrate chains of glycoproteins. The high frequency of precursor B lymphocytes capable of producing anti-Gal, found in every individual and the restricted specificity of this antibody to alpha-galactosyl epitopes, potentially makes anti-Gal--producing lymphocytes an effective system for studying human Ig genes involved in the natural immune response to structurally defined haptens.
The glycosylation enzyme alpha 1,3 galactosyltransferase, which synthesizes the carbohydrate Gal alpha 1-3Gal beta 1-4GlcNAc-R, is active in non-primate mammals, prosimians and New World monkeys, but not in Old World monkeys, apes and humans. In this study, we have cloned and sequenced the enzyme expressed in a New World monkey, determined the exact size of the stem region and assessed the minimal size of catalytically active alpha 1,3 galactosyltransferase (alpha 1,3GT). Various primer sets were used in the polymerase chain reaction to generate cDNAs which coded for forms of alpha 1,3GT with deletions at the N- or C-terminal domains. The cDNA was inserted into the expression vector pPROTA which contains the coding sequence for protein A, and subsequently transfected into COS cells. The soluble chimeric products (truncated enzyme and protein A) were harvested from the cell culture medium using IgG-Sepharose beads and assayed for enzymatic activity. As many as 67 amino acids could be truncated at the amino terminal region of the luminal portion of the enzyme without affecting its catalytic activity. Truncation of 68, 69 and 74 amino acids resulted in a 50, 75 and > 95% loss in the in vitro catalytic actively, respectively. Introduction of a frameshift mutation which is characteristic of apes and human alpha 1,3GT gene resulted in the complete loss of enzyme activity. Moreover, truncation of as few as three amino acids at the carboxyl end of alpha 1,3GT resulted in complete loss of the catalytic activity.(ABSTRACT TRUNCATED AT 250 WORDS)
Aging is associated with decreased expansion of T cells upon stimulation. In young mice, infection induces a transient T cell depletion followed by the development of an Ag-specific T cell response that controls the infection. We found that T cells were depleted early after infection with E55 + murine leukemia retrovirus in young, but not aged, mice. Adoptive transfer experiments showed donor T cells of young, but not aged, mice were depleted due to apoptosis in various tissues of young recipients. However, T cells of neither young nor aged donors were depleted in aged recipients. These results indicate that both environmental and intrinsic cellular properties limit depletion of T cells of aged mice and suggest a novel explanation for the decreased T cell response associated with aging.
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