Browsing by keyword "Genes, Immunoglobulin"

Now showing items 1-7 of 7

    • Immunology. A touch of antibody class
      Stavnezer, Janet (2000-05-12)
      When B cells, the antibody producing cells of the body, encounter antigen they switch from producing immunoglobulin (Ig) M to producing other classes of antibody (IgG, IgA or IgE), the class selected depending on the type of immune response needed. But the way in which B cells skillfully switch from one antibody class to another is still not clear although it is known to involve recombination between genes. In a Perspective, Stavnezer explains how formation of hybrids between RNA transcripts (transcribed from the heavy chain gene to which the cell will switch) and the DNA template at crucial switch sequences in the genome regulates class switching (Tracy et al.). It is possible that an as yet unidentified endonuclease digests the hybrid thereby creating the DNA ends that will be joined together.

    • Mouse antibody response to group A streptococcal carbohydrate
      Jarvis, C. D.; Cannon, L. E.; Stavnezer, Janet (1989-12-15)
      In an attempt to more fully understand the generation of antibody diversity to carbohydrate (CHO) Ag, we produced and characterized a panel of hybridoma cell lines specific for group A streptococcal CHO from mice injected with the intact bacteria (minus the hyaluronic acid capsule and cell wall protein Ag). We have analyzed the use of H and L chain V region genes in the early (day 7) and late response (hyperimmune) and have sequenced the dominant VH gene used in several of our hybridomas. Our data allowed us to assess the extent to which the recombination of various V, D, and J gene segments and somatic mutation contribute to antibody diversification in this system. In this report we confirm that a minimum of two VH and four VK gene segments are used to encode this response. We extend this analysis to show that multiple D and J gene segments are used and that a significant amount of junctional variability is tolerated in CDR 3. Our results indicate that the level of somatic mutation in the hyperimmune response is generally low in comparison with the response to haptens and protein Ag. These data also suggest that there is a positive selection for mutation in CDR 1 during the hyperimmune response to group A streptococcal CHO.

    • Peripheral B cells latently infected with Epstein-Barr virus display molecular hallmarks of classical antigen-selected memory B cells
      Souza, Tatyana A.; Stollar, B. David; Sullivan, John L.; Luzuriaga, Katherine; Thorley-Lawson, David A. (2005-12-13)
      Epstein-Barr virus (EBV) establishes a lifelong persistent infection within peripheral blood B cells with the surface phenotype of memory cells. To date there is no proof that these cells have the genotype of true germinal-center-derived memory B cells. It is critical to understand the relative contribution of viral mimicry versus antigen signaling to the production of these cells because EBV encodes proteins that can affect the surface phenotype of infected cells and provide both T cell help and B cell receptor signals in the absence of cognate antigen. To address these questions we have developed a technique to identify single EBV-infected cells in the peripheral blood and examine their expressed Ig genes. The genes were all isotype-switched and somatically mutated. Furthermore, the mutations do not cause stop codons and display the pattern expected for antigen-selected memory cells based on their frequency, type, and location within the Ig gene. We conclude that latently infected peripheral blood B cells display the molecular hallmarks of classical antigen-selected memory B cells. Therefore, EBV does not disrupt the normal processing of latently infected cells into memory, and deviations from normal B cell biology are not tolerated in the infected cells. This article provides definitive evidence that EBV in the peripheral blood persists in true memory B cells.

    • Regulation of the antibody class switch to IgA
      Lin, Y. C.; Shockett, P.; Stavnezer, Janet (1991-01-01)
      No abstract provided.

    • Regulation of the promoter for human immunoglobulin gamma3 germ-line transcription and its interaction with the 3'alpha enhancer
      Pan, Q.; Petit-Frere, C.; Stavnezer, Janet; Hammarstrom, L. (2000-04-01)
      The mechanism underlying the differential regulation of switching to human IgG subclasses is still largely unknown. We demonstrate that the region upstream of the initiation sites for gamma3 germ-line (GL) transcripts contains a functional promoter which is synergistically induced by IL-4, antibody to CD40 and phorbol dibutyrate in transient transfection assays in the human DG75 cell line. Linker-scanning mutations identified multiple elements in the 3' half of the evolutionarily conserved sequence that are required for inducibility. Electrophoretic mobility shift assays showed that Stat6 and NF-kappaB p50 / p65 are induced after stimulation, and bind to specific sequence motifs within the promoter. Overexpression of Stat6, NF-kappaB p50 / p65 and C / EBPgamma synergistically induced the GL gamma3 promoter. Insertion of DNA segments from the human 3' IgH regions, which may function as a locus control region for switch recombination, greatly activated the promoter in an orientation-independent manner. Duplication of the enhancer fragments resulted in a further increase of promoter activity. The greater enhancement of the HS1,2 fragment from the 3' alpha1 rather than the alpha2 locus may suggest a mechanistic explanation for the differential expression of various isotypes.

    • Regulation of transcription of the germ-line Ig alpha constant region gene by an ATF element and by novel transforming growth factor-beta 1-responsive elements
      Lin, Y. C.; Stavnezer, Janet (1992-11-01)
      Inasmuch as transcription of unrearranged, or germ-line, Ig CH genes appears to direct switch recombination, understanding the regulation of this transcription is essential for understanding the regulation of class switching. Transforming growth factor-beta 1 (TGF-beta 1) induces germ-line alpha transcripts and increases class switching to IgA in the I.29 mu B lymphoma and in Peyer's patch and splenic B cells. It has been previously demonstrated that induction of germ-line alpha transcripts by TGF-beta occurs at the transcriptional level in I.29 mu cells. We now demonstrate that the DNA segment located 5' to the initiation sites of germ-line alpha RNA drives expression of a luciferase reporter gene construct in transient transfection experiments. Full constitutive expression requires no more than 106 bp of the 5' flanking segment. By creating a series of deletion and substitution mutations, we have demonstrated that an ATF/CRE site residing within this region is very important for constitutive expression of the germ-line alpha promoter, but mutation of this motif does not diminish TGF-beta induction. Inducibility by TGF-beta requires additional sequences residing between -128 to -106 relative to the first RNA initiation site. Two copies of a tandemly repeated sequence 5' CA-CAG(G)CCAGAC 3' (termed Ig alpha TGF-beta-RE) are located in the region from -127 to -105. An oligonucleotide containing multimers of these repeats confers TGF-beta inducibility to a heterologous promoter. An additional copy of the TGF-beta-RE was identified at -41/-30 and its deletion reduces the TGF-beta response. Thus, we conclude that tandem repeats of a novel TGF-beta-RE are the positive regulatory element for the TGF-beta response. Our study provides further evidence that TGF-beta directs class switching to IgA through induction of transcription of the germ-line C alpha gene and demonstrates that TGF-beta can activate the promoter for the germ-line alpha gene.

    • The role of Apex2 in class-switch recombination of immunoglobulin genes
      Guikema, Jeroen E. J.; Stavnezer, Janet; Schrader, Carol E. (2010-03-01)