Abstract

The proposed study will investigate the nature of the ligand interaction with membrane IgM which is needed for B lymphocyte stimulation. This will be accomplished through the use of a panel of anti-human IgM monoclonal antibodies (MoAbs) which differ in affinity and/or epitope specificity. Using these defined anti-Ig ligands, an explanation for the diverse regulatory effects of anti-Ig ligands which have been observed in the past will be sought. These studies may elucidate the factors that determine whether or not autologous anti-Ig constant region antibodies (rheumatoid factors) can regulate the function of B cells to which they bind. The different mouse anti-human IgM MoAbs will be compared in their ability to a) induce resting B cells to proliferate, b) affect the proliferation and differentiation of B cells stimulated with other mitogens, and c) stimulate early changes in B cells which precede the S phase of the cell cycle. Once sets of stimulatory and non-stimulatory (perhaps inhibitory) MoAbs have been identified, explanations for the functional differences in these ligands will be sought. This will involve comparing stimulatory and non-stimulatory MoAbs and their F(ab')2 fragments for a) affinity and stoichiometry of binding to IgM and b) epitope specificity. The epitope specificity of the MoAbs will be investigated by competitive inhibition studies and by analysis of the ability of each MoAb to bind to chemically modified IgM, IgM fragments, and synthesized peptides which have been predicted by hydrophilicity and conformational analysis as likely to constitute immunogenic epitopes on the human IgM molecule. In addition, the nature of membrane molecule crosslinkage which is necessary to stimulate B cell proliferation will be studied. This will involve comparing the mitogenic capacity of a divalent anti-IgM MoAb to a hybrid antibody which consists of one F(ab') arm directed to IgM and one F(ab') arm directed to a human major histocompatibility (MHC) antigen.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
3R01GM035174-03S1
Application #
3287453
Study Section
Allergy and Immunology Study Section (ALY)
Project Start
1984-12-01
Project End
1988-11-30
Budget Start
1988-09-15
Budget End
1988-11-30
Support Year
3
Fiscal Year
1988
Total Cost
Indirect Cost

  Institution

Name
Hospital for Joint Diseases Ortho Institute
Department
Type
DUNS #
City
New York
State
NY
Country
United States
Zip Code
10003

  Publications

Mongini, Patricia K A; Tolani, Sonia; Fattah, Rasem J et al. (2002) Antigen receptor triggered upregulation of CD86 and CD80 in human B cells: augmenting role of the CD21/CD19 co-stimulatory complex and IL-4. Cell Immunol 216:50-64
Mongini, P K; Inman, J K (2001) Cytokine dependency of human B cell cycle progression elicited by ligands which coengage BCR and the CD21/CD19/CD81 costimulatory complex. Cell Immunol 207:127-40
Mongini, P K; Vilensky, M A; Highet, P F et al. (1998) Membrane IgM-stimulated human B lymphocytes succumb to activation-related apoptosis at a G1-->S transition: influence of ligand affinity and valency. Cell Immunol 188:137-50
Mongini, P K; Liu, Q; Vilensky, M A et al. (1998) Evidence for an upper affinity threshold for anti-IgM-induced apoptosis in a human B-cell lymphoma. Blood 92:3756-71
Mongini, P; Highet, P; Inman, J (1997) Requirements for mIgM-triggered activation versus apoptosis in human B cells. Ann N Y Acad Sci 815:469-71
Mongini, P K; Vilensky, M A; Highet, P F et al. (1997) The affinity threshold for human B cell activation via the antigen receptor complex is reduced upon co-ligation of the antigen receptor with CD21 (CR2). J Immunol 159:3782-91
Mongini, P K; Blessinger, C A; Chiorazzi, N et al. (1995) A monovalent C mu 4-specific ligand enhances the activation of human B cells by membrane IgM cross-linking ligands. Int Immunol 7:317-30
Mongini, P K; Highet, P F; Inman, J K (1995) Human B cell activation. Effect of T cell cytokines on the physicochemical binding requirements for achieving cell cycle progression via the membrane IgM signaling pathway. J Immunol 155:3385-400
Mongini, P K; Blessinger, C A; Dalton, J P et al. (1992) Differential effects of cyclosporin A on diverse B cell activation phenomena triggered by crosslinking of membrane IgM. Cell Immunol 140:478-94
Mongini, P K; Blessinger, C A; Highet, P F et al. (1992) Membrane IgM-mediated signaling of human B cells. Effect of increased ligand binding site valency on the affinity and concentration requirements for inducing diverse stages of activation. J Immunol 148:3892-901

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