M.R. Kepron scite author profile

Three remarkable and unique features of the immune system are specificity, diversity, and memory. Immunological memory involves both T and B cells and results in a secondary antibody response that is faster, of higher affinity, and results in the secretion of non-IgM isotypes of Ig. In this review we discuss the properties of memory T and B cells, their specific receptors, and the events which occur both in the nucleus and on the cell surface during generation and activation of these cells. Although memory T and B cells use different mechanisms to elaborate memory, there are a number of interesting analogies: lymphokines vs antibodies and affinity maturation of B cell antigen receptors vs upregulation of adhesion molecules on T cells. Finally, we discuss the importance of these cells in health and disease and suggest what impact additional information about these cells might have on the manipulation of the immune response.

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Memory B And T Cells

Vitetta¹,

Berton²,

Burger³

et al. 1991

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The interaction of IgG subclasses with solubilized Fc receptors of rat basophilic leukemia cells

Kepron¹,

Bazin

Froese³

1988

Molecular Immunology

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IL-4 induces the specific rearrangement of gamma 1 genes on the expressed and unexpressed chromosomes of lipopolysaccharide-activated normal murine B cells.

Kepron

Chen

Uhr

et al. 1989

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Small, resting, surface IgM+/surface IgD+ murine B cells undergo an Ig class switch to IgG1 or IgE after stimulation with LPS and T cell supernatants containing IL-4. To firmly establish the role of IL-4 in the directed switch recombination observed in IgG1-secreting cells, we have 1) used highly purified native IL-4 instead of T cell supernatants, 2) used resting B cells from F1 mice in which the active IgH allele was determined before culture, 3) taken advantage of the allelic differences in the restriction fragment lengths of mu, gamma 1, gamma 2b, and gamma 3 loci to determine the status of the CH genes on both the expressed and unexpressed chromosomes, and 4) used different restriction enzymes to distinguish between deletion and rearrangement of a given CH gene. Our results indicate that LPS alone induces rearrangement of the gamma 3 genes on both chromosomes whereas stimulation with LPS plus IL-4 results in deletion of gamma 3 genes and rearrangement of gamma 1 genes on both chromosomes. The studies definitively establish the role of IL-4 in directed switch recombination to the gamma 1 locus in LPS-stimulated murine B cells.

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The cross-reactivity of rat IgE and IgG with solubilized receptors of rat basophilic leukemia cells

Kepron

Conrad

Froese

1982

Molecular Immunology

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M.R. Kepron

Memory B and T Cells

Memory B And T Cells

The interaction of IgG subclasses with solubilized Fc receptors of rat basophilic leukemia cells

IL-4 induces the specific rearrangement of gamma 1 genes on the expressed and unexpressed chromosomes of lipopolysaccharide-activated normal murine B cells.

The cross-reactivity of rat IgE and IgG with solubilized receptors of rat basophilic leukemia cells

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