Chikako Torigoe scite author profile

The ratio of late to early events stimulated by the mast cell receptor for immunoglobulin E (IgE) correlated with the affinity of a ligand for the receptor-bound IgE. Because excess receptors clustered by a weakly binding ligand could hoard a critical initiating kinase, they prevented the outnumbered clusters engendered by the high-affinity ligands from launching the more complete cascade. A similar mechanism could explain the antagonistic action of some peptides on the activation of T cells.

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Antibodies for fluorescent molecular rotors

Iwaki¹,

Torigoe²,

Noji³

et al. 1993

Biochemistry

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We have prepared monoclonal antibodies for the fluorescent molecular rotors 9-(2-carboxy-2-cyanovinyl)julolidine (CCVJ) and 9-(dicyanovinyl)julolidine (DCVJ). Mouse monoclonal antibody (IgG2b) prepared against CCVJ-conjugated bovine serum albumin strongly bound CCVJ and DCVJ. The CCVJ (or DCVJ) binding to IgG and Fab was accompanied by a drastic increase in fluorescence quantum yield, suggesting the restriction of intramolecular rotational relaxation about the donor-acceptor bond of the fluorophores. Nonspecific IgG never changed the quantum yield of the fluorophores. From the Scatchard plots, the association constants of CCVJ to IgG and Fab were 6.8 x 10(7) and 5.4 x 10(7) M-1, respectively, and the numbers of moles of CCVJ bound per mole of IgG and Fab were calculated to be 2.0 (+/- 0.1) and 1.0 (+/- 0.05), respectively. The fluorescence spectra of the IgG-bound CCVJ were quite similar to those of Fab-bound CCVJ. The fluorescence lifetimes of the IgG-bound and Fab-bound CCVJ were 388 and 383 ps at 25 degrees C, respectively. They were 6.3 times as long as the fluorescence lifetime of CCVJ free in solution (62 ps). These results indicated that the drastic increases in quantum yields were due to the decreases of the nonradiative rate constants of the antibody-bound CCVJ, as well as due to the changes of the intrinsic radiative rate constant, and that the nonradiative internal rotations about the donor-acceptor bond of CCVJ were not dependent on the size of the bound antibody molecules.(ABSTRACT TRUNCATED AT 250 WORDS)

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Insights into immunoglobulin E receptor signaling from structurally defined ligands

Holowka

Sil

Torigoe

et al. 2007

Immunological Reviews

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The asymmetrical structure of bent immunoglobulin E (IgE) bound to its high-affinity receptor, Fc epsilon RI, suggests a possible role for this configuration in the regulation of signaling mediated by cross-linking of Fc epsilon RI on the surface of mast cells and basophils. Indeed, the presence of bound IgE strongly influences the capacity of cross-linked Fc epsilon RI dimers to trigger mast cell degranulation, implicating orientational constraints by bound IgE. Bivalent ligands that cross-link by binding to bivalent IgE can form linear and cyclic chains of IgE/Fc epsilon RI complexes, and these exhibit only limited capacity to stimulate downstream signaling and degranulation, whereas structurally analogous trivalent ligands, which can form branched networks of cross-linked IgE/Fc epsilon RI complexes, are more effective at cell activation. Long bivalent ligands with flexible spacers can form intramolecular cross-links with IgE, and these stable 1:1 complexes are very potent inhibitors of mast cell degranulation stimulated by multivalent antigen. In contrast, trivalent ligands with rigid double-stranded DNA spacers effectively stimulate degranulation responses in a length-dependent manner, providing direct evidence for receptor transphosphorylation as a key step in the mechanism of signaling by Fc epsilon RI. Thus, studies with chemically defined oligovalent ligands show important features of IgE receptor cross-linking that regulate signaling, leading to mast cell activation.

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Chikako Torigoe

An Unusual Mechanism for Ligand Antagonism

Antibodies for fluorescent molecular rotors

Insights into immunoglobulin E receptor signaling from structurally defined ligands

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