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Cosentino, M. et al.

Diazepam-binding inhibitor-derived peptides induce intracellular calcium changes and modulate human neutrophil function.

We studied the effects of two diazepam-binding inhibitor (DBI)-derived peptides, triakontatetraneuropeptide (DBI 17-50, TTN) and eiksoneuropeptide (DBI 51-70, ENP), on cytosolic free Ca2+ concentrations ([Ca2+]i), chemotaxis, superoxide anion (O2-) generation, and phagocytosis in human neutrophils. Both TTN and ENP induced a rapid and transient rise of [Ca2+]i. The effect of TTN depended on the presence of extracellular Ca2+, whereas the effect of ENP also persisted after extracellular Ca2+ chelation. TTN induced neutrophil chemotaxis, stimulated O2- generation, and enhanced phagocytosis. ENP did not affect cell migration and oxidative metabolism but enhanced phagocytosis. Both peptides modulated N-formyl-methionyl-leucyl-phenylalanine- and phorbol myristate acetate-induced O2- generation. Because neutrophils express benzodiazepine receptors of the peripheral type (pBRs) and DBI-derived peptides may interact with such receptors, we investigated the possible role of pBRs in TTN- or ENP-induced effects. The synthetic pBR ligand RO 5-4864 increased [Ca2+]i through extracellular Ca2+ influx and this effect was prevented by the pBR antagonist PK-11195. RO 5-4864, however, was ineffective on neutrophil migration and O2- generation and only slightly affected phagocytosis. Moreover, PK-11195 delayed the [Ca2+]i rise induced by TTN but did not significantly affect its extent, and had no effect on the [Ca2+]i rise induced by ENP. We conclude that DBI-derived peptides induce [Ca2+]i changes and modulate neutrophil function mainly through pBR-independent pathways. In view of the wide cell and tissue distribution of DBI in the brain and in peripheral organs, modulation of neutrophil function by DBI-derived peptides may be relevant for both the neuroimmune network and the development and regulation of the inflammatory processes.[1]

References

Diazepam-binding inhibitor-derived peptides induce intracellular calcium changes and modulate human neutrophil function. Cosentino, M., Marino, F., Cattaneo, S., Di Grazia, L., Francioli, C., Fietta, A.M., Lecchini, S., Frigo, G. J. Leukoc. Biol. (2000) [Pubmed]

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