Moreover, other proteases have been indentified in chromaffines granules, including the neuroendocrine-specific carboxypeptidase E/H and the Lys/Arg-amino peptidases [55]. These data suggest that Cgs might serve as a prohormone for a shorter fragment having regulatory properties [56]. In the rat and human GI tract, the presence of cell- and tissue-specific processing of CgA has been shown [57–59], but very little is known about the functional role of Cgs in GI pathophysiology. Herein we will discuss the several
data related to the role of Cgs in immune function and inflammation. Due to the similarity click here of sequence with the cell-penetrating peptides family [60], Cgs-derived peptides such as chromofungin (CHR, bCgA 47–66) and vasostatin-I (VS-I, bCgA 1–76) are able to penetrate into
polymorphonuclear neutrophils (PMNs), inducing an extracellular calcium entry by a CaM-regulated iPLA2 pathway. This study highlights the role of CgA-derived peptides in active communication between the neuroendocrine and immune systems [61]. Keeping within the endocrine–immune context, not only can the PMN be regulated by Cgs-derived peptides, but catestatin (CAT; bCgA 344–364) stimulates chemotaxis of human peripheral blood monocytes dose-dependently, exhibiting its maximal effect at a concentration of 1 nM comparable to the established chemoattractant-formulated peptide Met-Leu-Phe (fMLP) [62], suggesting a role of this
peptide as an inflammatory mediator. In the same inflammatory context, secretoneurin reduces IL-16 release from eosinophils; this effect is in addition to that observed Transferase inhibitor with granulocyte–macrophage colony-stimulating factors or IL-5. Results suggest that distinct neuropeptides are able to reduce the number of lymphocytes at inflammatory Parvulin sites during existing eosinophilia by inhibiting the relaease of IL-16, thus attenuating the proinflammatory action of lymphocytes and monocytes. It has also been demonstrated that secretoneurin stimulates migration and cytokine release from human peripheral blood NK cells, implying that activation of this cell type by secretoneurin could affect the accumulation of these cells at loci of neurogenic inflammation [63]. A role for the neuropeptide on neutrophil adhesion and transmigration through a lung fibroblast barrier in vitro has also been shown [64]. Cgs-derived peptides can not only regulate the immune system during inflammation, but can also modulate the endothelial permeability during the inflammatory process, but the actual role of Cgs and derived peptide are not really clear. CgA prevents the vascular leakage induced by tumour necrosis factor (TNF)-α in a mouse model [65]. Studies of the mechanism of action show that CgA and its NH(2)-terminal fragments inhibit TNF-α-induced vascular permeability by preventing endothelial cytoskeleton rearrangements.