The urokinase/urokinase receptor system in mast cells: effects of its functional interaction with fmlf receptors
Data
2016Autore
Rossi, Francesca Wanda
Prevete, Nella
Rivellese, Felice
Napolitano, Filomena
Montuori, Nunzia
Postiglione, Loredana
Selleri, Carmine
De Paulis, Amato
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Mostra tutti i dati dell'itemAbstract
Mast cell and basophils express the high
affinity receptor for IgE (FcRI) and are primary
effector cells of allergic disorders. The urokinase
(uPA)-mediated plasminogen activation system is
involved in physiological and pathological events
based on cell migration and tissue remodelling, such
as inflammation, wound healing, angiogenesis and
metastasis. uPA is a serine protease that binds uPAR,
a high affinity glycosyl-phosphatidyl-inositol (GPI)-
anchored receptor. uPAR focuses uPA activity at the
cell surface and activates intracellular signaling
through lateral interactions with integrins, receptor
tyrosine kinases and the G-protein-coupled family of
fMLF chemotaxis receptors (FPRs).
We investigated the expression of the uPAuPAR system and its functional interaction with
FPRs in human mast cells (MCs). Differently from
basophils, MCs produced uPA that was able to
induce their chemotaxis. Indeed, MCs also expressed
uPAR, both in the intact and in a cleaved form (DIIDIII-uPAR) that can expose, at the N-terminus, the
SRSRY sequence, able to interact with FPRs and to
mediate cell chemotaxis. MCs also expressed
mRNAs for FPRs that were functionally active;
indeed, uPA and a soluble peptide (uPAR84-95),
containing the SRSRY chemotactic sequence of
uPAR and able to interact with FPRs, were able to
induce MCs chemotaxis.
Thus, uPA is a potent chemoattractant for
MCs acting through the exposure of the chemotactic
epitope of uPAR, that is an endogenous ligand for
FPRs. The same mechanism could be involved in
VEGF-A secretion by human MCs, also induced by
uPA and uPAR84-95 stimulation.