ROLE OF PS1/Y-SECRETASE IN THE ANGIOGENIC PROPERTIES OF EPHRINB/EphB
Icahn School Of Medicine At Mount Sinai, New York NY
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Abstract
Alzheimer's disease (AD) is a neurodegenerative disease characterized by severe neurovascular disfunction. Increasing evidence implicates cerebral microvasculature abnormalities in the genesis of AD neuropathology. Presenilin 1 (PS1) is a protein of central importance to the neuropathology of AD. Mutations in this protein are linked to many cases of autosomal dominant forms of AD. PS1 controls the y-secretase cleavage of several type I transmembrane proteins producing cytoplasmic peptides with signaling and gene expression functions. We recently showed that PS1/y-secretase cleaves ephrinB proteins and promotes the EphB-induced phosphorylation of Src. Since both ephrinB and Src play a critical role in angiogenesis it is possible that PS1/y-secretase may regulate ephrinB-mediated angiogenesis. Here we show that y-secretase promotes the angiogenic response of endothelial cells to EphB in a Src-dependent manner and so does the product of y-secretase cleavage of ephrinB (ephrinB/CTF2 cytoplasmic peptide), whose production is stimulated by EphB receptor. This suggests that PSI/y-secretase may regulate the EphB-induced angiogenesis by cleaving ephrinB and activating Src via this cleavage. To elucidate the mechanism by which PS1/y-secretase promotes the EphB-induced Src activation we analyze the association of ephrinB/CTF2 peptide with the Src regulatory complex. This complex consists of the adaptor protein PAG/Cbp and the regulatory kinase Csk, which regulate the autophosphorylation and activation of Src. We found that ephrinB/CTF2 forms specific complexes with PAG/Cbp affecting its phosphorylation on tyrosine residues and its association with Csk kinase and that PAG/Cbp mediates the EphB-induced angiogenic response of endothelial cells in two in vitro angiogenesis assays. Our data suggest that PS1/y-secretase promotes EphBinduced angiogenesis by cleaving ephrinB, producing ephrinB/CTF2 peptide, which interacts with the Src regulatory machinery promoting Src activation and cell sprouting. Thus PS1/y-secretase may regulate development and integrity of the brain vasculature, and PS1 mutations found in Familial AD may impair it. We propose to examine the role of PSI/y-secretase in the EphB/ephrinB-mediated angiogenesis.
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