Uncoupling Neogenin association with lipid rafts promotes neuronal survival and functional recovery after stroke.

The dependence receptor Neogenin and its ligand, the repulsive guidance molecule a (RGMa), regulate apoptosis and axonal growth in the developing and the adult central nervous system (CNS). Here, we show that this pathway has also a critical role in neuronal death following stroke, and that providing RGMa to neurons blocks Neogenin-induced death. Interestingly, the Neogenin pro-death function following ischemic insult depends on Neogenin association with lipid rafts. Thus, a peptide that prevents Neogenin association with lipid rafts increased neuronal survival in several in vitro stroke models. In rats, a pro-survival effect was also observed in a model of ocular ischemia, as well as after middle cerebral artery occlusion (MCAO). Treatments that prevented Neogenin association with lipid rafts improved neuronal survival and the complexity of the neuronal network following occlusion of the middle artery. Toward the development of a treatment for stroke, we developed a human anti-RGMa antibody that also prevents Neogenin association with lipid rafts. We show that this antibody also protected CNS tissue from ischemic damage and that its application resulted in a significant functional improvement even when administrated 6 h after artery occlusion. Thus, our results draw attention to the role of Neogenin and lipid rafts as potential targets following stroke.

The functional gamma-secretase inhibitor prevents production of amyloid beta 1-34 in human and murine cell lines.

The amyloid precursor protein (APP) undergoes two consecutive cleavages by different proteases, beta-secretase and gamma-secretase, leading to the release of an amyloidogenic 4 kDa fragment called amyloid beta (Abeta). Combining immunoprecipitation and mass spectrometry, we characterized soluble Abeta in cultured cell media of mouse neuroblastoma N2a cells and double hAPP/hBACE-1 transfected HEK293. The major Abeta isoforms detected were Abeta11-34, Abeta1-34, Abeta11-40 and Abeta1-40. In this study, we demonstrate that overexpression of human beta-secretase (BACE-1) in HEK293 cells resulted in predominant Abeta cleavage at position Glu(11) rather than Asp(1), as well as increased production of Abeta(x)-34, but not Abeta(x)-40. Incubation of cells with a specific gamma-secretase inhibitor suggests that cleavage of APP at Leu(34) could be mediated by gamma-secretase itself or by a gamma-secretase dependent process.