6533b838fe1ef96bd12a3bda

RESEARCH PRODUCT

α-secretase mediated conversion of the amyloid precursor protein derived membrane stub C99 to C83 limits Aβ generation

Carsten KorthJohanna WesselowskiEva CzirrElaine WaldronStefanie LeuchtenbergerClaus U. PietrzikAnne M. MartinSebastian JägerEdward H. KooMarco DieckmannMichael T. HenekaSascha Weggen

subject

medicine.medical_specialtymedia_common.quotation_subjectEndocytic cycleCHO CellsTransfectionBiochemistryAmyloid beta-Protein PrecursorCellular and Molecular NeuroscienceCricetulusCricetinaeInternal medicinemental disordersmedicineAmyloid precursor proteinAnimalsHumansBiotinylationProtein Interaction Domains and MotifsSecretionInternalizationSecretory pathwaymedia_commonAmyloid beta-PeptidesbiologyChemistryP3 peptidePeptide FragmentsCell biologyEndocrinologyGene Expression RegulationAlpha secretaseMutationbiology.proteinAmyloid Precursor Protein SecretasesAmyloid precursor protein secretase

description

The Swedish mutation within the amyloid precursor protein (APP) causes early-onset Alzheimer's disease due to increased cleavage of APP by BACE1. While beta-secretase shedding of Swedish APP (APPswe) largely results from an activity localized in the late secretory pathway, cleavage of wild-type APP occurs mainly in endocytic compartments. However, we show that liberation of Abeta from APPswe is still dependent on functional internalization from the cell surface. Inspite the unchanged overall beta-secretase cleaved soluble APP released from APP(swe) secretion, mutations of the APPswe internalization motif strongly reduced C99 levels and substantially decreased Abeta secretion. We point out that alpha-secretase activity-mediated conversion of C99 to C83 is the main cause of this Abeta reduction. Furthermore, we demonstrate that alpha-secretase cleavage of C99 even contributes to the reduction of Abeta secretion of internalization deficient wild-type APP. Therefore, inhibition of alpha-secretase cleavage increased Abeta secretion through diminished conversion of C99 to C83 in APP695, APP695swe or C99 expressing cells.

yearjournalcountryeditionlanguage
2009-10-07Journal of Neurochemistry
https://doi.org/10.1111/j.1471-4159.2009.06420.x