Oligodendrocytes produce amyloid-β and contribute to plaque formation alongside neurons in Alzheimer's disease model mice.
Andrew Octavian SasmitaConstanze DeppTaisiia NazarenkoTing SunSophie B SiemsErinne Cherisse OngYakum Bertrand NkehCarolin BöhlerXuan YuBastian BuesLisa EvangelistaShuying MaoBarbara MorgadoZoe WuTorben RuhwedelSwati SubramanianFriederike BörensenKatharina OverhoffLena SpiethStefan A BerghoffKatherine Rose SadleirRobert VassarSimone EggertSandra GoebbelsTakashi SaitoTakaomi C SaidoGesine SaherWiebke MöbiusGonçalo Castelo-BrancoHans-Wolfgang KlafkiOliver WirthsJens WiltfangSarah JäkelRiqiang YanKlaus-Armin NavePublished in: Nature neuroscience (2024)
Amyloid-β (Aβ) is thought to be neuronally derived in Alzheimer's disease (AD). However, transcripts of amyloid precursor protein (APP) and amyloidogenic enzymes are equally abundant in oligodendrocytes (OLs). By cell-type-specific deletion of Bace1 in a humanized knock-in AD model, APP NLGF , we demonstrate that OLs and neurons contribute to Aβ plaque burden. For rapid plaque seeding, excitatory projection neurons must provide a threshold level of Aβ. Ultimately, our findings are relevant for AD prevention and therapeutic strategies.