OBJECTIVE: Mounting evidence suggests that α-synuclein, a major protein component of Lewy bodies (LB), may be responsible for initiating and spreading the pathological process in Parkinson disease (PD). Supporting this concept, intracerebral inoculation of synthetic recombinant α-synuclein fibrils can trigger α-synuclein pathology in mice. However, it remains uncertain whether the pathogenic effects of recombinant synthetic α-synuclein may apply to PD-linked pathological α-synuclein and occur in species closer to humans. METHODS: Nigral LB-enriched fractions containing pathological α-synuclein were purified from postmortem PD brains by sucrose gradient fractionation and subsequently inoculated into the substantia nigra or striatum of wild-type mice and macaque monkeys. Control animals received non-LB fractions containing soluble α-synuclein derived from the same nigral PD tissue. RESULTS: In both mice and monkeys, intranigral or intrastriatal inoculations of PD-derived LB extracts resulted in progressive nigrostriatal neurodegeneration starting at striatal dopaminergic terminals. No neurodegeneration was observed in animals receiving non-LB fractions from the same patients. In LB-injected animals, exogenous human α-synuclein was quickly internalized within host neurons and triggered the pathological conversion of endogenous α-synuclein. At the onset of LB-induced degeneration, host pathological α-synuclein diffusely accumulated within nigral neurons and anatomically interconnected regions, both anterogradely and retrogradely. LB-induced pathogenic effects required both human α-synuclein present in LB extracts and host expression of α-synuclein. INTERPRETATION: α-Synuclein species contained in PD-derived LB are pathogenic and have the capacity to initiate a PD-like pathological process, including intracellular and presynaptic accumulations of pathological α-synuclein in different brain areas and slowly progressive axon-initiated dopaminergic nigrostriatal neurodegeneration.
OBJECTIVE: Mounting evidence suggests that α-synuclein, a major protein component of Lewy bodies (LB), may be responsible for initiating and spreading the pathological process in Parkinson disease (PD). Supporting this concept, intracerebral inoculation of synthetic recombinant α-synuclein fibrils can trigger α-synuclein pathology in mice. However, it remains uncertain whether the pathogenic effects of recombinant synthetic α-synuclein may apply to PD-linked pathological α-synuclein and occur in species closer to humans. METHODS: Nigral LB-enriched fractions containing pathological α-synuclein were purified from postmortem PD brains by sucrose gradient fractionation and subsequently inoculated into the substantia nigra or striatum of wild-type mice and macaque monkeys. Control animals received non-LB fractions containing soluble α-synuclein derived from the same nigral PD tissue. RESULTS: In both mice and monkeys, intranigral or intrastriatal inoculations of PD-derived LB extracts resulted in progressive nigrostriatal neurodegeneration starting at striatal dopaminergic terminals. No neurodegeneration was observed in animals receiving non-LB fractions from the same patients. In LB-injected animals, exogenous human α-synuclein was quickly internalized within host neurons and triggered the pathological conversion of endogenous α-synuclein. At the onset of LB-induced degeneration, host pathological α-synuclein diffusely accumulated within nigral neurons and anatomically interconnected regions, both anterogradely and retrogradely. LB-induced pathogenic effects required both human α-synuclein present in LB extracts and host expression of α-synuclein. INTERPRETATION: α-Synuclein species contained in PD-derived LB are pathogenic and have the capacity to initiate a PD-like pathological process, including intracellular and presynaptic accumulations of pathological α-synuclein in different brain areas and slowly progressive axon-initiated dopaminergic nigrostriatal neurodegeneration.
Authors: Amanda N Sacino; Mieu Brooks; Michael A Thomas; Alex B McKinney; Nicholas H McGarvey; Nicola J Rutherford; Carolina Ceballos-Diaz; Janice Robertson; Todd E Golde; Benoit I Giasson Journal: Acta Neuropathol Date: 2014-05 Impact factor: 17.088
Authors: Richard J Karpowicz; Conor M Haney; Tiberiu S Mihaila; Raizel M Sandler; E James Petersson; Virginia M-Y Lee Journal: J Biol Chem Date: 2017-06-13 Impact factor: 5.157
Authors: Ana Perez-Villalba; M Salomé Sirerol-Piquer; Germán Belenguer; Raúl Soriano-Cantón; Ana Belén Muñoz-Manchado; Javier Villadiego; Diana Alarcón-Arís; Federico N Soria; Benjamin Dehay; Erwan Bezard; Miquel Vila; Analía Bortolozzi; Juan José Toledo-Aral; Francisco Pérez-Sánchez; Isabel Fariñas Journal: J Neurosci Date: 2017-12-07 Impact factor: 6.167
Authors: Amanda L Woerman; Jan Stöhr; Atsushi Aoyagi; Ryan Rampersaud; Zuzana Krejciova; Joel C Watts; Takao Ohyama; Smita Patel; Kartika Widjaja; Abby Oehler; David W Sanders; Marc I Diamond; William W Seeley; Lefkos T Middleton; Steve M Gentleman; Daniel A Mordes; Thomas C Südhof; Kurt Giles; Stanley B Prusiner Journal: Proc Natl Acad Sci U S A Date: 2015-08-18 Impact factor: 11.205
Authors: Daryl Rhys Jones; Marion Delenclos; AnnMarie T Baine; Michael DeTure; Melissa E Murray; Dennis W Dickson; Pamela J McLean Journal: J Neuropathol Exp Neurol Date: 2015-12 Impact factor: 3.685