AIMS: We investigated the pathological relevance of the "Aβ oligomer (AβO) cascade hypothesis" in 3xTg-AD mice. This study was also designed to elucidate the molecular mechanism underlying the toxic action of AβOs. MAIN METHODS: To target the extracellular AβOs in vivo, a monoclonal antibody specific for AβOs was developed using a novel method. Monoclonal 72D9 was intravenously administered to aged 3xTg-AD mice bearing the human AD pathology to investigate the relevance of the AβO cascade hypothesis. To further identify the AβO-binding molecule on the cell surface, small interfering RNA (siRNA) for sortilin was transfected into SH-SY5Y cells. The sortilin-dependent molecular mechanism underlying toxic action of AβOs and/or AβO endocytosis was also assessed in cultured cortical neurons forming synapses. KEY FINDINGS: The 72D9 immunotherapy of aged 3xTg-AD mice revealed that extracellular and intraneuronal AβOs are related, and that intraneuronal AβOs act upstream of tau. We also found that extracellular AβOs first act as a sortilin ligand, and then induce p75(NTF)-mediated apoptosis, endocytosis-induced attenuation of autophagy, or accumulation of AβOs in autophagosomes. SIGNIFICANCE: Taken together, these findings provide novel lines of evidence that sortilin governs the toxic action of extracellular AβOs, which affects the degradation and/or clearance of either intraneuronal AβOs or tau. Thus, therapeutic intervention targeting extracellular AβOs themselves or for preventing the interaction between intraneuronal AβOs and tau is a promising strategy to be developed for AD treatment.
AIMS: We investigated the pathological relevance of the "Aβ oligomer (AβO) cascade hypothesis" in 3xTg-AD mice. This study was also designed to elucidate the molecular mechanism underlying the toxic action of AβOs. MAIN METHODS: To target the extracellular AβOs in vivo, a monoclonal antibody specific for AβOs was developed using a novel method. Monoclonal 72D9 was intravenously administered to aged 3xTg-AD mice bearing the human AD pathology to investigate the relevance of the AβO cascade hypothesis. To further identify the AβO-binding molecule on the cell surface, small interfering RNA (siRNA) for sortilin was transfected into SH-SY5Y cells. The sortilin-dependent molecular mechanism underlying toxic action of AβOs and/or AβO endocytosis was also assessed in cultured cortical neurons forming synapses. KEY FINDINGS: The 72D9 immunotherapy of aged 3xTg-AD mice revealed that extracellular and intraneuronal AβOs are related, and that intraneuronal AβOs act upstream of tau. We also found that extracellular AβOs first act as a sortilin ligand, and then induce p75(NTF)-mediated apoptosis, endocytosis-induced attenuation of autophagy, or accumulation of AβOs in autophagosomes. SIGNIFICANCE: Taken together, these findings provide novel lines of evidence that sortilin governs the toxic action of extracellular AβOs, which affects the degradation and/or clearance of either intraneuronal AβOs or tau. Thus, therapeutic intervention targeting extracellular AβOs themselves or for preventing the interaction between intraneuronal AβOs and tau is a promising strategy to be developed for AD treatment.
Authors: Jaume Amengual; Liang Guo; Alanna Strong; Julio Madrigal-Matute; Haizhen Wang; Susmita Kaushik; Jeffrey L Brodsky; Daniel J Rader; Ana Maria Cuervo; Edward A Fisher Journal: Circ Res Date: 2018-01-04 Impact factor: 17.367
Authors: Sergio T Ferreira; Mychael V Lourenco; Mauricio M Oliveira; Fernanda G De Felice Journal: Front Cell Neurosci Date: 2015-05-26 Impact factor: 5.505
Authors: Amrita Pathak; Shayla Clark; Francisca C Bronfman; Christopher D Deppmann; Bruce D Carter Journal: Wiley Interdiscip Rev Dev Biol Date: 2020-05-11 Impact factor: 5.814