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The antibody aducanumab reduces Aβ plaques in Alzheimer’s disease

Author

Listed:
  • Jeff Sevigny

    (Biogen)

  • Ping Chiao

    (Biogen)

  • Thierry Bussière

    (Biogen)

  • Paul H. Weinreb

    (Biogen)

  • Leslie Williams

    (Biogen)

  • Marcel Maier

    (Neurimmune)

  • Robert Dunstan

    (Biogen)

  • Stephen Salloway

    (Butler Hospital, Providence)

  • Tianle Chen

    (Biogen)

  • Yan Ling

    (Biogen)

  • John O’Gorman

    (Biogen)

  • Fang Qian

    (Biogen)

  • Mahin Arastu

    (Biogen)

  • Mingwei Li

    (Biogen)

  • Sowmya Chollate

    (Biogen)

  • Melanie S. Brennan

    (Biogen)

  • Omar Quintero-Monzon

    (Biogen)

  • Robert H. Scannevin

    (Biogen)

  • H. Moore Arnold

    (Biogen)

  • Thomas Engber

    (Biogen)

  • Kenneth Rhodes

    (Biogen)

  • James Ferrero

    (Biogen)

  • Yaming Hang

    (Biogen)

  • Alvydas Mikulskis

    (Biogen)

  • Jan Grimm

    (Neurimmune)

  • Christoph Hock

    (Neurimmune
    Institute for Regenerative Medicine, University of Zurich)

  • Roger M. Nitsch

    (Neurimmune
    Institute for Regenerative Medicine, University of Zurich)

  • Alfred Sandrock

    (Biogen)

Abstract

Alzheimer’s disease (AD) is characterized by deposition of amyloid-β (Aβ) plaques and neurofibrillary tangles in the brain, accompanied by synaptic dysfunction and neurodegeneration. Antibody-based immunotherapy against Aβ to trigger its clearance or mitigate its neurotoxicity has so far been unsuccessful. Here we report the generation of aducanumab, a human monoclonal antibody that selectively targets aggregated Aβ. In a transgenic mouse model of AD, aducanumab is shown to enter the brain, bind parenchymal Aβ, and reduce soluble and insoluble Aβ in a dose-dependent manner. In patients with prodromal or mild AD, one year of monthly intravenous infusions of aducanumab reduces brain Aβ in a dose- and time-dependent manner. This is accompanied by a slowing of clinical decline measured by Clinical Dementia Rating—Sum of Boxes and Mini Mental State Examination scores. The main safety and tolerability findings are amyloid-related imaging abnormalities. These results justify further development of aducanumab for the treatment of AD. Should the slowing of clinical decline be confirmed in ongoing phase 3 clinical trials, it would provide compelling support for the amyloid hypothesis.

Suggested Citation

  • Jeff Sevigny & Ping Chiao & Thierry Bussière & Paul H. Weinreb & Leslie Williams & Marcel Maier & Robert Dunstan & Stephen Salloway & Tianle Chen & Yan Ling & John O’Gorman & Fang Qian & Mahin Arastu , 2016. "The antibody aducanumab reduces Aβ plaques in Alzheimer’s disease," Nature, Nature, vol. 537(7618), pages 50-56, September.
    • Handle: RePEc:nat:nature:v:537:y:2016:i:7618:d:10.1038_nature19323
    DOI: 10.1038/nature19323
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    Cited by:

    1. Xiuhua Yin & Hong Zhou & Mengling Zhang & Juan Su & Xiao Wang & Sijie Li & Zaixing Yang & Zhenhui Kang & Ruhong Zhou, 2023. "C3N nanodots inhibits Aβ peptides aggregation pathogenic path in Alzheimer’s disease," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    2. Fabian Wirth & Fabrice D. Heitz & Christine Seeger & Ioana Combaluzier & Karin Breu & Heather C. Denroche & Julien Thevenet & Melania Osto & Paolo Arosio & Julie Kerr-Conte & C. Bruce Verchere & Franç, 2023. "A human antibody against pathologic IAPP aggregates protects beta cells in type 2 diabetes models," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    3. Jusung An & Kyeonghwan Kim & Ho Jae Lim & Hye Yun Kim & Jinwoo Shin & InWook Park & Illhwan Cho & Hyeong Yun Kim & Sunghoon Kim & Catriona McLean & Kyu Yeong Choi & YoungSoo Kim & Kun Ho Lee & Jong Se, 2024. "Early onset diagnosis in Alzheimer’s disease patients via amyloid-β oligomers-sensing probe in cerebrospinal fluid," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    4. Jiyeon Lee & Haeryung Lee & Hyein Lee & Miram Shin & Min-Gi Shin & Jinsoo Seo & Eun Jeong Lee & Sun Ah Park & Soochul Park, 2023. "ANKS1A regulates LDL receptor-related protein 1 (LRP1)-mediated cerebrovascular clearance in brain endothelial cells," Nature Communications, Nature, vol. 14(1), pages 1-20, December.
    5. Sheng Chen & Anuradhika Puri & Braxton Bell & Joseph Fritsche & Hector H. Palacios & Maurie Balch & Macy L. Sprunger & Matthew K. Howard & Jeremy J. Ryan & Jessica N. Haines & Gary J. Patti & Albert A, 2024. "HTRA1 disaggregates α-synuclein amyloid fibrils and converts them into non-toxic and seeding incompetent species," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    6. Li, Huixia & Zhao, Hongyong, 2022. "Mathematical model of Alzheimer’s disease with prion proteins interactions and treatment," Applied Mathematics and Computation, Elsevier, vol. 433(C).
    7. Shangran Qiu & Matthew I. Miller & Prajakta S. Joshi & Joyce C. Lee & Chonghua Xue & Yunruo Ni & Yuwei Wang & Ileana Anda-Duran & Phillip H. Hwang & Justin A. Cramer & Brigid C. Dwyer & Honglin Hao & , 2022. "Multimodal deep learning for Alzheimer’s disease dementia assessment," Nature Communications, Nature, vol. 13(1), pages 1-17, December.
    8. Byung Jo Choi & Min Hee Park & Kang Ho Park & Wan Hui Han & Hee Ji Yoon & Hye Yoon Jung & Ju Yeon Hong & Md Riad Chowdhury & Kyung Yeol Kim & Jihoon Lee & Im-Sook Song & Minyeong Pang & Min-Koo Choi &, 2023. "Immunotherapy targeting plasma ASM is protective in a mouse model of Alzheimer’s disease," Nature Communications, Nature, vol. 14(1), pages 1-17, December.

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