A TREM2-activating antibody with a blood–brain barrier transport vehicle enhances microglial metabolism in Alzheimer’s disease models

Bettina van Lengerich; Lihong Zhan; Dan Xia; Darren Chan; David Joy; Joshua I. Park; David Tatarakis; Meredith Calvert; Selina Hummel; Steve Lianoglou; Michelle E. Pizzo; Rachel Prorok; Elliot R. Thomsen; Laura M. Bartos; Philipp Beumers; Anja Capell; Sonnet S. Davis; Lis de Weerd; Jason C. Dugas; Joseph Duque; Timothy Earr; Kapil Gadkar; Tina Giese; Audrey Gill; Johannes Gnörich; Connie Ha; Malavika Kannuswamy; Do Jin Kim; Sebastian T. Kunte; Lea H. Kunze; Diana Lac; Kendra J. Lechtenberg; Amy Wing-Sze Leung; Chun-chi Liang; Isabel Álvarez; Paul McQuade; Anuja Modi; Vanessa O. Torres; Hoang N. Nguyen; Ida Pesämaa; Nicholas E. Propson; Marvin Reich; Yaneth Robles‐Colmenares; Kai Schlepckow; Luna Slemann; Hilda Solanoy; Jung H. Suh; Robert G. Thorne; Chandler Vieira; Karin Wind; Ken Xiong; Y. Joy Yu Zuchero; Dolo Diaz; Mark S. Dennis; Fen Huang; Kimberly Scearce‐Levie; Ryan J. Watts; Christian Haass; Joseph W. Lewcock; Gilbert Di Paolo; Matthias Brendel; Pascal E. Sanchez; Kathryn M. Monroe

doi:10.1038/s41593-022-01240-0

A TREM2-activating antibody with a blood–brain barrier transport vehicle enhances microglial metabolism in Alzheimer’s disease models

Bettina van Lengerich(Denali Therapeutics (United States)), Lihong Zhan(Denali Therapeutics (United States)), Dan Xia(Denali Therapeutics (United States)), Darren Chan(Denali Therapeutics (United States)), David Joy(Denali Therapeutics (United States)), Joshua I. Park(Denali Therapeutics (United States)), David Tatarakis(Denali Therapeutics (United States)), Meredith Calvert(Denali Therapeutics (United States)), Selina Hummel(German Center for Neurodegenerative Diseases), Steve Lianoglou(Denali Therapeutics (United States)), Michelle E. Pizzo(Denali Therapeutics (United States)), Rachel Prorok(Denali Therapeutics (United States)), Elliot R. Thomsen(Denali Therapeutics (United States)), Laura M. Bartos(Ludwig-Maximilians-Universität München), Philipp Beumers(Ludwig-Maximilians-Universität München), Anja Capell(Ludwig-Maximilians-Universität München), Sonnet S. Davis(Denali Therapeutics (United States)), Lis de Weerd(German Center for Neurodegenerative Diseases), Jason C. Dugas(Denali Therapeutics (United States)), Joseph Duque(Denali Therapeutics (United States)), Timothy Earr(Denali Therapeutics (United States)), Kapil Gadkar(Denali Therapeutics (United States)), Tina Giese(Denali Therapeutics (United States)), Audrey Gill(Denali Therapeutics (United States)), Johannes Gnörich(Ludwig-Maximilians-Universität München), Connie Ha(Denali Therapeutics (United States)), Malavika Kannuswamy(Denali Therapeutics (United States)), Do Jin Kim(Denali Therapeutics (United States)), Sebastian T. Kunte(Ludwig-Maximilians-Universität München), Lea H. Kunze(German Center for Neurodegenerative Diseases), Diana Lac(Denali Therapeutics (United States)), Kendra J. Lechtenberg(Denali Therapeutics (United States)), Amy Wing-Sze Leung(Denali Therapeutics (United States)), Chun-chi Liang(Denali Therapeutics (United States)), Isabel Álvarez(Denali Therapeutics (United States)), Paul McQuade(Takeda (United States)), Anuja Modi(Denali Therapeutics (United States)), Vanessa O. Torres(Denali Therapeutics (United States)), Hoang N. Nguyen(Denali Therapeutics (United States)), Ida Pesämaa(German Center for Neurodegenerative Diseases), Nicholas E. Propson(Denali Therapeutics (United States)), Marvin Reich(German Center for Neurodegenerative Diseases), Yaneth Robles‐Colmenares(Denali Therapeutics (United States)), Kai Schlepckow(German Center for Neurodegenerative Diseases), Luna Slemann(Ludwig-Maximilians-Universität München), Hilda Solanoy(Denali Therapeutics (United States)), Jung H. Suh(Denali Therapeutics (United States)), Robert G. Thorne(Denali Therapeutics (United States)), Chandler Vieira(Denali Therapeutics (United States)), Karin Wind(German Center for Neurodegenerative Diseases), Ken Xiong(Denali Therapeutics (United States)), Y. Joy Yu Zuchero(Denali Therapeutics (United States)), Dolo Diaz(Denali Therapeutics (United States)), Mark S. Dennis(Denali Therapeutics (United States)), Fen Huang(Denali Therapeutics (United States)), Kimberly Scearce‐Levie(Denali Therapeutics (United States)), Ryan J. Watts(Denali Therapeutics (United States)), Christian Haass(German Center for Neurodegenerative Diseases), Joseph W. Lewcock(Denali Therapeutics (United States)), Gilbert Di Paolo(Denali Therapeutics (United States)), Matthias Brendel(German Center for Neurodegenerative Diseases), Pascal E. Sanchez(Denali Therapeutics (United States)), Kathryn M. Monroe(Denali Therapeutics (United States))

Nature Neuroscience

January 12, 2023

10.1038/s41593-022-01240-0

Cited by 218Open Access

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Abstract

Loss-of-function variants of TREM2 are associated with increased risk of Alzheimer's disease (AD), suggesting that activation of this innate immune receptor may be a useful therapeutic strategy. Here we describe a high-affinity human TREM2-activating antibody engineered with a monovalent transferrin receptor (TfR) binding site, termed antibody transport vehicle (ATV), to facilitate blood-brain barrier transcytosis. Upon peripheral delivery in mice, ATV:TREM2 showed improved brain biodistribution and enhanced signaling compared to a standard anti-TREM2 antibody. In human induced pluripotent stem cell (iPSC)-derived microglia, ATV:TREM2 induced proliferation and improved mitochondrial metabolism. Single-cell RNA sequencing and morphometry revealed that ATV:TREM2 shifted microglia to metabolically responsive states, which were distinct from those induced by amyloid pathology. In an AD mouse model, ATV:TREM2 boosted brain microglial activity and glucose metabolism. Thus, ATV:TREM2 represents a promising approach to improve microglial function and treat brain hypometabolism found in patients with AD.

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