INPP5D modulates TREM2 loss-of-function phenotypes in a β-amyloidosis mouse model

Akihiro Iguchi; Sho Takatori; Shingo Kimura; Hiroki Muneto; Kai Wang; Hayato Etani; Genta Ito; Haruaki Sato; Yukiko Hori; Junko Sasaki; Takashi Saito; Takaomi C. Saido; Tsuneya Ikezu; Toshiyuki Takai; Takehiko Sasaki; Taisuke Tomita

doi:10.1016/j.isci.2023.106375

INPP5D modulates TREM2 loss-of-function phenotypes in a β-amyloidosis mouse model

Akihiro Iguchi, Sho Takatori, Shingo Kimura, Hiroki Muneto, Kai Wang, Hayato Etani, Genta Ito, Haruaki Sato, Yukiko Hori, Junko Sasaki, Takashi Saito, Takaomi C. Saido, Tsuneya Ikezu, Toshiyuki Takai, Takehiko Sasaki, Taisuke Tomita

Neuroscience

Research output: Contribution to journal › Article › peer-review

Abstract

The genetic associations of TREM2 loss-of-function variants with Alzheimer disease (AD) indicate the protective roles of microglia in AD pathogenesis. Functional deficiencies of TREM2 disrupt microglial clustering around amyloid β (Aβ) plaques, impair their transcriptional response to Aβ, and worsen neuritic dystrophy. However, the molecular mechanism underlying these phenotypes remains unclear. In this study, we investigated the pathological role of another AD risk gene, INPP5D, encoding a phosphoinositide PI(3,4,5)P₃ phosphatase expressed in microglia. In a Tyrobp-deficient TREM2 loss-of-function mouse model, Inpp5d haplodeficiency restored the association of microglia with Aβ plaques, partially restored plaque compaction, and astrogliosis, and reduced phosphorylated tau⁺ dystrophic neurites. Mechanistic analyses suggest that TREM2/TYROBP and INPP5D exert opposing effects on PI(3,4,5)P₃ signaling pathways as well as on phosphoproteins involved in the actin assembly. Our results suggest that INPP5D acts downstream of TREM2/TYROBP to regulate the microglial barrier against Aβ toxicity, thereby modulates Aβ-dependent pathological conversion of tau.

Original language	English (US)
Article number	106375
Journal	iScience
Volume	26
Issue number	4
DOIs	https://doi.org/10.1016/j.isci.2023.106375
State	Published - Apr 21 2023

Keywords

Biological sciences
Immune response
Immune system
Immunity
Immunology
Molecular neuroscience
Neuroscience
Omics
Transcriptomics

ASJC Scopus subject areas

General

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10.1016/j.isci.2023.106375

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title = "INPP5D modulates TREM2 loss-of-function phenotypes in a β-amyloidosis mouse model",

abstract = "The genetic associations of TREM2 loss-of-function variants with Alzheimer disease (AD) indicate the protective roles of microglia in AD pathogenesis. Functional deficiencies of TREM2 disrupt microglial clustering around amyloid β (Aβ) plaques, impair their transcriptional response to Aβ, and worsen neuritic dystrophy. However, the molecular mechanism underlying these phenotypes remains unclear. In this study, we investigated the pathological role of another AD risk gene, INPP5D, encoding a phosphoinositide PI(3,4,5)P3 phosphatase expressed in microglia. In a Tyrobp-deficient TREM2 loss-of-function mouse model, Inpp5d haplodeficiency restored the association of microglia with Aβ plaques, partially restored plaque compaction, and astrogliosis, and reduced phosphorylated tau+ dystrophic neurites. Mechanistic analyses suggest that TREM2/TYROBP and INPP5D exert opposing effects on PI(3,4,5)P3 signaling pathways as well as on phosphoproteins involved in the actin assembly. Our results suggest that INPP5D acts downstream of TREM2/TYROBP to regulate the microglial barrier against Aβ toxicity, thereby modulates Aβ-dependent pathological conversion of tau.",

keywords = "Biological sciences, Immune response, Immune system, Immunity, Immunology, Molecular neuroscience, Neuroscience, Omics, Transcriptomics",

author = "Akihiro Iguchi and Sho Takatori and Shingo Kimura and Hiroki Muneto and Kai Wang and Hayato Etani and Genta Ito and Haruaki Sato and Yukiko Hori and Junko Sasaki and Takashi Saito and Saido, {Takaomi C.} and Tsuneya Ikezu and Toshiyuki Takai and Takehiko Sasaki and Taisuke Tomita",

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year = "2023",

month = apr,

day = "21",

doi = "10.1016/j.isci.2023.106375",

language = "English (US)",

volume = "26",

journal = "iScience",

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T1 - INPP5D modulates TREM2 loss-of-function phenotypes in a β-amyloidosis mouse model

AU - Iguchi, Akihiro

AU - Takatori, Sho

AU - Kimura, Shingo

AU - Muneto, Hiroki

AU - Wang, Kai

AU - Etani, Hayato

AU - Ito, Genta

AU - Sato, Haruaki

AU - Hori, Yukiko

AU - Sasaki, Junko

AU - Saito, Takashi

AU - Saido, Takaomi C.

AU - Ikezu, Tsuneya

AU - Takai, Toshiyuki

AU - Sasaki, Takehiko

AU - Tomita, Taisuke

PY - 2023/4/21

Y1 - 2023/4/21

N2 - The genetic associations of TREM2 loss-of-function variants with Alzheimer disease (AD) indicate the protective roles of microglia in AD pathogenesis. Functional deficiencies of TREM2 disrupt microglial clustering around amyloid β (Aβ) plaques, impair their transcriptional response to Aβ, and worsen neuritic dystrophy. However, the molecular mechanism underlying these phenotypes remains unclear. In this study, we investigated the pathological role of another AD risk gene, INPP5D, encoding a phosphoinositide PI(3,4,5)P3 phosphatase expressed in microglia. In a Tyrobp-deficient TREM2 loss-of-function mouse model, Inpp5d haplodeficiency restored the association of microglia with Aβ plaques, partially restored plaque compaction, and astrogliosis, and reduced phosphorylated tau+ dystrophic neurites. Mechanistic analyses suggest that TREM2/TYROBP and INPP5D exert opposing effects on PI(3,4,5)P3 signaling pathways as well as on phosphoproteins involved in the actin assembly. Our results suggest that INPP5D acts downstream of TREM2/TYROBP to regulate the microglial barrier against Aβ toxicity, thereby modulates Aβ-dependent pathological conversion of tau.

AB - The genetic associations of TREM2 loss-of-function variants with Alzheimer disease (AD) indicate the protective roles of microglia in AD pathogenesis. Functional deficiencies of TREM2 disrupt microglial clustering around amyloid β (Aβ) plaques, impair their transcriptional response to Aβ, and worsen neuritic dystrophy. However, the molecular mechanism underlying these phenotypes remains unclear. In this study, we investigated the pathological role of another AD risk gene, INPP5D, encoding a phosphoinositide PI(3,4,5)P3 phosphatase expressed in microglia. In a Tyrobp-deficient TREM2 loss-of-function mouse model, Inpp5d haplodeficiency restored the association of microglia with Aβ plaques, partially restored plaque compaction, and astrogliosis, and reduced phosphorylated tau+ dystrophic neurites. Mechanistic analyses suggest that TREM2/TYROBP and INPP5D exert opposing effects on PI(3,4,5)P3 signaling pathways as well as on phosphoproteins involved in the actin assembly. Our results suggest that INPP5D acts downstream of TREM2/TYROBP to regulate the microglial barrier against Aβ toxicity, thereby modulates Aβ-dependent pathological conversion of tau.

KW - Biological sciences

KW - Immune response

KW - Immune system

KW - Immunity

KW - Immunology

KW - Molecular neuroscience

KW - Neuroscience

KW - Omics

KW - Transcriptomics

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DO - 10.1016/j.isci.2023.106375

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SN - 2589-0042

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JO - iScience

JF - iScience

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M1 - 106375

ER -

INPP5D modulates TREM2 loss-of-function phenotypes in a β-amyloidosis mouse model

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