The protective PLCγ2-P522R variant mitigates Alzheimer’s disease-associated pathologies by enhancing beneficial microglial functions

Takalo, Mari; Jeskanen, Heli; Rolova, Taisia; Kervinen, Inka; Hellén, Marianna; Heikkinen, Sami; Koivisto, Hennariikka; Jokivarsi, Kimmo; Müller, Stephan A.; Koivumäki, Esa-Mikko; Mäkinen, Petra; Juopperi, Sini-Pauliina; Willman, Roosa-Maria; Sinisalo, Rosa; Hoffmann, Dorit; Jäntti, Henna; Peitz, Michael; Fließbach, Klaus; Kuulasmaa, Teemu; Natunen, Teemu; Kemppainen, Susanna; Poutiainen, Pekka; Leinonen, Ville; Malm, Tarja; Martiskainen, Henna; Ramirez, Alfredo; Haapasalo, Annakaisa; Lichtenthaler, Stefan F.; Tanila, Heikki; Haass, Christian; Rinne, Juha; Koistinaho, Jari; Hiltunen, Mikko

The protective PLCγ2-P522R variant mitigates Alzheimer’s disease-associated pathologies by enhancing beneficial microglial functions

Takalo, Mari; Jeskanen, Heli; Rolova, Taisia; Kervinen, Inka; Hellén, Marianna; Heikkinen, Sami; Koivisto, Hennariikka; Jokivarsi, Kimmo; Müller, Stephan A.; Koivumäki, Esa-Mikko; Mäkinen, Petra; Juopperi, Sini-Pauliina; Willman, Roosa-Maria; Sinisalo, Rosa; Hoffmann, Dorit; Jäntti, Henna; Peitz, Michael; Fließbach, Klaus; Kuulasmaa, Teemu; Natunen, Teemu; Kemppainen, Susanna; Poutiainen, Pekka; Leinonen, Ville; Malm, Tarja; Martiskainen, Henna; Ramirez, Alfredo; Haapasalo, Annakaisa; Lichtenthaler, Stefan F.; Tanila, Heikki; Haass, Christian; Rinne, Juha; Koistinaho, Jari; Hiltunen, Mikko

The protective PLCγ2-P522R variant mitigates Alzheimer’s disease-associated pathologies by enhancing beneficial microglial functions

Takalo, Mari

Jeskanen, Heli

Rolova, Taisia

Kervinen, Inka

Hellén, Marianna

Heikkinen, Sami

Koivisto, Hennariikka

Jokivarsi, Kimmo

Müller, Stephan A.

Koivumäki, Esa-Mikko

Mäkinen, Petra

Juopperi, Sini-Pauliina

Willman, Roosa-Maria

Sinisalo, Rosa

Hoffmann, Dorit

Jäntti, Henna

Peitz, Michael

Fließbach, Klaus

Kuulasmaa, Teemu

Natunen, Teemu

Kemppainen, Susanna

Poutiainen, Pekka

Leinonen, Ville

Malm, Tarja

Martiskainen, Henna

Ramirez, Alfredo

Haapasalo, Annakaisa

Lichtenthaler, Stefan F.

Tanila, Heikki

Haass, Christian

Rinne, Juha

Koistinaho, Jari

Hiltunen, Mikko

Katso/Avaa

s12974-025-03387-6.pdf (5.192Mb)

Lataukset:

Springer Science and Business Media LLC

doi:10.1186/s12974-025-03387-6

URI

https://doi.org/10.1186/s12974-025-03387-6

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Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe2025082787841

Tiivistelmä

Background: Phospholipase C gamma 2, proline 522 to arginine (PLCγ2-P522R) is a protective variant that reduces the risk of Alzheimer's disease (AD). Recently, it was shown to mitigate β-amyloid pathology in a 5XFAD mouse model of AD. Here, we investigated the protective functions of the PLCγ2-P522R variant in a less aggressive APP/PS1 mouse model of AD and assessed the underlying cellular mechanisms using mouse and human microglial models.

Methods: The effects of the protective PLCγ2-P522R variant on microglial activation, AD-associated β-amyloid and neuronal pathologies, and behavioral changes were investigated in PLCγ2-P522R knock-in variant mice crossbred with APP/PS1 mice. Transcriptomic, proteomic, and functional studies were carried out using microglia isolated from mice carrying the PLCγ2-P522R variant. Finally, microglia-like cell models generated from human blood and skin biopsy samples of PLCγ2-P522R variant carriers were employed.

Results: The PLCγ2-P522R variant decreased β-amyloid plaque count and coverage in female APP/PS1 mice. Moreover, the PLCγ2-P522R variant promoted anxiety in these mice. The area of the microglia around β-amyloid plaques was also increased in mice carrying the PLCγ2-P522R variant, while β-amyloid plaque-associated neuronal dystrophy and the levels of certain cytokines, including IL-6 and IL-1β, were reduced. These alterations were revealed through [18F]FEPPA PET imaging and behavioral studies, as well as various cytokine immunoassays, transcriptomic and proteomic analyses, and immunohistochemical analyses using mouse brain tissues. In cultured mouse primary microglia, the PLCγ2-P522R variant reduced the size of lipid droplets. Furthermore, transcriptomic and proteomic analyses revealed that the PLCγ2-P522R variant regulated key targets and pathways involved in lipid metabolism, mitochondrial fatty acid oxidation, and inflammatory/interferon signaling in acutely isolated adult mouse microglia and human monocyte-derived microglia-like cells. Finally, the PLCγ2-P522R variant also increased mitochondrial respiration in human iPSC-derived microglia.

Conclusions: These findings suggest that the PLCγ2-P522R variant exerts protective effects against β-amyloid and neuronal pathologies by increasing microglial responsiveness to β-amyloid plaques in APP/PS1 mice. The changes observed in lipid/fatty acid and mitochondrial metabolism revealed by the omics and metabolic assessments of mouse and human microglial models suggest that the protective effects of the PLCγ2-P522R variant are potentially associated with increased metabolic capacity of microglia.

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