Microglia show differential transcriptomic response to Aβ peptide aggregates ex vivo and in vivo

Karen N. McFarland; Carolina Ceballos; Awilda Rosario; Thomas Ladd; Brenda Moore; Griffin Golde; Xue Wang; Mariet Allen; Nilöfer Ertekin-Taner; Cory C. Funk; Max Robinson; Priyanka Baloni; Noa Rappaport; Paramita Chakrabarty; Todd E. Golde

doi:10.26508/lsa.202101108

Microglia show differential transcriptomic response to Aβ peptide aggregates ex vivo and in vivo

Karen N. McFarland, Carolina Ceballos, Awilda Rosario, Thomas Ladd, Brenda Moore, Griffin Golde, Xue Wang, Mariet Allen, Nilöfer Ertekin-Taner, Cory C. Funk, Max Robinson, Priyanka Baloni, Noa Rappaport, Paramita Chakrabarty, Todd E. Golde

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

Abstract

Aggregation and accumulation of amyloid-β (Aβ) is a defining feature of Alzheimer s disease pathology. To study microglial responses to Aβ, we applied exogenous Aβ peptide, in either oligomeric or fibrillar conformation, to primary mouse microglial cultures and evaluated system-level transcriptional changes and then compared these with transcriptomic changes in the brains of CRND8 APP mice. We find that primary microglial cultures have rapid and massive transcriptional change in response to Aβ. Transcriptomic responses to oligomeric or fibrillar Aβ in primary microglia, although partially overlapping, are distinct and are not recapitulated in vivo where Aβ progressively accumulates. Furthermore, although classic immune mediators show massive transcriptional changes in the primary microglial cultures, these changes are not observed in the mouse model. Together, these data extend previous studies which demonstrate that microglia responses ex vivo are poor proxies for in vivo responses. Finally, these data demonstrate the potential utility of using microglia as biosensors of different aggregate conformation, as the transcriptional responses to oligomeric and fibrillar Aβ can be distinguished.

Original language	English (US)
Article number	e202101108
Journal	Life Science Alliance
Volume	4
Issue number	7
DOIs	https://doi.org/10.26508/lsa.202101108
State	Published - Jul 2021

ASJC Scopus subject areas

Ecology
Biochemistry, Genetics and Molecular Biology (miscellaneous)
Plant Science
Health, Toxicology and Mutagenesis

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10.26508/lsa.202101108

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McFarland, K. N., Ceballos, C., Rosario, A., Ladd, T., Moore, B., Golde, G., Wang, X., Allen, M., Ertekin-Taner, N., Funk, C. C., Robinson, M., Baloni, P., Rappaport, N., Chakrabarty, P., & Golde, T. E. (2021). Microglia show differential transcriptomic response to Aβ peptide aggregates ex vivo and in vivo. Life Science Alliance, 4(7), Article e202101108. https://doi.org/10.26508/lsa.202101108

McFarland, KN, Ceballos, C, Rosario, A, Ladd, T, Moore, B, Golde, G, Wang, X, Allen, M, Ertekin-Taner, N, Funk, CC, Robinson, M, Baloni, P, Rappaport, N, Chakrabarty, P & Golde, TE 2021, 'Microglia show differential transcriptomic response to Aβ peptide aggregates ex vivo and in vivo', Life Science Alliance, vol. 4, no. 7, e202101108. https://doi.org/10.26508/lsa.202101108

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title = "Microglia show differential transcriptomic response to Aβ peptide aggregates ex vivo and in vivo",

abstract = "Aggregation and accumulation of amyloid-β (Aβ) is a defining feature of Alzheimer s disease pathology. To study microglial responses to Aβ, we applied exogenous Aβ peptide, in either oligomeric or fibrillar conformation, to primary mouse microglial cultures and evaluated system-level transcriptional changes and then compared these with transcriptomic changes in the brains of CRND8 APP mice. We find that primary microglial cultures have rapid and massive transcriptional change in response to Aβ. Transcriptomic responses to oligomeric or fibrillar Aβ in primary microglia, although partially overlapping, are distinct and are not recapitulated in vivo where Aβ progressively accumulates. Furthermore, although classic immune mediators show massive transcriptional changes in the primary microglial cultures, these changes are not observed in the mouse model. Together, these data extend previous studies which demonstrate that microglia responses ex vivo are poor proxies for in vivo responses. Finally, these data demonstrate the potential utility of using microglia as biosensors of different aggregate conformation, as the transcriptional responses to oligomeric and fibrillar Aβ can be distinguished.",

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AU - McFarland, Karen N.

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AU - Moore, Brenda

AU - Golde, Griffin

AU - Wang, Xue

AU - Allen, Mariet

AU - Ertekin-Taner, Nilöfer

AU - Funk, Cory C.

AU - Robinson, Max

AU - Baloni, Priyanka

AU - Rappaport, Noa

AU - Chakrabarty, Paramita

AU - Golde, Todd E.

PY - 2021/7

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N2 - Aggregation and accumulation of amyloid-β (Aβ) is a defining feature of Alzheimer s disease pathology. To study microglial responses to Aβ, we applied exogenous Aβ peptide, in either oligomeric or fibrillar conformation, to primary mouse microglial cultures and evaluated system-level transcriptional changes and then compared these with transcriptomic changes in the brains of CRND8 APP mice. We find that primary microglial cultures have rapid and massive transcriptional change in response to Aβ. Transcriptomic responses to oligomeric or fibrillar Aβ in primary microglia, although partially overlapping, are distinct and are not recapitulated in vivo where Aβ progressively accumulates. Furthermore, although classic immune mediators show massive transcriptional changes in the primary microglial cultures, these changes are not observed in the mouse model. Together, these data extend previous studies which demonstrate that microglia responses ex vivo are poor proxies for in vivo responses. Finally, these data demonstrate the potential utility of using microglia as biosensors of different aggregate conformation, as the transcriptional responses to oligomeric and fibrillar Aβ can be distinguished.

AB - Aggregation and accumulation of amyloid-β (Aβ) is a defining feature of Alzheimer s disease pathology. To study microglial responses to Aβ, we applied exogenous Aβ peptide, in either oligomeric or fibrillar conformation, to primary mouse microglial cultures and evaluated system-level transcriptional changes and then compared these with transcriptomic changes in the brains of CRND8 APP mice. We find that primary microglial cultures have rapid and massive transcriptional change in response to Aβ. Transcriptomic responses to oligomeric or fibrillar Aβ in primary microglia, although partially overlapping, are distinct and are not recapitulated in vivo where Aβ progressively accumulates. Furthermore, although classic immune mediators show massive transcriptional changes in the primary microglial cultures, these changes are not observed in the mouse model. Together, these data extend previous studies which demonstrate that microglia responses ex vivo are poor proxies for in vivo responses. Finally, these data demonstrate the potential utility of using microglia as biosensors of different aggregate conformation, as the transcriptional responses to oligomeric and fibrillar Aβ can be distinguished.

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Microglia show differential transcriptomic response to Aβ peptide aggregates ex vivo and in vivo

Abstract

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