Mild respiratory COVID can cause multi-lineage neural cell and myelin dysregulation | Zendy

Anthony Fernández-Castañeda | Zendy; Peiwen Lu | Zendy; Anna C. Geraghty | Zendy; Eric Song | Zendy; MyoungHwa Lee | Zendy; Jamie Wood | Zendy; Michael R. O’Dea | Zendy; Selena Dutton | Zendy; Kiarash Shamardani | Zendy; Kamsi Nwangwu | Zendy; Rebecca Mancusi | Zendy; Belgin Yalçın | Zendy; Kathryn R. Taylor | Zendy; Lehi Acosta-Alvarez | Zendy; Karen Malacon | Zendy; Michael B. Keough | Zendy; Lijun Ni | Zendy; Pamelyn J. Woo | Zendy; Daniel Contreras-Esquivel | Zendy; Angus Toland | Zendy; Jeff Gehlhausen | Zendy; Jon Klein | Zendy; Takehiro Takahashi | Zendy; Julio Silva | Zendy; Benjamin Israelow | Zendy; Carolina Lucas | Zendy; Tianyang Mao | Zendy; Mario A. Peña-Hernández | Zendy; Alexandra Tabachnikova | Zendy; Robert Homer | Zendy; Laura Tabacof | Zendy; Jenna TostoMancuso | Zendy; Erica Breyman | Zendy; Amy Kontorovich | Zendy; Dayna McCarthy | Zendy; Martha Quezado | Zendy; Hannes Vogel | Zendy; Marco M. Hefti | Zendy; Daniel P. Perl | Zendy; Shane A. Liddelow | Zendy; Rebecca D. Folkerth | Zendy; David Putrino | Zendy; Avindra Nath | Zendy; Akiko Iwasaki | Zendy; Michelle Monje | Zendy

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Mild respiratory COVID can cause multi-lineage neural cell and myelin dysregulation

Author(s) -

Anthony Fernández-Castañeda,

Peiwen Lu,

Anna C. Geraghty,

Eric Song,

MyoungHwa Lee,

Jamie Wood,

Michael R. O’Dea,

Selena Dutton,

Kiarash Shamardani,

Kamsi Nwangwu,

Rebecca Mancusi,

Belgin Yalçın,

Kathryn R. Taylor,

Lehi Acosta-Alvarez,

Karen Malacon,

Michael B. Keough,

Lijun Ni,

Pamelyn J. Woo,

Daniel Contreras-Esquivel,

Angus Toland,

Jeff Gehlhausen,

Jon Klein,

Takehiro Takahashi,

Julio Silva,

Benjamin Israelow,

Carolina Lucas,

Tianyang Mao,

Mario A. Peña-Hernández,

Alexandra Tabachnikova,

Robert Homer,

Laura Tabacof,

Jenna TostoMancuso,

Erica Breyman,

Amy Kontorovich,

Dayna McCarthy,

Martha Quezado,

Hannes Vogel,

Marco M. Hefti,

Daniel P. Perl,

Shane A. Liddelow,

Rebecca D. Folkerth,

David Putrino,

Avindra Nath,

Akiko Iwasaki,

Michelle Monje

Publication year - 2022

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2022.06.008

Subject(s) - biology , neurogenesis , white matter , myelin , immunology , hippocampal formation , neuroscience , central nervous system , medicine , magnetic resonance imaging , radiology

COVID survivors frequently experience lingering neurological symptoms that resemble cancer-therapy-related cognitive impairment, a syndrome for which white matter microglial reactivity and consequent neural dysregulation is central. Here, we explored the neurobiological effects of respiratory SARS-CoV-2 infection and found white-matter-selective microglial reactivity in mice and humans. Following mild respiratory COVID in mice, persistently impaired hippocampal neurogenesis, decreased oligodendrocytes, and myelin loss were evident together with elevated CSF cytokines/chemokines including CCL11. Systemic CCL11 administration specifically caused hippocampal microglial reactivity and impaired neurogenesis. Concordantly, humans with lasting cognitive symptoms post-COVID exhibit elevated CCL11 levels. Compared with SARS-CoV-2, mild respiratory influenza in mice caused similar patterns of white-matter-selective microglial reactivity, oligodendrocyte loss, impaired neurogenesis, and elevated CCL11 at early time points, but after influenza, only elevated CCL11 and hippocampal pathology persisted. These findings illustrate similar neuropathophysiology after cancer therapy and respiratory SARS-CoV-2 infection which may contribute to cognitive impairment following even mild COVID.

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