Litcius/Paper detail

Alzheimer's‐like signaling in brains of COVID‐19 patients

Steve Reiken, Leah Sittenfeld, Haikel Dridi, Liu Yang, Xiaoping Liu, Andrew R. Marks

2022Alzheimer s & Dementia195 citationsDOIOpen Access PDF

Abstract

Abstract Introduction The mechanisms that lead to cognitive impairment associated with COVID‐19 are not well understood. Methods Brain lysates from control and COVID‐19 patients were analyzed for oxidative stress and inflammatory signaling pathway markers, and measurements of Alzheimer’s disease (AD)‐linked signaling biochemistry. Post‐translational modifications of the ryanodine receptor/calcium (Ca2 + ) release channels (RyR) on the endoplasmic reticuli (ER), known to be linked to AD, were also measured by co‐immunoprecipitation/immunoblotting of the brain lysates. Results We provide evidence linking SARS‐CoV‐2 infection to activation of TGF‐β signaling and oxidative overload. The neuropathological pathways causing tau hyperphosphorylation typically associated with AD were also shown to be activated in COVID‐19 patients. RyR2 in COVID‐19 brains demonstrated a “leaky” phenotype, which can promote cognitive and behavioral defects. Discussion COVID‐19 neuropathology includes AD‐like features and leaky RyR2 channels could be a therapeutic target for amelioration of some cognitive defects associated with SARS‐CoV‐2 infection and long COVID.

Topics & Concepts

NeuropathologyHyperphosphorylationRyanodine receptorOxidative stressNeuroinflammationEndoplasmic reticulumSignal transductionNeuroscienceCoronavirus disease 2019 (COVID-19)Ryanodine receptor 2BiologyPhenotypeImmunoprecipitationCell biologyCalcium signalingMedicineDiseaseImmunologyInternal medicineEndocrinologyPhosphorylationInflammationAntibodyGeneticsInfectious disease (medical specialty)GeneLong-Term Effects of COVID-19Pharmacological Receptor Mechanisms and EffectsIntensive Care Unit Cognitive Disorders