Amyloid-β aggregates activate peripheral monocytes in mild cognitive impairment

Abstract The peripheral immune system is important in neurodegenerative diseases, both in protecting and inflaming the brain, but the underlying mechanisms remain elusive. Alzheimer’s Disease is commonly preceded by a prodromal period. Here, we report the presence of large Aβ aggregates in plasma from patients with mild cognitive impairment (n = 38). The aggregates are associated with low level Alzheimer’s Disease-like brain pathology as observed by 11C-PiB PET and 18F-FTP PET and lowered CD18-rich monocytes. We characterize complement receptor 4 as a strong binder of amyloids and show Aβ aggregates are preferentially phagocytosed and stimulate lysosomal activity through this receptor in stem cell-derived microglia. KIM127 integrin activation in monocytes promotes size selective phagocytosis of Aβ. Hydrodynamic calculations suggest Aβ aggregates associate with vessel walls of the cortical capillaries. In turn, we hypothesize aggregates may provide an adhesion substrate for recruiting CD18-rich monocytes into the cortex. Our results support a role for complement receptor 4 in regulating amyloid homeostasis

Consumer behavior : perilaku konsumen dan strategi pemasaran jilid 2

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Author Correction: SARS-CoV2-mediated suppression of NRF2-signaling reveals potent antiviral and anti-inflammatory activity of 4-octyl-itaconate and dimethyl fumarate

An amendment to this paper has been published and can be accessed via a link at the top of the paper

SARS-CoV2-mediated suppression of NRF2-signaling reveals potent antiviral and anti-inflammatory activity of 4-octyl-itaconate and dimethyl fumarate

Versiones preprint disponibles en: http://hdl.handle.net/10261/216920 y http://hdl.handle.net/10261/217161Antiviral strategies to inhibit Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV2) and the pathogenic consequences of COVID-19 are urgently required. Here, we demonstrate that the NRF2 antioxidant gene expression pathway is suppressed in biopsies obtained from COVID-19 patients. Further, we uncover that NRF2 agonists 4-octyl-itaconate (4-OI) and the clinically approved dimethyl fumarate (DMF) induce a cellular antiviral program that potently inhibits replication of SARS-CoV2 across cell lines. The inhibitory effect of 4-OI and DMF extends to the replication of several other pathogenic viruses including Herpes Simplex Virus-1 and-2, Vaccinia virus, and Zika virus through a type I interferon (IFN)-independent mechanism. In addition, 4-OI and DMF limit host inflammatory responses to SARS-CoV2 infection associated with airway COVID-19 pathology. In conclusion, NRF2 agonists 4-OI and DMF induce a distinct IFN-independent antiviral program that is broadly effective in limiting virus replication and in suppressing the pro-inflammatory responses of human pathogenic viruses, including SARS-CoV2.This research work was supported by Ester M og Konrad Kristian Sigurdssons Dyreværnsfond, Beckett-Fonden, Kong Christian IX og Dronning Louises Jubilæumslegat, Læge Sofus Carl Emil Friis og Hustru Olga Doris Friis´ legat, Købmand I Odense Johan og Hanne Weimann Født Seedorffs Legat, Hørslev Fonden, UK Medical Research Council (MRC core funding of the MRC Human Immunology Unit; JR), Lundbeck foundation (R303-2018-3379 and R219-2016-878, and R268-2016-3927), and Independent Research Fund Denmark – Medical Sciences (9039-00078B, 4004-00047B, and 0214-00001B). CarlsbergFoundation (Semper Ardens) and European Research Council (ERC-AdG ENVISION; 786602). Marie Skłodowska-Curie Action of the European Commission # 813343 and Italian Cancer Research Society #22891 to JH.Peer reviewe