Sonja Binder scite author profile

Coronavirus disease 2019 (COVID-19) can damage cerebral small vessels and cause neurological symptoms. Here we describe structural changes in cerebral small vessels of patients with COVID-19 and elucidate potential mechanisms underlying the vascular pathology. In brains of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)-infected individuals and animal models, we found an increased number of empty basement membrane tubes, so-called string vessels representing remnants of lost capillaries. We obtained evidence that brain endothelial cells are infected and that the main protease of SARS-CoV-2 (Mpro) cleaves NEMO, the essential modulator of nuclear factor-κB. By ablating NEMO, Mpro induces the death of human brain endothelial cells and the occurrence of string vessels in mice. Deletion of receptor-interacting protein kinase (RIPK) 3, a mediator of regulated cell death, blocks the vessel rarefaction and disruption of the blood–brain barrier due to NEMO ablation. Importantly, a pharmacological inhibitor of RIPK signaling prevented the Mpro-induced microvascular pathology. Our data suggest RIPK as a potential therapeutic target to treat the neuropathology of COVID-19.

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Panglial Gap Junctional Communication is Essential for Maintenance of Myelin in the CNS

Tress

et al. 2012

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In this study, we have investigated the contribution of oligodendrocytic connexin47 (Cx47) and astrocytic Cx30 to panglial gap junctional networks as well as myelin maintenance and function by deletion of both connexin coding DNAs in mice. Biocytin injections revealed complete disruption of oligodendrocyte-to-astrocyte coupling in the white matter of 10-to 15-d-old Cx30/Cx47 double-deficient mice, while oligodendrocyte-to-oligodendrocyte coupling was maintained. There were no quantitative differences regarding cellular networks in acute brain slices obtained from Cx30/Cx47 double-null mice and control littermates, probably caused by the upregulation of oligodendrocytic Cx32 in Cx30/Cx47 double-deficient mice. We observed early onset myelin pathology, and ϳ40% of Cx30/Cx47 doubledeficient animals died within 42 to 90 d after birth, accompanied by severe motor impairments. Histological and ultrastructural analyses revealed severe vacuolization and myelination defects in all white matter tracts of the CNS. Furthermore, Cx30/Cx47 double-deficient mice exhibited a decreased number of oligodendrocytes, severe astrogliosis, and microglial activation in white matter tracts. Although less affected concerning motor impairment, surviving double-knock-out (KO) mice showed behavioral alterations in the open field and in the rotarod task. Vacuole formation and thinner myelin sheaths were evident also with adult surviving double-KO mice. Since interastrocytic coupling due to Cx43 expression and interoligodendrocytic coupling because of Cx32 expression are still maintained, Cx30/Cx47 double-deficient mice demonstrate the functional role of both connexins for interastrocytic, interoligodendrocytic, and panglial coupling, and show that both connexins are required for maintenance of myelin.

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Monounsaturated Fatty Acids Prevent the Aversive Effects of Obesity on Locomotion, Brain Activity, and Sleep Behavior

Sartorius

Ketterer

Kullmann

et al. 2012

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Fat and physical inactivity are the most evident factors in the pathogenesis of obesity, and fat quality seems to play a crucial role for measures of glucose homeostasis. However, the impact of dietary fat quality on brain function, behavior, and sleep is basically unknown. In this study, mice were fed a diet supplemented with either monounsaturated fatty acids (MUFAs) or saturated fatty acids (SFAs) and their impact on glucose homeostasis, locomotion, brain activity, and sleep behavior was evaluated. MUFAs and SFAs led to a significant increase in fat mass but only feeding of SFAs was accompanied by glucose intolerance in mice. Radiotelemetry revealed a significant decrease in cortical activity in SFA-mice whereas MUFAs even improved activity. SFAs decreased wakefulness and increased non–rapid eye movement sleep. An intracerebroventricular application of insulin promoted locomotor activity in MUFA-fed mice, whereas SFA-mice were resistant. In humans, SFA-enriched diet led to a decrease in hippocampal and cortical activity determined by functional magnetic resonance imaging techniques. Together, dietary intake of MUFAs promoted insulin action in the brain with its beneficial effects for cortical activity, locomotion, and sleep, whereas a comparable intake of SFAs acted as a negative modulator of brain activity in mice and humans.

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Neuronal histamine and cognitive symptoms in Alzheimer's disease

et al. 2016

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Sleep-dependency of episodic-like memory consolidation in rats

Inostroza

Binder

Born

2013

Behavioural Brain Research

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Episodic memory refers to the recollection of a representation that binds together into a unique past experience "what" happened, "where" and "when". Sleep has been identified as a state that optimizes the consolidation of newly acquired memory. To determine if sleep is important for the consolidation of episodic-like memory, we tested rats on an episodic-like memory task requiring the binding of an object memory into a spatio-temporal context, as well as retention of its individual components, using separate tests of novel-object recognition ("what"), object-place recognition ("where") and temporal memory ("when"), respectively. The 80-min retention interval between encoding of the task and retrieval testing covered either a period of regular morning sleep or sleep deprivation or a period of evening wakefulness. Sleep during the retention interval, compared with the other two retention conditions, significantly enhanced retrieval in the episodic-like memory task as well as in the object-place recognition and temporal memory tasks. In fact, when the rats stayed awake during the retention interval, there was no significant memory left at retrieval testing for the learnt object place and temporal memory. Sleep did not benefit novel-object recognition memory which unlike the other components of episodic-like memory is considered not to critically rely on the hippocampus. In an additional delayed sleep condition, episodic-like memory in rats which had stayed awake during the first 80-min interval after encoding, was not recovered when they were allowed to sleep during a subsequent 80-min interval. Our results suggest that sleep specifically supports the aspects in episodic memory most closely linked to hippocampal function, i.e., the binding of an event into spatio-temporal context as well as the spatio-temporal context itself. Sleep is particularly effective when it occurs shortly after encoding.

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Sonja Binder

The SARS-CoV-2 main protease Mpro causes microvascular brain pathology by cleaving NEMO in brain endothelial cells

Panglial Gap Junctional Communication is Essential for Maintenance of Myelin in the CNS

Monounsaturated Fatty Acids Prevent the Aversive Effects of Obesity on Locomotion, Brain Activity, and Sleep Behavior

Neuronal histamine and cognitive symptoms in Alzheimer's disease

Sleep-dependency of episodic-like memory consolidation in rats

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