Abstract
Pseudomonas aeruginosa pneumonia elicits endothelial cell release of cytotoxic amyloids that can be recovered from the bronchoalveolar lavage and cerebrospinal fluids of critically ill patients. Introduction of these cytotoxic amyloids into the lateral ventricle impairs learning and memory in mice. However, it is unclear whether the amyloids of lung origin (1) are neurotropic, and (2) cause structural remodeling of hippocampal dendrites. Thus, we used electrophysiological studies in brain slices and structural analysis of post-mortem tissues obtained from animals exposed to endothelium-derived amyloids to assess these issues. The amyloids were administered via three different routes, by intracerebroventricular, intratracheal, and intraperitoneal injections. Synaptic long-term potentiation was abolished following intracerebroventricular amyloid injection. Fluorescence dialysis or Golgi-impregnation labeling showed reduced dendritic spine density and destabilized spines of hippocampal pyramidal neurons 4 weeks after intracerebroventricular amyloid injection. In comparison, endothelial amyloids introduced to the airway caused the most prominent dendritic spine density reduction, yet intraperitoneal injection of these amyloids did not affect spine density. Our findings indicate that infection-elicited lung endothelial amyloids are neurotropic and reduce neuronal dendritic spine density in vivo. Amyloids applied into the trachea may either be disseminated through the circulation and cross the blood-brain barrier to access the brain, initiate feed-forward amyloid transmissibility among cells of the blood-brain barrier or access the brain in other ways. Nevertheless, lung-derived amyloids suppress hippocampal signaling and cause injury to neuronal structure.
Highlights
Pseudomonas aeruginosa pneumonia elicits endothelial cell release of cytotoxic amyloids that can be recovered from the bronchoalveolar lavage and cerebrospinal fluids of critically ill patients
Because ΔPcrV- and PA103-amyloid are lung-derived amyloids, and because previous studies have demonstrated that amyloids extracted from neuropathologic diseased brains translocate to the brain when injected into the systemic circulation[16,17,18], we examined whether intratracheal (INT) instilled or intraperitoneal (IP) injected endothelial amyloids would reduce CA1 dendritic spine density
Nosocomial pneumonia induces the production of cytotoxic amyloids from pulmonary endothelium[8,14]
Summary
Pseudomonas aeruginosa pneumonia elicits endothelial cell release of cytotoxic amyloids that can be recovered from the bronchoalveolar lavage and cerebrospinal fluids of critically ill patients. Introduction of these cytotoxic amyloids into the lateral ventricle impairs learning and memory in mice. Endothelial amyloid neurotoxicity is removable by immunodepleting Aβ and τ complexes using selective antibodies[8,14] Taken together, these studies suggest that pneumonia-induced cytotoxic amyloids are released from lung, circulate in the blood, and they are present in the cerebrospinal fluid where they might impair brain function well after the primary infection has cleared. Evidence for how an illness elicits production of peripheral cytotoxic amyloids, i.e., not originating in the brain, that biodistribute through the circulation and access the brain is presently lacking
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