Chronic cerebral hypoperfusion induced by permanent unilateral common carotid artery occlusion in mice was recently found to induce an age-dependent formation of insoluble cytoplasmic TDP-43 aggregates reminiscent of pathological changes found in human vascular dementia. In this model, the gradual deregulation of TDP-43 homeostasis in cortical neurons was associated with marked cognitive and motor deficits. To target the TDP-43-mediated toxicity in this model, we generated an adeno-associated virus vector encoding a single-chain antibody against TDP-43, called scFv-E6, designed for pan-neuronal transduction following intravenous administration. Injected prior to brain hypoperfusion, this tonic virus-mediated delivery of the scFv-E6 antibody reduced formation of cytoplasmic TDP-43 aggregates in cortical neurons, boosted levels of autophagy markers and attenuated microgliosis. Moreover, the novel object recognition and grip strength tests revealed that neuronal expression of scFv-E6 prevented the cognitive impairment and loss of motor performance caused by two-months of cerebral hypoperfusion. The robust protective effects of scFv-E6 antibody in this model suggest a key role of TDP-43 in neuronal damage and symptom phenotypes caused by chronic cerebral hypoperfusion. Accordingly, TDP-43 should be considered as a new therapeutic target in drug development, including antibody approaches, for treatment of vascular dementia.
Keywords: AAV virus; Cerebral hypoxia; Single-chain antibody; TDP-43; Vascular dementia.
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