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Cognitive impairment and neuronal damage in Alzheimer's disease are malleable: occupational chlorpyrifos exposure exacerbates phenotypes, while the neuroprotective compound P7C3 ameliorates effects in a transgenic model of Alzheimer's disease.Voorhees, Jaymie Richelle 01 August 2017 (has links)
Alzheimer’s disease (AD) is a devastating neurodegenerative disease that affects millions of peoples’ lives worldwide. While the consequences of AD are recognizable, the etiology is unclear. Gene-environment interactions have been implicated in the development of the disease, and exposure to organophosphorus (OPs) compounds is one of the environmental factors associated with AD. Evidence links exposure to levels of OPs encountered in agriculture, horticulture, and other work places with neurodegenerative disease, psychiatric illness, and sensorimotor deficits. Unfortunately, the mechanisms underlying these effects have yet to be established. Here, we set out to examine the long-term consequences of exposure to a commonly applied OP insecticide, chlorpyrifos (CPF), in an attempt to identify a causal link between occupational exposures and chronic illnesses. We exposed a transgenic rodent model of AD, TgF344-AD, to levels of CPF representing occupational exposures and examined ensuing behaviors and neuropathologies. We observed a sex-specific, biphasic response in CPF-exposed animals, including acute neurotoxicities, followed by intermediate recovery, and finally, chronic cognitive impairments. CPF exposure exacerbated neuronal damage in brain regions critical to the impaired behaviors, and neuroinflammatory pathways were identified as facilitators of this damage. This work emphasizes the long-term consequences of early life repeated exposures to OPs and identifies dysregulated microglia as a potential deleterious modifier of disease.
Additionally, we investigated the efficacy of a neuroprotective compound, (-)-P7C3-S243 in TgF344-AD rats. P7C3 compounds exert protection by preventing young hippocampal neurons from dying prematurely and also enhancing flux of nicotinamide adenine dinucleotide (NAD), thereby aiding in neuron survival under conditions that normally cause axon degeneration and cell death. These compounds have proven effective in preclinical models of Parkinson’s disease, amyotrophic lateral sclerosis, and traumatic brain injury. Thus, we sought to investigate the neuroprotective efficacy of P7C3 compounds in AD, as well. (-)-P7C3-S243 was administered to wild-type and transgenic male and female rats daily for 9 and 18 months, and classic hallmarks of the disease were assessed. Transgenic rats developed a spectrum of AD pathologies and behaviors, as expected, and (-)-P7C3-S243 ameliorated early depression-like behaviors, late learning and memory deficits, and progressive neuronal damage in this model, without influencing amyloid plaque deposition, tauopathies, or neuroinflammation. This data suggests that targeting neuronal cell death pathways is a promising treatment strategy in AD.
Taken together, the research presented here expands our current understanding of pathways of regulation in Alzheimer’s disease—organophosphates are capable of exacerbating the severity of AD, while P7C3 compounds are promising therapeutic candidates for neuronal death in the disease. Given the overlapping molecular pathways of modulation in CPF-induced toxicity and (-)-P7C3-S243 neuroprotection in AD, future studies will investigate the efficacy of (-)-P7C3-S243 in cognitive deficits induced by CPF exposure. Ultimately, this body of work highlights the plasticity of neuronal cell death and cognitive impairment in AD, thus indicating a better understanding of these pathways could facilitate vastly improved intervention strategies in Alzheimer’s disease.
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Porovnání transgenního a streptozotocinového modelu Alzheimerovy choroby: validace systému IntelliCage pro behaviorální fenotypizaci / Comparison of transgenic and streptozotocin models of Alzheimer in rats: validation of IntelliCage system for behavioral phenotypizationSvobodová, Eva January 2021 (has links)
Animal models of Alzheimer's disease display cognitive insufficiencies which mimic human symptoms and occur at a given age or post-treatment time. Animals are typically tested using canonical behavioral tests, lasting minutes and taking place mostly in the non-active period of the daily cycle. Animals are exposed to certain amounts of manipulation-induced stress. Our work represents a validation study for the rat behavioral system IntelliCage. The tested individuals live freely in a group and their behavior is monitored continuously. It is however possible to set up individual tests for each animal or a group of animals. The rats are not subject to human manipulation and hence the results are not affected by manipulation-induced stress. We tested early cognitive impairment in the transgenic rat model TgF344-AD at 6 - 8 months of age. Further, we tested two most common protocols of the streptozotocin model, i.e. single dose of intracerebroventricular 3 mg/kg streptozotocin and double dose 48 hrs apart. Results were compared with the canonical Morris Water Maze (MWM) test. In the MWM test, transgenic animals did not differ from controls in any of the studied parameters. The streptozotocin model displayed a deficit only in the double dose group. However in the IntelliCage, transgenic animals displayed...
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