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8 results on '"Novak, Petr"'

4. Environmental Enrichment Rescues Functional Deficit and Alters Neuroinflammation in a Transgenic Model of Tauopathy.

Author

Stozicka, Zuzana, Korenova, Miroslava, Uhrinova, Ivana, Cubinkova, Veronika, Cente, Martin, Kovacech, Branislav, Babindakova, Nikoleta, Matyasova, Katarina, Vargova, Greta, Novak, Michal, Novak, Petr, Zilka, Norbert, Jadhav, Santosh, and Alonso, Alejandra

Subjects
NERVE growth factor, INFLAMMATION, TAU proteins, ALZHEIMER'S disease, DISEASE progression, PROTEIN metabolism, ENCEPHALITIS, COGNITION disorders, CYTOKINES, RESEARCH, NERVE tissue proteins, ANIMAL experimentation, RESEARCH methodology, ECOLOGY, CELL receptors, EVALUATION research, RATS, COMPARATIVE studies, NEURODEGENERATION, PHOSPHORYLATION, PSYCHOLOGICAL factors
Abstract

Alzheimer's disease (AD) is the most frequent neurodegenerative disorder, affecting over 44 million people worldwide. There are no effective pharmaco-therapeutic options for prevention and treatment of AD. Non-pharmacological approaches may help patients suffering from AD to significantly ameliorate disease progression. In this study, we exposed a transgenic rat model (tg) of human tauopathy to enriched environment for 3 months. Behavioral testing at 6 months of age revealed improvement in functional deficits of tg rats reared under enriched conditions, while sedentary tg rats remained severely impaired. Interestingly, enriched environment did not reduce tau pathology. Analysis of neurotrophic factors revealed an increase of nerve growth factor (NGF) levels in the hippocampus of both enriched groups (tg and non-tg rats), reflecting a known effect of enriched environment on the hippocampal formation. On the contrary, NGF levels decreased markedly in the brainstem of enriched groups. The non-pharmacological treatment also reduced levels of tissue inhibitor of metalloproteinase 1 in the brainstem of transgenic rats. Expression analysis of inflammatory pathways revealed upregulation of microglial markers, such as MHC class II and Cd74, whereas levels of pro-inflammatory cytokines remained unaffected by enriched environment. Our results demonstrate that exposure to enriched environment can rescue functional impairment in tau transgenic rats without reducing tau pathology. We speculate that non-pharmacological treatment modulates the immune response to pathological tau protein inclusions, and thus reduces the damage caused by neuroinflammation. [ABSTRACT FROM AUTHOR]

Published
2020
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5. Stress-Induced Alterations of Immune Profile in Animals Suffering by Tau Protein-Driven Neurodegeneration.

Author

Novak, Petr, Cente, Martin, Kosikova, Nina, Augustin, Tomas, Kvetnansky, Richard, Novak, Michal, and Filipcik, Peter

Subjects
GENETICS of Alzheimer's disease, NEURODEGENERATION, TAU proteins, AMYLOID beta-protein, PHYSIOLOGICAL stress, DISEASE progression
Abstract

Alzheimer's disease (AD) is a multifactorial disorder; neurofibrillary pathology composed of tau protein is found side by side with amyloid-β deposits and extensive neuroinflammation. The immune system of the brain is considered as one of the factors that could influence the speed of the progression of AD neuropathology as a potential mediator of the damage induced by AD protein deposits. Alzheimer's disease pathology can be impacted by psychological stress; however, signalling pathways in background are not well known. We have explored possible avenues of how stress could influence the brain's immune system in a rat model of AD. Animals were subjected either to a single or multiple instances of immobilization stress. The analysis of a panel of immunity-related genes was used to evaluate the impact of stress on the immune response in the brain. We have identified 19 stress-responsive genes that are involved in neuroinflammation accompanying tau pathology: Nos2, Ptgs2, IL-8rb, C5, Mmp9, Cx3cr1, CD40lg, Adrb2, IL-6, IL-6r, IL-1r2, Ccl2, Ccl3, Ccl4, Ccl12, TNF-α, IL-1α, IL-1β, IL-10. Most of them are deregulated under the stress conditions also in control animals; however, the magnitude of the response to either acute or chronic stress differs. This can lead to serious influence, most probably to acceleration of neurodegenerative phenotype in diseased animals. Several of the genes (IL-1β, Casp1, Cx3cr1 and C5) are deregulated solely in tauopathic animals. The stress-induced changes in the inflammatory picture of the brain highlight the fact that the brain's immune response is highly responsive to environmental stimuli. The pattern of changes is indicative of an attempt to protect the brain in the short term, while being potentially detrimental to the response against a long-term pathological process such as neurofibrillary degeneration. [ABSTRACT FROM AUTHOR]

Published
2018
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6. Tauopathy in transgenic (SHR72) rats impairs function of central noradrenergic system and promotes neuroinflammation.

Author

Mravec, Boris, Lejavova, Katarina, Vargovic, Peter, Ondicova, Katarina, Horvathova, Lubica, Novak, Petr, Manz, Georg, Filipcik, Peter, Novak, Michal, and Kvetnansky, Richard

Subjects
NORADRENALINE, ALZHEIMER'S disease, LOCUS coeruleus, PROSENCEPHALON abnormalities, TYROSINE derivatives, RNA metabolism, BRAIN metabolism, ANALYSIS of variance, ANIMAL experimentation, COLLECTION & preservation of biological specimens, BRAIN, CENTRAL nervous system, CYTOKINES, ENCEPHALITIS, GENE expression, NEURODEGENERATION, OXIDOREDUCTASES, RATS, DISEASE complications
Abstract

Background: Brain norepinephrine (NE) plays an important role in the modulation of stress response and neuroinflammation. Recent studies indicate that in Alzheimer's disease (AD), the tau neuropathology begins in the locus coeruleus (LC) which is the main source of brain NE. Therefore, we investigated the changes in brain NE system and also the immune status under basal and stress conditions in transgenic rats over-expressing the human truncated tau protein.Methods: Brainstem catecholaminergic cell groups (LC, A1, and A2) and forebrain subcortical (nucleus basalis of Meynert), hippocampal (cornu ammonis, dentate gyrus), and neocortical areas (frontal and temporal association cortices) were analyzed for NE and interleukin 6 (IL-6) mRNA levels in unstressed rats and also in rats exposed to single or repeated immobilization. Moreover, gene expression of NE-biosynthetic enzyme, tyrosine hydroxylase (TH), and several pro- and anti-inflammatory mediators were determined in the LC.Results: It was found that tauopathy reduced basal NE levels in forebrain areas, while the gene expression of IL-6 was increased in all selected areas at the same time. The differences between wild-type and transgenic rats in brain NE and IL-6 mRNA levels were observed in stressed animals as well. Tauopathy increased also the gene expression of TH in the LC. In addition, the LC exhibited exaggerated expression of pro- and anti-inflammatory mediators (IL-6, TNFα, inducible nitric oxide synthases 2 (iNOS2), and interleukin 10 (IL-10)) in transgenic rats suggesting that tauopathy affects also the immune background in LC. Positive correlation between NE and IL-6 mRNA levels in cornu ammonis in stressed transgenic animals indicated the reduction of anti-inflammatory effect of NE.Conclusions: Our data thus showed that tauopathy alters the functions of LC further leading to the reduction of NE levels and exaggeration of neuroinflammation in forebrain. These findings support the assumption that tau-related dysfunction of LC activates the vicious circle perpetuating neurodegeneration leading to the development of AD. [ABSTRACT FROM AUTHOR]

Published
2016
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7. Genetic background modifies neurodegeneration and neuroinflammation driven by misfolded human tau protein in rat model of tauopathy: implication for immunomodulatory approach to Alzheimer¿s disease.

Author

Stozicka, Zuzana, Zilka, Norbert, Novak, Petr, Kovacech, Branislav, Bugos, Ondrej, and Novak, Michal

Subjects
NEURODEGENERATION, INFLAMMATION, IMMUNOMODULATORS, ALZHEIMER'S disease, IMMUNOHISTOCHEMISTRY
Abstract

Background: Numerous epidemiological studies demonstrate that genetic background modifies the onset and the progression of Alzheimer's disease and related neurodegenerative disorders. The efficacious influence of genetic background on the disease pathway of amyloid beta has been meticulously described in rodent models. Since the impact of genetic modifiers on the neurodegenerative and neuroinflammatory cascade induced by misfolded tau protein is yet to be elucidated, we have addressed the issue by using transgenic lines expressing the same human truncated tau protein in either spontaneously hypertensive rat (SHR) or Wistar-Kyoto (WKY) genetic background. Methods: Brains of WKY and SHR transgenic rats in the terminal stage of phenotype and their age-matched nontransgenic littermates were examined by means of immunohistochemistry and unbiased stereology. Basic measures of tau-induced neurodegeneration (load of neurofibrillary tangles) and neuroinflammation (number of Iba1-positive microglia, their activated morphology, and numbers of microglia immunoreactive for MHCII and astrocytes immunoreactive for GFAP) were quantified with an optical fractionator in brain areas affected by neurofibrillary pathology (pons, medulla oblongata). The stereological data were evaluated using two-way ANOVA and Student's t-test. Results: Tau neurodegeneration (neurofibrillary tangles (NFTs), axonopathy) and neuroinflammation (microgliosis, astrocytosis) appeared in both WKY and SHR transgenic rats. Although identical levels of transgene expression in both lines were present, terminally-staged WKY transgenic rats displayed significantly lower final NFT loads than their SHR transgenic counterparts. Interestingly, microglial responses showed a striking difference between transgenic lines. Only 1.6% of microglia in SHR transgenic rats expressed MHCII in spite of having a robust phagocytic phenotype, whereas in WKY transgenic rats, 23.2% of microglia expressed MHCII despite displaying a considerably lower extent of transformation into phagocytic phenotype. Conclusions: These results show that the immune response represents a pivotal and genetically variable modifying factor that is able to influence vulnerability to neurodegeneration. Therefore, targeted immunomodulation could represent a prospective therapeutic approach to Alzheimer's disease. [ABSTRACT FROM AUTHOR]

Published
2010
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8. Tau Conformation as a Target for Disease-Modifying Therapy: The Role of Truncation.

Author

Novak, Petr, Cehlar, Ondrej, Skrabana, Rostislav, and Novak, Michal

Subjects
*TAU proteins, *ALZHEIMER'S disease, *ANIMAL models in research, *TARGETED drug delivery, *IMMUNOTHERAPY, *TREATMENT of neurodegeneration, *MOLECULAR structure, *NERVE tissue proteins, *NEURODEGENERATION
Abstract

Tau protein plays a major role in the pathogenesis of Alzheimer's disease. Despite many decades of intensive research, the cause of the conformational switch that leads to the remodeling of the highly flexible conformational ensemble of intrinsically disordered protein tau into insoluble filaments is still elusive. We show here that truncation of tau may play a causative role in this conformational change, as evidenced by results obtained from in vitro experiments and from transgenic animal models. This conformational change is a common denominator of pathological tau protein assemblies, and a salient drug target. The long-running research of truncated tau has led to the generation of the first active tau vaccine that has entered clinical trials. [ABSTRACT FROM AUTHOR]

Published
2018
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