Frank Albert scite author profile

Niemann-Pick type C disease is an inherited neurovisceral storage disorder with intracellular accumulation of cholesterol. In affected brains, many ballooned neurons are seen. Considerable nerve cell loss of unknown pathogenesis leads to neurological deterioration and dementia. Chemical examination of brains has failed to demonstrate increased levels of cholesterol. Using filipin fluorometry of neuronal cells in tissue slices, we found massive accumulation of cholesterol in neurons in four out of five human Niemann-Pick type C cases including adult patients. Neurofibrillary tangles composed of aggregates of the otherwise highly soluble protein tau were present in three Niemann-Pick type C cases and were also immunologically identical to those associated with Alzheimer's disease. However, only a thin slab of spinal cord or a tiny piece of isocortex was available for examination in the two cases without tangles. In a further semi-quantitative analysis of 576 neurons, we determined higher cholesterol content in tangle-bearing neurons than in adjacent tangle-free neurons. The association of cholesterol accumulation with neurofibrillary degeneration in Niemann-Pick type C disease and Alzheimer's disease awakens interest in the role of impaired cholesterol metabolism in the development of neurofibrillary tangles in both diseases.

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Blockade of HMG‐CoA reductase activity causes changes in microtubule‐stabilizing protein tau via suppression of geranylgeranylpyrophosphate formation: implications for Alzheimer's disease

Meske

Albert

Richter

et al. 2003

Eur J of Neuroscience

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Histopathologically, Alzheimer's disease is characterized by plaques and tangles that develop progressively over time. Experimental data described a statin-induced decrease in beta-amyloid production, a major constituent of the plaques. Others reported data on statin-mediated changes in neuronal survival and cytoskeleton, including the microtubule-associated protein tau, a major constituent of the tangles. However, these latter reports remain contradictory. To clarify and extend our knowledge on the effect of statin on the cytoskeleton, we challenged rat primary neuron cultures by lovastatin and determined the metabolite that is critical for structural integrity and survival of neurons. During the blockade of 3-hydroxy-3-methylglutaryl-coenzyme A reductase, the neuritic network was affected and eventually was completely destroyed. This process was not part of the execution phase of apoptosis and was marked by alterations in the microfilament and microtubule system. The distribution and phosphorylation of protein tau changed. Immunoblot analysis and indirect immunofluorescence revealed a transient increase in tau phosphorylation, which ceased during the execution of apoptosis. All of these effects could be linked to the lack of the geranylgeranylpyrophosphate intermediate. Inhibition of the geranylgeranylation of Rho family GTPases (geranylgeranyl-transferase I) evoked similar changes in neurons. These data and our findings that statin treatment reduced the membrane-bound fraction of RhoA-GTPase in neurons suggest that reduced levels of functional small G proteins are responsible for the observed effects. Our data demonstrate that lovastatin concentrations able to suppress not only cholesterol but also geranylgeranylpyrophosphate formation may evoke phosphorylation of tau reminiscent of preclinical early stages of Alzheimer's disease and, when prolonged, apoptosis.

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Coupling of Mammalian Target of Rapamycin with Phosphoinositide 3-Kinase Signaling Pathway Regulates Protein Phosphatase 2A- and Glycogen Synthase Kinase-3β-dependent Phosphorylation of Tau

Meske

Albert

Ohm

2008

Journal of Biological Chemistry

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Tau is an important microtubule-stabilizing protein in neurons. In its hyperphosphorylated form, Tau protein loses its ability to bind to microtubules and then accumulates and is part of pathological lesions characterizing tauopathies, e.g. Alzheimer disease. Glycogen synthase kinase-3␤ (GSK-3␤), antagonized by protein phosphatase 2A (PP2A), regulates Tau phosphorylation at many sites. Diabetes mellitus is linked to an increased risk of developing Alzheimer disease. This could be partially caused by dysregulated GSK-3␤. In a long term experiment (؊16 h) using primary murine neuron cultures, we interfered in the insulin/phosphoinositide 3-kinase (PI3K) (LY294002 treatment and insulin boost) and mammalian target of rapamycin (mTor) (AICAR and rapamycin treatment) signaling pathways and examined consequent changes in the activities of PP2A, GSK-3␤, and Tau phosphorylation. We found that the coupling of PI3K with mTor signaling, in conjunction with a regulatory interaction between PP2A and GSK-3␤, changed activities of both enzymes always in the same direction. These balanced responses seem to ensure the steady Tau phosphorylation at GSK/PP2A-dependent sites observed over a long period of time (>6 h). This may help in preventing severe changes in Tau phosphorylation under conditions when neurons undergo transient fluctuations either in insulin or nutrient supply. On the other hand, the investigation of Tau protein at Ser-262 showed that interference in the insulin/PI3K and mTor signaling potentially influenced the Tau phosphorylation status at sites where only one of two enzymes (in this case PP2A) is involved in the regulation.

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Intravascular Platelet Aggregation in the Heart Induced by Norepinephrine

et al. 1972

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Aggregated platelets and occlusive platelet thrombi were found in small myocardial vessels of dogs on electron-microscope examination after prolonged infusion of norepinephrine. The etiology of the myocardial necrosis and fibrosis induced by catecholamines in experimental animals and seen in patients with pheochromocytoma and patients after norepinephrine treatment for shock may be related to this intravascular platelet-aggregating effect of catecholamines. The link between stress and acute myocardial infarction may be via catecholamine-induced intravascular platelet thrombosis. If the thrombogenic theory of atherosclerosis is valid, platelet aggregation induced by catecholamines may be the mechanism whereby arteriosclerotic heart disease is related to stress.

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Frank Albert

Cholesterol storage and tau pathology in Niemann–Pick type C disease in the brain

Blockade of HMG‐CoA reductase activity causes changes in microtubule‐stabilizing protein tau via suppression of geranylgeranylpyrophosphate formation: implications for Alzheimer's disease

Coupling of Mammalian Target of Rapamycin with Phosphoinositide 3-Kinase Signaling Pathway Regulates Protein Phosphatase 2A- and Glycogen Synthase Kinase-3β-dependent Phosphorylation of Tau

Intravascular Platelet Aggregation in the Heart Induced by Norepinephrine

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