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The mitochondrial cascade hypothesis of dementia assumes mitochondrial dysfunction leading to reduced energy supply, impaired neuroplasticity, and finally cell death as one major pathomechanism underlying the continuum from brain aging over mild cognitive impairment to initial and advanced late onset Alzheimer's disease. Accordingly, improving mitochondrial function has become an important strategy to treat the early stages of this continuum. The metabolic enhancer piracetam has been proposed as possible prototype for those compounds by increasing impaired mitochondrial function and related aspects like mechanisms of neuroplasticity. We here report that piracetam at therapeutically relevant concentrations improves neuritogenesis in the human cell line SH-SY5Y over conditions mirroring the whole spectrum of age-associated cognitive decline. These effects go parallel with improvement of impaired mitochondrial dynamics shifting back fission and fusion balance to the energetically more favorable fusion site. Impaired fission and fusion balance can also be induced by a reduction of the mitochondrial permeability transition pore (mPTP) function as atractyloside which indicates the mPTP has similar effects on mitochondrial dynamics. These changes are also reduced by piracetam. These findings suggest the mPTP as an important target for the beneficial effects of piracetam on mitochondrial function.
Background: Treatment complexity rises in line with the number of drugs, single doses, and administration methods, thereby threatening patient adherence. Patients with multimorbidity often need flexible, individualised treatment regimens, but alterations during the course of treatment may further increase complexity. The objective of our study was to explore medication changes in older patients with multimorbidity and polypharmacy in general practice.
Methods: We retrospectively analysed data from the cluster-randomised PRIMUM trial (PRIoritisation of MUltimedication in Multimorbidity) conducted in 72 general practices. We developed an algorithm for active pharmaceutical ingredients (API), strength, dosage, and administration method to assess changes in physician-reported medication data during two intervals (baseline to six-months: ∆1; six- to nine-months: ∆2), analysed them descriptively at prescription and patient levels, and checked for intervention effects.
Results: Of 502 patients (median age 72 years, 52% female), 464 completed the study. Changes occurred in 98.6% of patients (changes were 19% more likely in the intervention group): API changes during ∆1 and ∆2 occurred in 414 (82.5%) and 338 (67.3%) of patients, dosage alterations in 372 (74.1%) and 296 (59.2%), and changes in API strength in 158 (31.5%) and 138 (27.5%) respectively. Administration method changed in 79 (16%) of patients in both ∆1 and ∆2. Simvastatin, metformin and aspirin were most frequently subject to alterations.
Conclusion: Medication regimens in older patients with multimorbidity and polypharmacy changed frequently. These are mostly due to discontinuations and dosage alterations, followed by additions and restarts. These findings cast doubt on the effectiveness of cross-sectional assessments of medication and support longitudinal assessments where possible.
Trial registration: 1. Prospective registration: Trial registration number: NCT01171339; Name of registry: ClinicalTrials.gov; Date of registration: July 27, 2010; Date of enrolment of the first participant to the trial: August 12, 2010.
2. Peer reviewed trial registration: Trial registration number: ISRCTN99526053; Name of registry: Controlled Trials; Date of registration: August 31, 2010; Date of enrolment of the first participant to the trial: August 12, 2010.
As major sources of reactive oxygen species (ROS), mitochondrial structures are exposed to high concentrations of ROS and may therefore be particularly susceptible to oxidative damage. Mitochondrial damage could play a pivotal role in the cell death decision. A decrease in mitochondrial energy charge and redox state, loss of transmembrane potential (depolarization), mitochondrial respiratory chain impairment, and release of substances such as calcium and cytochrome c all contribute to apoptosis. These mitochondrial abnormalities may constitute a part of the spectrum of chronic oxidative stress in Alzheimer's disease. Accumulation of amyloid beta (Abeta) in form of senile plaques is also thought to play a central role in the pathogenesis of Alzheimer's disease mediated by oxidative stress. In addition, increasing evidence shows that Abeta generates free radicals in vitro, which mediate the toxicity of this peptide. In our study, PC12 cells were used to examine the protective features of EGb 761(definition see editorial) on mitochondria stressed with hydrogen peroxide and antimycin, an inhibitor of complex III. In addition, we investigated the efficacy of EGb 761 in Abeta-induced MTT reduction in PC12 cells. Moreover, we examined the effects of EGb 761 on ROS levels and ROS-induced apoptosis in lymphocytes from aged mice after in vivo administration. Here, we will report that EGb 761 was able to protect mitochondria from the attack of hydrogen peroxide, antimycin and Abeta. Furthermore, EGb 761 reduced ROS levels and ROS-induced apoptosis in lymphocytes from aged mice treated orally with EGb 761 for 2 weeks. Our data further emphasize neuroprotective properties of EGb 761, such as protection against Abeta-toxicity, and antiapoptotic properties, which are probably due to its preventive effects on mitochondria.
Schützen Statine vor Schlaganfall und Alzheimer? : neue Therapiemöglichkeiten im Zentralnervensystem
(2005)
Statine stellen heute Medikamente der ersten Wahl bei zu hohen Cholesterin- Blutwerten dar. Denn sie hemmen die Hydroxymethylglutaryl-CoA Reduktase (HMG-CoA Reduktase), ein wichtiges Schlüsselenzym, das für die körpereigene Herstellung von Cholesterin notwendig ist. Bei der pharmakologischen Bewertung der Statine muss allerdings auch der Cholesterinstoffwechsel im Gehirn berücksichtigt werden, dem cholesterinreichsten Organ des menschlichen Körpers. Bislang existieren nur wenige Daten zu den Effekten dieser Medikamente im zentralen Nervensystem. Im Rahmen eines Leitprojekts des Zentrums für Arzneimittelforschung, -Entwicklung und Sicherheit (ZAFES) wird derzeit die Pharmakologie der Statine im Gehirn intensiv untersucht, um die therapeutischen Einsatzmöglichkeiten von Statinen im Zusammenhang mit der Therapie von Erkrankungen, wie Schlaganfall und Alzheimer-Demenz, aufzuklären und gegebenenfalls zu erweitern.
In südlichen Gefilden wächst so manches, was in Maßen genossen dem Wohlbefinden dient. Dies gilt nicht nur für Heilkräuter und Rotwein, sondern vermutlich auch für andere für den Mittelmeerraum typische Getränke und Speisen. Auf der Suche nach diesen "natürlichen Apotheken" erfassen Wissenschaftler aus Deutschland und sechs weiteren europäischen Ländern derzeit seltene Unterarten bewährter Nutzpflanzen wie Thymian, Olive, Wein und Orange. Sie erforschen, ob die seit Jahrhunderten überlieferten Schutzund Heilungskräfte der Gewächse einer wissenschaftlichen Prüfung standhalten und worauf sie beruhen. Die Frankfurter Gruppe um Prof. Dr. Walter Müller hat dabei insbesondere Stoffe im Blick, die das Nervensystem beeinflussen. Macht mediterrane Kost wirklich geistig fit?
Typische neuropathologische Befunde bei der Alzheimer-Demenz (AD) sind die Bildung von Beta-Amyloid-Plaques, die Akkumulation von intrazellulären neurofibrillären Bündeln (Tangles) und ein ausgeprägter Verlust der Nervenzellen im Gehirn (siehe Estifanos Ghebremedhin und Thomas Deller »Risikofaktoren der Alzheimer-Krankheit. Was verraten uns die Gene?«, Seite 90). Insbesondere die Anhäufung von Beta-Amyloid-Peptid (Aß) scheint eine zentrale Rolle in der in der in der Pathogenese zu spielen und kausal für den Zelluntergang verantwortlich zu sein. Befunde unserer Arbeitsgruppe deuten darauf hin, das Aß zu mitochondrialer Dysfunktion in den Nervenzellen führt. Wir untersuchen die Kaskade der Mechanismen, die von der Bildung von Aß über mitochondriale Dysfunktion letztlich zu Synapsenverlust und Zelltod führen, mithilfe von Zelllinien und Mäusestämmen mit Alzheimer-typischen Merkmalen. Ziel ist, einen Angriffspunkt für die medikamentöse Behandlung der Alzheimer-Demenz zu finden. Als vielversprechend hat sich die Wirkung von Statinen erwiesen, die als Cholesterinhemmer eingesetzt werden. ...
Piracetam, the prototype of the so-called nootropic drugs’ is used since many years in different countries to treat cognitive impairment in aging and dementia. Findings that piracetam enhances fluidity of brain mitochondrial membranes led to the hypothesis that piracetam might improve mitochondrial function, e.g., might enhance ATP synthesis. This assumption has recently been supported by a number of observations showing enhanced mitochondrial membrane potential, enhanced ATP production, and reduced sensitivity for apoptosis in a variety of cell and animal models for aging and Alzheimer disease. As a specific consequence, substantial evidence for elevated neuronal plasticity as a specific effect of piracetam has emerged. Taken together, this new findings can explain many of the therapeutic effects of piracetam on cognition in aging and dementia as well as different situations of brain dysfunctions. Keywords: mitochondrial dysfunction, alzheimer’s disease, aging, oxidative stress, piracetam
Ich hatte im Wintersemester 1968 in Frankfurt mit dem Pharmaziestudium angefangen. Das pharmazeutische Institut lag ja damals in der Georg-Voigt-Straße, also nicht weit entfernt vom Zentrum der Studentenunruhen, dem Uni-Hauptgebäude mit der Aula. Daher haben wir einiges von den Protesten mitbekommen. ...
Many cases of early-onset inherited Alzheimer's disease (AD) are caused by mutations in the presenilin-1 (PS1) gene. Expression of PS1 mutations in cell culture systems and in primary neurons from transgenic mice increases their vulnerability to cell death. Interestingly, enhanced vulnerability to cell death has also been demonstrated for peripheral lymphocytes from AD patients. We now report that lymphocytes from PS1 mutant transgenic mice show a similar hypersensitivity to cell death as do peripheral cells from AD patients and several cell culture systems expressing PS1 mutations. The cell death-enhancing action of mutant PS1 was associated with increased production of reactive oxygen species and altered calcium regulation, but not with changes of mitochondrial cytochrome c. Our study further emphasizes the pathogenic role of mutant PS1 and may provide the fundamental basis for new efforts to close the gap between studies using neuronal cell lines transfected with mutant PS1, neurons from transgenic animals, and peripheral cells from AD patients. Copyright 2001 Academic Press.