on Defeating Alzheimer's Disease and other dementias: a priority for European science and society Dementia includes a range of neurological disorders characterized by memory loss and cognitive impairment. The most common early symptom is difficulties remembering recent events. With the development of the disease, symptoms occur such as disorientation, mood swings, confusion, more serious memory loss, behavioural changes, difficulties in speaking and swallowing, as well as walking. Alzheimer Disease (AD) is the most common form of dementia (50-70% of dementia cases). Increasing age is the most important risk factor for AD.In 2012 and 2015, the World Health Organization (WHO) presented reports suggesting that Alzheimer Disease and other dementias (ADOD) should be regarded as a global public health priority 1,2 . Similar policy declarations have been presented by the European Union 3 , as well as by some individual countries. These policy declarations acknowledge trends that sometimes are described in terms of an epidemic or a "time-bomb". In 2015, the number of people affected by dementia worldwide is estimated to be almost 47 million and the numbers are expected to reach 75 million by 2030 and 131 million by 2050, with the greatest increase in low and middle income countries. The main reason for the increase is the global aging trend, since dementias are associated with a high age-specific prevalence, i.e., increasing prevalence with higher age. The global economic costs of dementia were estimated to be more than 600 billion USD in 2010 6 and 818 billion USD in 2015 5 . The direct costs in the medical and social care sectors, 487 billion USD, represent 0.65% of the aggregated global gross domestic products (GDP), which is an enormous economic impact of a single group of disorders, especially considering that 87% of the costs occur in high income countries. Care of people with dementia impacts several sectors in the society with the social care (long term care and home services) and informal care sectors constituting the greatest proportions -even greater than direct medical care 6 . In cost of illness studies, European cost estimates in 2010 ranged between 238,6 billion USD 6 and 105,6 billion € 7 .However, the economic and societal burden of ADOD corresponds to the aggregate burden of people with dementia and their next of kin. The progressive nature of dementia can influence the whole life situation for families over many years. So far, no cure or substantial symptom relieving treatment is available for ADOD. Thus, the impact of this terminal disease is already today enormous, and given the predictions for the future, ADOD represents an enormous challenge for any society, and particularly to the ageing European society.Further knowledge is needed regarding the causes of ADOD. A more complete understanding of the disease mechanisms is required for new diagnostic and therapeutic strategies. There is also a need to establish new cell-based and animal models representing, as far as possible, major clinical component...
Mutations in DJ-1, PINK1 (PTEN-induced putative kinase 1) and parkin all cause recessive parkinsonism in humans, but the relationships between these genes are not clearly defined. One event associated with loss of any of these genes is altered mitochondrial function. Recent evidence suggests that turnover of damaged mitochondria by autophagy might be central to the process of recessive parkinsonism. Here, we show that loss of DJ-1 leads to loss of mitochondrial polarization, fragmentation of mitochondria and accumulation of markers of autophagy (LC3 punctae and lipidation) around mitochondria in human dopaminergic cells. These effects are due to endogenous oxidative stress, as antioxidants will reverse all of them. Similar to PINK1 and parkin, DJ-1 also limits mitochondrial fragmentation in response to the mitochondrial toxin rotenone. Furthermore, overexpressed parkin will protect against loss of DJ-1 and, although DJ-1 does not alter PINK1 mitochondrial phenotypes, DJ-1 is still active against rotenone-induced damage in the absence of PINK1. None of the three proteins complex together using size exclusion chromatography. These data suggest that DJ-1 works in parallel to the PINK1/parkin pathway to maintain mitochondrial function in the presence of an oxidative environment.
The risk of dementia and Alzheimer's disease (AD) probably results from an interaction between genetic and environmental factors. The aim of this study was to investigate the effects and putative interactions between the apoE ε4 allele and lifestyle related risk factors for dementia and AD. Participants of the Cardiovascular Risk Factors, Aging, and Dementia (CAIDE) study were derived from random, population-based samples previously studied in 1972, 1977, 1982 or 1987. After an average follow-up of 21 years, 1449 individuals (72.5%) aged 65–79 years were re-examined in 1998. The apoE ε4 allele was an independent risk factor for dementia/AD even after adjustments for sociodemographic, lifestyle and vascular factors (odds ratio [OR]= 2.83, 95% confidence interval [CI]ε1.61–4.97). Physical inactivity, alcohol drinking and smoking increased the risk of dementia/AD particularly among the apoE ε4 carriers. Furthermore, low–moderate intake of polyunsaturated, and moderate–high intake of saturated fats were associated with an increased risk of dementia/AD more pronouncedly among apoE ε4 carriers. Composite effect of the lifestyle factors was particularly seen among the ε4 carriers (OR = 11.42, 95% CI = 1.94–67.07 in the 4th quartile). Physical inactivity, dietary fat intake, alcohol drinking and smoking at midlife are associated with the risk of dementia and AD, especially among the apoE ε4 carriers. The apoE ε4 carriers may be more vulnerable to environmental factors, and thus, lifestyle interventions may greatly modify dementia risk particularly among the genetically susceptible individuals.
Alzheimer's disease (AD) is the most common form of dementia in the elderly, with increasing prevalence and no disease-modifying treatment available yet. A remarkable amount of data supports the hypothesis that oxidative stress is an early and important pathogenic operator in AD. However, all clinical studies conducted to date did not prove a clear beneficial effect of antioxidant treatment in AD patients. In the current work, we review the current knowledge about oxidative stress in AD pathogeny and we suggest future paths that are worth to be explored in animal models and clinical studies, in order to get a better approach of oxidative imbalance in this inexorable neurodegenerative disease.
Abstract. Hardy J,
To cite this version:Angel Cedazo-Minguez, Bengt Winblad. Biomarkers for Alzheimer's disease and other forms of dementia: clinical needs, limitations and future aspects. Experimental Gerontology, Elsevier, 2009, 45 (1), pp. This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. ACCEPTED MANUSCRIPT
Strong evidence indicates oxidative stress in the pathogenesis of Alzheimer's disease (AD). Amyloid b (Ab) has been implicated in both oxidative stress mechanisms and in neuronal apoptosis. Glutaredoxin-1 (GRX1) and thioredoxin-1 (TRX1) are antioxidants that can inhibit apoptosis signalregulating kinase (ASK1). We examined levels of GRX1 and TRX1 in AD brain as well as their effects on Ab neurotoxicity. We show an increase in GRX1 and a decrease in neuronal TRX1 in AD brains. Using SH-SY5Y cells, we demonstrate that Ab causes an oxidation of both GRX1 and TRX1, and nuclear export of Daxx, a protein downstream of ASK1. Ab toxicity was inhibited by insulin-like growth factor-I (IGF-I) and by overexpressing GRX1 or TRX1. Thus, Ab neurotoxicity might be mediated by oxidation of GRX1 or TRX1 and subsequent activation of the ASK1 cascade. Deregulation of GRX1 and TRX1 antioxidant systems could be important events in AD pathogenesis.
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