The objective of this study was to ascertain the impact of aging and Alzheimer's disease (AD) on brain cholesterol (CH), CH precursors, and oxysterol homeostasis. Altered CH metabolism and up-regulation of heme oxygenase-1 (HO-1) are characteristic of AD-affected neural tissues. We recently determined that HO-1 over-expression suppresses total CH levels by augmenting liver X receptor-mediated CH efflux and enhances oxysterol formation in cultured astroglia. Lipids and proteins were extracted from postmortem human frontal cortex derived from subjects with sporadic AD, mild cognitive impairment (MCI), and no cognitive impairment ( n = 17 per group) enrolled in the Religious Orders Study, an ongoing clinical-pathologic study of aging and AD. ELISA was used to quantify human HO-1 protein expression from brain tissue and gas chromatography–mass spectrometry to quantify total CH, CH precursors, and relevant oxysterols. The relationships of sterol/oxysterol levels to HO-1 protein expression and clinical/demographic variables were determined by multivariable regression and non-parametric statistical analyses. Decreased CH, increased oxysterol and increased CH precursors concentrations in the cortex correlated significantly with HO-1 levels in MCI and AD, but not no cognitive impairment. Specific oxysterols correlated with disease state, increasing neuropathological burden, neuropsychological impairment, and age. A model featuring compensated and de-compensated states of altered sterol homeostasis in MCI and AD is presented based on the current data set and our earlier in vitro work. 相似文献
A dysfunction in copper homeostasis seems to occur in Alzheimer’s disease (AD). We recently demonstrated that an excess of non-ceruloplasmin-copper (i.e. ‘free’ copper) correlates with the main functional and anatomical deficits as well as the cerebrospinal markers of the disease, thus suggesting that copper contributes to AD neurodegeneration. Aim of this study was to investigate the profile of serum ceruloplasmin isoforms immunoreactive protein in relation to copper dysfunction in AD. Twenty-five AD patients and 25 controls were included in the study. All subjects underwent individual measurements of serum ceruloplasmin and copper concentrations, and the amount of ‘free’ copper was computed for each copper and ceruloplasmin pair. Serum samples were also pooled and analyzed by two dimensional polyacrylamide gel electrophoresis (2-D PAGE) and western blot analysis. The mean concentration of ’free’ copper resulted higher in AD patients than in controls. Ceruloplasmin 2-D PAGE western blot analysis of pooled sera showed in the AD samples low-molecular-weight spots in the <50 kDa range that were not detected in controls’ pooled sera (p < 0.029). Our data indicate a ceruloplasmin fragmentation in the serum of AD patients, possibly related to ‘free’ copper deregulation in this disease. 相似文献
A dysfunction in copper homeostasis seems to occur in Alzheimer''s disease (AD). We recently demonstrated that an excess of non-ceruloplasmin-copper (i.e., ‘free’ copper) correlates with the main functional and anatomical deficits as well as the cerebrospinal markers of the disease, thus suggesting that copper contributes to AD neurodegeneration. Aim of this study was to investigate the profile of serum ceruloplasmin isoforms immunoreactive protein in relation to copper dysfunction in AD. Twenty-five AD patients and 25 controls were included in the study. All subjects underwent individual measurements of serum ceruloplasmin and copper concentrations, and the amount of ‘free’ copper was computed for each copper and ceruloplasmin pair. Serum samples were also pooled and analyzed by two dimensional polyacrylamide gel electrophoresis (2-D PAGE) and western blot analysis. The mean concentration of ‘free’ copper resulted higher in AD patients than in controls. Ceruloplasmin 2-D PAGE western blot analysis of pooled sera showed in the AD samples low-molecular-weight spots in the <50 kDa range that were not detected in controls'' pooled sera (p < 0.029).Our data indicate a ceruloplasmin fragmentation in the serum of AD patients, possibly related to ‘free’ copper deregulation in this disease.Key words: Alzheimer''s disease, copper, ceruloplasmin, serum, SDS-page相似文献
Neuroimaging studies have demonstrated that patients with Alzheimer’s disease presented disconnection syndrome. However, little is known about the alterations of interhemispheric functional interactions and underlying structural connectivity in the AD patients. In this study, we combined resting-state functional MRI and diffusion tensor imaging (DTI) to investigate interhemispheric functional and structural connectivity in 16 AD, 16 mild cognitive impairment (MCI), as well as 16 cognitive normal healthy subjects (CN). The pattern of the resting state interhemispheric functional connectivity was measured with a voxel-mirrored homotopic connectivity (VMHC) method. Decreased VMHC was observed in AD and MCI subjects in anterior brain regions including the prefrontal cortices and subcortical regions with a pattern of AD<MCI<CN. Increased VMHC was observed in MCI subjects in posterior brain regions with patterns of AD/CN < MCI (sensorimotor cortex) and AD < CN/MCI (occipital gyrus). DTI analysis showed the most significant difference among the three cohorts was the fractional anisotropy in the genu of corpus callosum, which was positively associated with the VMHC of prefrontal and subcortical regions. Across all the three cohorts, the diffusion parameters in the genu of corpus callosum and VMHC in the above brain regions had significant correlation with the cognitive performance. These results demonstrate that there are specific patterns of interhemispheric functional connectivity changes in the AD and MCI, which can be significantly correlated with the integrity changes in the midline white matter structures. These results suggest that VMHC can be used as a biomarker for the degeneration of the interhemispheric connectivity in AD. 相似文献
The clinical symptoms of Alzheimer disease (AD) include a gradual memory loss and subsequent dementia, and neuropathological deposition of senile plaques and neurofibrillary tangles. At the molecular level, AD subjects present overt amyloid β (Aβ) production and tau hyperphosphorylation. Aβ species have been proposed to overactivate the phosphoinositide3‐kinase (PI3K)/Akt/mammalian target of rapamycin (mTOR) axis, which plays a central role in proteostasis. The current study investigated the status of the PI3K/Akt/mTOR pathway in post‐mortem tissue from the inferior parietal lobule (IPL) at three different stages of AD: late AD, amnestic mild cognitive impairment (MCI) and pre‐clinical AD (PCAD). Our findings suggest that the alteration of mTOR signaling and autophagy occurs at early stages of AD. We found a significant increase in Aβ (1–42) levels, associated with reduction in autophagy (Beclin‐1 and LC‐3) observed in PCAD, MCI, and AD subjects. Related to the autophagy impairment, we found a hyperactivation of PI3K/Akt/mTOR pathway in IPL of MCI and AD subjects, but not in PCAD, along with a significant decrease in phosphatase and tensin homolog. An increase in two mTOR downstream targets, p70S6K and 4EBP1, occurred in AD and MCI subjects. Both AD and MCI subjects showed increased, insulin receptor substrate 1, a candidate biomarker of brain insulin resistance, and GSK‐3β, a kinase targeting tau phosphorylation. Nevertheless, tau phosphorylation was increased in the clinical groups. The results hint at a link between Aβ and the PI3K/Akt/mTOR axis and provide further insights into the relationship between AD pathology and insulin resistance. In addition, we speculate that the alteration of mTOR signaling in the IPL of AD and MCI subjects, but not in PCAD, is due to the lack of substantial increase in oxidative stress.
Mild cognitive impairment (MCI) is generally referred to the transitional zone between normal cognitive aging and early dementia
or clinically probable Alzheimer’s disease (AD). Most individuals with amnestic MCI eventually develop AD, which suggests
that MCI may be the earliest phase of AD. Oxidative stress is observed in brain from subjects with both AD and MCI. Among
others, two possibilities for elevated oxidataive stress are decreased activity or elevated expression of antioxidant enzymes,
the latter as a response to the former. Accordingly, in the current study, the protein levels and activity of some antioxidant
enzymes in the hippocampus of control and MCI brain were measured using Western blot analysis and spectrophotometric methods,
respectively. Alterations in the levels and activity of a number of antioxidant enzymes in MCI brain compared to age-matched
controls were found. These results are consistent with the hypothesis that oxidative stress may be an early event in the progression
of amnestic MCI to AD.
Special issue article in honor of Dr. Anna Maria Giuffrida-Stella. 相似文献
Alzheimer disease (AD) is the major locus of dementia worldwide. In the USA there are nearly 6 million persons with this disorder, and estimates of 13–20 million AD cases in the next three decades. The molecular bases for AD remain unknown, though processes involving amyloid beta-peptide as small oligomeric forms are gaining attention as known agents to both lead to oxidative stress and synaptic dysfunction associated with cognitive dysfunction in AD and its earlier forms, including amnestic mild cognitive impairment (MCI) and possibly preclinical Alzheimer disease (PCAD).Altered brain protein phosphorylation is a hallmark of AD, and phosphoproteomics offers an opportunity to identify these altered phosphoproteins in order to gain more insights into molecular mechanisms of neuronal dysfunction and death that lead to cognitive loss. This paper reviews what, to this author, are believed to be the known phosphoproteomics studies related to in vitro and in vivo models of AD as well as phosphoproteomics studies of brains from subjects with AD, and in at least one case in MCI and PCAD as well. The results of this review are discussed with relevance to new insights into AD brain protein dysregulation in critical neuronal functions and to potential therapeutic targets to slow, or in favorable cases, halt progression of this dementing disorder that affects millions of persons and their families worldwide. 相似文献
Brain-derived neurotrophic factor (BDNF) is critical for the function and survival of neurons that degenerate in the late stage of Alzheimer's disease (AD). There are two forms of BDNF, the BDNF precursor (proBDNF) and mature BDNF, in human brain. Previous studies have shown that BDNF mRNA and protein, including proBDNF, are dramatically decreased in end-stage AD brain. To determine whether this BDNF decrease is an early or late event during the progression of cognitive decline, we used western blotting to measure the relative amounts of BDNF proteins in the parietal cortex of subjects clinically classified with no cognitive impairment (NCI), mild cognitive impairment (MCI) or mild to moderate AD. We found that the amount of proBDNF decreased 21 and 30% in MCI and AD groups, respectively, as compared with NCI, consistent with our previous results of a 40% decrease in end-stage AD. Mature BDNF was reduced 34 and 62% in MCI and AD groups, respectively. Thus, the decrease in mature BDNF and proBDNF precedes the decline in choline acetyltransferase activity which occurs later in AD. Both proBDNF and mature BDNF levels were positively correlated with cognitive measures such as the Global Cognitive Score and the Mini Mental State Examination score. These results demonstrate that the reduction of both forms of BDNF occurs early in the course of AD and correlates with loss of cognitive function, suggesting that proBDNF and BDNF play a role in synaptic loss and cellular dysfunction underlying cognitive impairment in AD. 相似文献
Alzheimeŕs disease (AD) represents the most prevalent neurodegenerative disorder that causes cognitive decline in old age. In its early stages, AD is associated with microstructural abnormalities in white matter (WM). In the current study, multiple indices of diffusion tensor imaging (DTI) and brain volumetric measurements were employed to comprehensively investigate the landscape of AD pathology. The sample comprised 58 individuals including cognitively normal subjects (controls), amnestic mild cognitive impairment (MCI) and AD patients. Relative to controls, both MCI and AD subjects showed widespread changes of anisotropic fraction (FA) in the corpus callosum, cingulate and uncinate fasciculus. Mean diffusivity and radial changes were also observed in AD patients in comparison with controls. After controlling for the gray matter atrophy the number of regions of significantly lower FA in AD patients relative to controls was decreased; nonetheless, unique areas of microstructural damage remained, e.g., the corpus callosum and uncinate fasciculus. Despite sample size limitations, the current results suggest that a combination of secondary and primary degeneration occurrs in MCI and AD, although the secondary degeneration appears to have a more critical role during the stages of disease involving dementia. 相似文献
Biometals such as copper and zinc have an important role in Alzheimer’s disease (AD). Accumulating evidence indicates that
copper homeostasis is altered in AD brain with elevated extracellular and low intracellular copper levels. Studies in animals
and cell cultures have suggested that increasing intracellular copper can ameliorate AD-like pathology including amyloid deposition
and tau phosphorylation. Modulating copper homeostasis can also improve cognitive function in animal models of AD. Treatments
are now being developed that may result in redistribution of copper within the brain. Metal ligands such as clioquinol (CQ),
DP-109 or pyrrolidine dithiocarbamate (PDTC) have shown promising results in animal models of AD, however, the actual mode
of action in vivo has not been fully determined. We previously reported that CQ-metal complexes were able to increase intracellular
copper levels in vitro. This resulted in stimulation of phosphoinositol-3-kinase activity and mitogen activated protein kinases
(MAPK). Increased kinase activity resulted in up-regulated matrix metalloprotease (MMP2 and MMP3) activity resulting in enhanced
degradation of secreted Aβ. These findings are consistent with previous studies reporting metal-mediated activation of MAPKs
and MMPs. How this activation occurs is unknown but evidence suggests that copper may be able to activate membrane receptors
such as the epidermal growth factor receptor (EGFR) and result in downstream activation of MAPK pathways. This has been supported
by studies showing metal-mediated activation of EGFR through ligand-independent processes in a number of cell-types. Our initial
studies reveal that copper complexes can in fact activate EGFR. However, further studies are necessary to determine if metal
complexes such as CQ-copper induce up-regulation of Aβ-degrading MMP activity through this mechanism. Elucidation of this
pathway may have important implications for the development of metal ligand based therapeutics for treatment of AD and other
neurodegenerative disorders.
Australian Society for Biophysics Special Issue: Metals and Membranes in Neuroscience, held in Melbourne on 11 July 2007. 相似文献
Alzheimer disease (AD) is a neurodegenerative disorder characterized by progressive cognitive impairment and neuropathology. Oxidative and nitrosative stress plays a principal role in the pathogenesis of AD. The induction of the heme oxygenase-1/biliverdin reductase-A (HO-1/BVR-A) system in the brain represents one of the earliest mechanisms activated by cells to counteract the noxious effects of increased reactive oxygen species and reactive nitrogen species. Although initially proposed as a neuroprotective system in AD brain, the HO-1/BVR-A pathophysiological features are under debate. We previously reported alterations in BVR activity along with decreased phosphorylation and increased oxidative/nitrosative posttranslational modifications in the brain of subjects with AD and those with mild cognitive impairment (MCI). Furthermore, other groups proposed the observed increase in HO-1 in AD brain as a possible neurotoxic mechanism. Here we provide new insights about HO-1 in the brain of subjects with AD and MCI, the latter condition being the transitional phase between normal aging and early AD. HO-1 protein levels were significantly increased in the hippocampus of AD subjects, whereas HO-2 protein levels were significantly decreased in both AD and MCI hippocampi. In addition, significant increases in Ser-residue phosphorylation together with increased oxidative posttranslational modifications were found in the hippocampus of AD subjects. Interestingly, despite the lack of oxidative stress-induced AD neuropathology in cerebellum, HO-1 demonstrated increased Ser-residue phosphorylation and oxidative posttranslational modifications in this brain area, suggesting HO-1 as a target of oxidative damage even in the cerebellum. The significance of these findings is profound and opens new avenues into the comprehension of the role of HO-1 in the pathogenesis of AD. 相似文献
Oxidative stress is an imbalance between the level of antioxidants and oxidants in a cell. Oxidative stress has been shown in brain of subjects with mild cognitive impairment (MCI) as well Alzheimer's disease (AD). MCI is considered as a transition phase between control and AD. The focus of the current study was to identify nitrated proteins in the hippocampus and inferior parietal lobule (IPL) brain regions of subjects with amnestic MCI using proteomics. The identified nitrated proteins in MCI brain were compared to those previously reported to be nitrated and oxidatively modified in AD brain, a comparison that might provide an invaluable insight into the progression of the disease. 相似文献
Many studies reported that oxidative and nitrosative stress might be important for the pathogenesis of Alzheimer's disease (AD) beginning with arguably the earliest stage of AD, i.e., as mild cognitive impairment (MCI). p53 is a proapoptotic protein that plays an important role in neuronal death, a process involved in many neurodegenerative disorders. Moreover, p53 plays a key role in the oxidative stress-dependent apoptosis. We demonstrated previously that p53 levels in brain were significantly higher in MCI and AD IPL (inferior parietal lobule) compared to control brains. In addition, we showed that in AD IPL, but not in MCI, HNE, a lipid peroxidation product, was significantly bound to p53 protein. In this report, we studied by means of immunoprecipitation analysis, the levels of markers of protein oxidation, 3-nitrotyrosine (3-NT) and protein carbonyls, in p53 in a specific region of the cerebral cortex, namely the inferior parietal lobule, in MCI and AD compared to control brains. The focus of these studies was to measure the oxidation and nitration status of this important proapoptotic protein, consistent with the hypothesis that oxidative modification of p53 could be involved in the neuronal loss observed in neurodegenerative conditions. 相似文献
The level of the apo-form of the copper enzyme ceruloplasmin (CP) is an established peripheral marker in diseases associated
with copper imbalance. In view of the proposal that disturbances of copper homeostasis may contribute to neurodegeneration
associated with Alzheimer’s disease (AD), the present work investigates, by Western blot and non-reducing SDS-PAGE followed
by activity staining, the features of CP protein, and the copper/CP relationship in cerebrospinal fluid (CSF) and serum of
AD patients. Results show that only a fraction of total copper is associated with CP in the CSF, at variance with serum, both
in affected and in healthy individuals. Furthermore, a conspicuous amount of apo-ceruloplasmin and a decrease of CP oxidase
activity characterize the CSF of the affected individuals, and confirm that an impairment of copper metabolism occurs in their
central nervous system. In the CSF of AD patients the decrease of active CP, associated with the increase in the pool of copper
not sequestered by this protein, may play a role in the neurodegenerative process. 相似文献
Mild cognitive impairment (MCI) is regarded as a transition stage between the cognitive changes of normal aging and the more
serious problems caused by Alzheimer’s disease (AD). Previous studies had demonstrated increased expression of cell cycle
proteins in AD brain. In the present study, we have analyzed the expression of the cell cycle proteins, CDK2, CDK5 and cyclin
G1 in hippocampus and inferior parietal lobule (IPL) in subjects with amnestic mild cognitive impairment and control using
Western blot analysis. The expression of CDK2, CDK5 and cyclin G1 were found to be significantly increased in MCI hippocampus
as well as in IPL compared to control brain. These results suggest that some cells may have re-entered the cell cycle. However,
the expression of CDK2 and CDK5 is greater in MCI hippocampus compared to those of MCI IPL, and hippocampus is a region that
is severely affected by AD pathology. Since these proteins are involved directly or indirectly in microtubule destabilization
and hyperphosphorylation of tau, and also in APP processing we hypothesize that cell cycle disturbance may be important contributor
in the pathogenesis of AD.
Special issue dedicated to Dr. John P. Blass. 相似文献
The electron paramagnetic spectrum of human plasma is dominated, in the g = 2 region, by resonances from copper atoms bound to ceruloplasmin, and does not reveal the fraction of copper normally associated with albumin, except in a few cases, where a copper-albumin signal increases with time after blood withdrawal. This copper-albumin complex is responsible for a resonance at a g value below g = 2 in the spectrum of human serum, which has been recently attributed to a modified form of type 2 copper bound to ceruloplasmin [Rylkov, V.V., Tarasiev, M.Y. & Moshkov, K.A. (1991) Eur. J. Biochem. 197, 185-189]. In the plasma, copper associated to albumin comes from ceruloplasmin. Purified ceruloplasmin is unable to exchange copper with albumin, either purified or in plasma. It can not be ruled out that some serum components trigger the metal exchange, in a defence mechanism operating when ceruloplasmin leaks, by unknown processes, its copper content before discharging the metal into the various organs. 相似文献
Directed network motifs are the building blocks of complex networks, such as human brain networks, and capture deep connectivity information that is not contained in standard network measures. In this paper we present the first application of directed network motifs in vivo to human brain networks, utilizing recently developed directed progression networks which are built upon rates of cortical thickness changes between brain regions. This is in contrast to previous studies which have relied on simulations and in vitro analysis of non-human brains. We show that frequencies of specific directed network motifs can be used to distinguish between patients with Alzheimer’s disease (AD) and normal control (NC) subjects. Especially interesting from a clinical standpoint, these motif frequencies can also distinguish between subjects with mild cognitive impairment who remained stable over three years (MCI) and those who converted to AD (CONV). Furthermore, we find that the entropy of the distribution of directed network motifs increased from MCI to CONV to AD, implying that the distribution of pathology is more structured in MCI but becomes less so as it progresses to CONV and further to AD. Thus, directed network motifs frequencies and distributional properties provide new insights into the progression of Alzheimer’s disease as well as new imaging markers for distinguishing between normal controls, stable mild cognitive impairment, MCI converters and Alzheimer’s disease. 相似文献
ABSTRACT: BACKGROUND: Patients with Mild Cognitive Impairment (MCI) are at high risk of progression to Alzheimer's dementia. Identifying MCI individuals with high likelihood of conversion to dementia and the associated biosignatures has recently received increasing attention in AD research. Different biosignatures for AD (neuroimaging, demographic, genetic and cognitive measures) may contain complementary information for diagnosis and prognosis of AD. METHODS: We have conducted a comprehensive study using a large number of samples from the Alzheimer's Disease Neuroimaging Initiative (ADNI) to test the power of integrating various baseline data for predicting the conversion from MCI to probable AD and identifying a small subset of biosignatures for the prediction and assess the relative importance of different modalities in predicting MCI to AD conversion. We have employed sparse logistic regression with stability selection for the integration and selection of potential predictors. Our study differs from many of the other ones in three important respects: (1) we use a large cohort of MCI samples that are unbiased with respect to age or education status between case and controls (2) we integrate and test various types of baseline data available in ADNI including MRI, demographic, genetic and cognitive measures and (3) we apply sparse logistic regression with stability selection to ADNI data for robust feature selection. RESULTS: We have used 319 MCI subjects from ADNI that had MRI measurements at the baseline and passed quality control, including 177 MCI Non-converters and 142 MCI Converters. Conversion was considered over the course of a 4-year follow-up period. A combination of 15 features (predictors) including those from MRI scans, APOE genotyping, and cognitive measures achieves the best prediction with an AUC score of 0.8587. These results also demonstrate the effectiveness of stability selection for feature selection in the context of sparse logistic regression. 相似文献
Objectively diagnosing age‐related cognitive impairment (ACI), mild cognitive impairment (MCI), and early‐stage Alzheimer''s disease (AD) is a difficult task, as most cognitive impairment is clinically established via questionnaires, history, and physical examinations. A recent study has suggested that monitoring a miRNA triad, miR‐181a‐5p, miR‐146a‐5p, and miR‐148a‐3p can identify ACI and its progression to MCI and AD (Islam et al., EMBO Mol Med. 13: e14997, 2021). This commentary deliberates findings from this article, such as elevated levels of the miRNA triad in the brain impairing neural plasticity and cognitive function, the efficiency of measuring the miRNA triad in the circulating blood diagnosing MCI and AD, and the promise for improving cognitive function in MCI and AD by inhibiting this miRNA triad. Additional studies required prior to employing this miRNA triad in clinical practice are also discussed. 相似文献
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