载脂蛋白E基因多态性与Alzheimer病的关联研究

目的:观察载脂蛋白E(apolipoprotein E,apoE)基因多态性在广东佛山地区汉族老年人中的分布,探讨其与晚发Alzheimer病(AD)的相关性。方法:对88例晚发AD患者和97名正常老年人进行对照研究。用聚合酶链反应-限制性片段长度多态性方法(PCR-RFLP)分析apoE基因多态性。结果:晚发AD患者中apoE等位基因ε4频率为18.8%,较正常老年人组显著升高,并与晚发AD呈正关联(OR=2.27,χ2=8.859,P<0.01)。结论:apoE等位基因ε4是晚发AD主要的遗传风险因子。     

Imaging brain amyloid of Alzheimer disease in vivo in transgenic mice with an Abeta peptide radiopharmaceutical.

Abeta 1-40 is a potential peptide radiopharmaceutical that could be used to image the brain Abeta amyloid of Alzheimer disease in vivo, should this peptide be made transportable through the blood-brain barrier in vivo. The blood-brain barrier transport of [ 125 I]-Abeta 1-40 in a transgenic mouse model was enabled by conjugation to the rat 8D3 monoclonal antibody to the mouse transferrin receptor. The Abeta 1-40 -8D3 conjugate is a bifunctional molecule that binds the blood-brain barrier TfR and undergoes transport into brain and binds the Abeta amyloid plaques of Alzheimer disease. App SW /Psen1 double-transgenic and littermate control mice were administered either unconjugated Abeta 1-40 or the Abeta 1-40 -8D3 conjugate intravenously, and brain scans were obtained 6 hours later. Immunocytochemical analysis showed abundant Abeta immunoreactive plaques in the brains of the App SW /Psen1 transgenic mice and there was a selective retention of radioactivity in the brains of these mice at 6 hours after intravenous administration of the conjugate. In contrast, there was no selective sequestration either of the conjugate in control littermate mouse brain or of unconjugated Abeta 1-40 in transgenic mouse brain. In conclusion, the results show that it is possible to image the Abeta amyloid burden in the brain in vivo with an amyloid imaging agent, provided the molecule is conjugated to a blood-brain barrier drug-targeting system.     

Spatial relationship of AMY protein deposits and different species of Abeta peptides in amyloid plaques of the Alzheimer disease brain

To further define the spatial relationship of "AMY" plaques detected by antibodies to an unidentified 100 kD AMY protein and amyloid plaques in Alzheimer disease (AD) brains, double immunofluorescence studies were performed with an anti-AMY antibody and a panel of antibodies to different species of Abeta peptides. We report substantial colocalization of AMY immunoreactive plaques with amyloid plaques labeled by antibodies to species of Abeta starting at position 3 with a pyroglutamate modified glutamic acid, however AMY immunoreactive deposits colocalized to a lesser degree with amyloid plaques labeled by antibodies to other variants of the Abeta peptide. Moreover, different immunohistochemical parameters influenced the extent to which colocalization of AMY deposits and Abeta immunoreactive plaques was demonstrable. We conclude that deposits of distinct species of Abeta peptides differentially colocalize with one another and with AMY plaques in the AD brain.     

Lack of familial aggregation of Parkinson disease and Alzheimer disease

OBJECTIVE: To investigate the risk of Alzheimer disease (AD) in first-degree relatives of patients with Parkinson disease (PD) compared with first-degree relatives of controls. DESIGN: Case-control study, family history method, and reconstructed cohort approach. METHODS: Probands with PD without dementia and control probands, matched by age strata, sex, and ethnicity, were examined in person and enrolled without knowledge of family history of PD and other neurological disorders. Disease status in first-degree relatives of probands with PD and control probands was ascertained through a structured family history interview administered to the proband and a second informant (self-report or another informant). Cox proportional hazards models with double-censoring techniques for missing information on age of onset of AD were used to analyze the risk of AD in first-degree relatives of patients with PD compared with first-degree relatives of controls. RESULTS: Four hundred eighty-seven probands with PD and 409 control probands provided family history information on 4819 first-degree relatives older than 30 years (2534 relatives of probands with PD and 2285 relatives of control probands). One hundred thirteen first-degree relatives (2.3%; 61 relatives [2.4%] of patients with PD and 52 relatives [2.3%] of controls) were diagnosed with AD. The risk of AD was not increased in relatives of patients with PD compared with relatives of controls (hazard ratio, 1.1; 95% confidence interval, 0.7-1.6; P =.65). Similarly, no significantly increased risk of AD was observed when comparing relatives of patients with early-onset (< or =50 years) and late-onset (>50 years) PD with relatives of controls. CONCLUSION: The lack of familial aggregation of PD and AD does not support the hypothesis of major shared genetic contributions to the etiology of the 2 most common neurodegenerative disorders.     

Association of low plasma Abeta42/Abeta40 ratios with increased imminent risk for mild cognitive impairment and Alzheimer disease

BACKGROUND: To develop preventive therapy for Alzheimer disease (AD), it is essential to develop AD-related biomarkers that identify at-risk individuals in the same way that cholesterol levels identify persons at risk for heart disease. OBJECTIVE: To determine whether plasma levels of amyloid beta protein (Abeta40 and Abeta42) are useful for identifying cognitively normal elderly white subjects at increased risk for mild cognitive impairment (MCI) and AD. DESIGN: Using well-established sandwich enzyme-linked immunosorbent assays, plasma Abeta40 and Abeta42 levels were analyzed at baseline in a prospective, elderly white cohort followed up for 2 to 12 (median, 3.7) years to detect incident cases of MCI or AD. SETTING: Cognitively normal, community-based white volunteers recruited from primary care settings into the Mayo Rochester Alzheimer Disease Patient Registry. Patients We followed up 563 cognitively normal white volunteers (median age, 78 years; 62% female) who had at least 1 follow-up visit after measurement of baseline plasma Abeta levels. MAIN OUTCOME MEASURES: The primary outcome was time to development of MCI or AD. The secondary outcome was the annualized rate of cognitive change in patients for whom we had 2 Mattis Dementia Rating Scale evaluations 3 to 7 years apart. RESULTS: During follow-up, 53 subjects developed MCI or AD. Subjects with plasma Abeta42/Abeta40 ratios in the lower quartiles showed significantly greater risk of MCI or AD (P = .04, adjusted for age and apolipoprotein E genotype). Comparison of subjects with plasma Abeta42/Abeta40 ratios in the lowest vs the highest quartile gave a relative risk of 3.1 (95% confidence interval, 1.1-8.3). After adjusting for age and apolipoprotein E genotype, regression analysis using annualized changes in the Dementia Rating Scale scores as an outcome variable showed that participants with lower Abeta42/Abeta40 ratios had greater cognitive decline (P = .02). CONCLUSION: The plasma Abeta42/Abeta40 ratio may be a useful premorbid biomarker for identifying cognitively normal elderly white subjects who are at increased risk for developing MCI or AD.     

Familial Alzheimer disease: decreases in CSF Abeta42 levels precede cognitive decline

CSF amyloid beta-peptide 42 (Abeta42) levels in presymptomatic subjects with pathogenic mutations in the PS1 gene are significantly lower than in an age-matched control group. Consequently, in these subjects, there is a window of opportunity estimated as at least 4 to 12 years to evaluate the ability of any putative prophylactic therapy to decrease, arrest, or reverse abnormalities in Abeta42 metabolism many years before clinical symptoms of Alzheimer disease are otherwise likely to occur.     

Abeta vaccination effects on plaque pathology in the absence of encephalitis in Alzheimer disease

The authors examined the records of 149 children with language regression (LR) who had overnight EEG monitoring. Children with isolated LR had a higher frequency of epileptiform abnormalities (60%) than those with LR in the context of autistic regression (31%, p = 0.002) and also a higher rate of clinical seizures (33% vs 8%, p < 0.001). EEG abnormalities in the LR only group were also more prominent. This suggests two subtypes of language regression.     

The role of biomarkers in clinical trials for Alzheimer disease

Biomarkers are likely to be important in the study of Alzheimer disease (AD) for a variety of reasons. A clinical diagnosis of Alzheimer disease is inaccurate even among experienced investigators in about 10% to 15% of cases, and biomarkers might improve the accuracy of diagnosis. Importantly for the development of putative disease-modifying drugs for Alzheimer disease, biomarkers might also serve as indirect measures of disease severity. When used in this way, sample sizes of clinical trials might be reduced, and a change in biomarker could be considered supporting evidence of disease modification. This review summarizes a meeting of the Alzheimer's Association's Research Roundtable, during which existing and emerging biomarkers for AD were evaluated. Imaging biomarkers including volumetric magnetic resonance imaging and positron emission tomography assessing either glucose utilization or ligands binding to amyloid plaque are discussed. Additionally, biochemical biomarkers in blood or cerebrospinal fluid are assessed. Currently appropriate uses of biomarkers in the study of Alzheimer disease, and areas where additional work is needed, are discussed.     

Water quality has a pronounced effect on cholesterol-induced accumulation of Alzheimer amyloid beta (Abeta) in rabbit brain

Increased circulating cholesterol is known to promote risk of coronary artery disease. It is now emerging that cholesterol promotes production and accumulation of amyloid beta (Abeta) deposited in the hallmark pathologic lesion of Alzheimer's disease (AD), the senile plaque, perhaps by shifting away from normal metabolism of amyloid beta protein precursor (AbetaPP) to beta. Previous studies employing the cholesterol-fed rabbit model of AD demonstrated that induction of AD-like Abeta accumulation in brain could be reversed by co-administration of cholesterol lowering drugs or removing cholesterol, prompted initiation of an AD Cholesterol-Lowering (Statin) Treatment Trial. We now present data that identify a previously unrecognized role for dietary water quality on the severity of neuropathology induced by elevated cholesterol. Neuronal accumulation of Abeta induced by increased circulating concentrations of cholesterol in the New Zealand white rabbit is attenuated when distilled drinking water is administered compared to use of tap water. The numbers of neurons in cholesterol-fed rabbits that exhibited Abeta immunoreactivity, relative to normal chow-fed controls, increased approximately 2.5 fold among animals on tap water but only approximately 1.9 fold among animals on distilled water. This yielded a statistically significant approximately 28% reduction due to the use of distilled water. In addition, the subjectively assessed intensity of neuronal Abeta immunoreactivity was consistently reduced among cholesterol-fed rabbits allowed distilled drinking water compared to cholesterol-fed rabbits on tap water. As intensity of antibody immunoreactivity is likely related to concentration of antigen, the identified difference among cholesterol-fed rabbits allowed distilled drinking water may hold greater importance than a significant reduction in numbers of affected neurons. The effect on neuronal Abeta immunoreactivity intensity was observable among cholesterol-fed rabbits reared and allowed tap water when performing studies in three distinct locales. Pilot data suggest the possibility of increased clearance of Abeta from the brain, identified as increased blood levels, among cholesterol-fed rabbits administered distilled water compared to animals on tap water. The agent(s) occurring in tap water, excluded by distillation, promoting accumulation of neuronal Abeta immunoreactivity is(are) yet undisclosed, but arsenic, manganese, aluminum, zinc, mercury, iron and nitrate have tentatively been excluded because they were not identifiable (below detection limits) in the tap water of the three locales where the cholesterol-induced neuropathologic difference was observable. These findings suggest that water quality may impact on human health in the setting of increased circulating cholesterol levels, and could illustrate a truly simple life-style change that could be of benefit in AD.     

深部脑刺激治疗阿尔茨海默病的研究进展

阿尔茨海默病（AD）是一种退行性神经精神疾病,目前仍病因未明,也缺乏有效的治疗手 段。近年来有些文献报道深部脑刺激对 AD 患者认知功能有一定改善作用,现对相关进展作一综述     

Shift from fibrillar to nonfibrillar Abeta deposits in the neocortex of subjects with Alzheimer disease

A morphometric study of amyloid-beta-positive plaques in the neocortex of eight non-demented people from 68 to 82 years of age and 17 subjects with late-stage Alzheimer disease (GDS stage 7/FAST stages 7a-f) from 73 to 93 years of age shows a shift from prevalence of fibrillar plaques to prevalence of nonfibrillar plaques. In the aged, non-demented subjects, about 4/mm^2 plaques are detectable in the neocortex, and the majority are fibrillar plaques. Specifically, 64% found to be classical fibrillar and Thioflavin-S-positive bright primitive plaques. A lower percentage of pale primitive plaques (35%) relatively small proportion of plaques that are poor in thioflavin S-positive fibrils. The numerical density of plaques in the severe stage of AD increases to about 41/mm^2. Severely demented subjects appear to maintain an active process of fibrillar plaque formation. This is reflected in the presence of 3% bright primitive plaques. Severely demented subjects also manifest plaque degradation, reflected in the presence of 22% and 48% percentages of classical fibrillar plaques in non-demented subjects and in the end stage of disease suggest that once activated, the process of fibrillar plaque formation persists at a somewhat stable rate during the whole course of brain amyloidosis.     

Increased immunoreactivity of brain spectrin in Alzheimer disease: a marker for synapse loss?

Alzheimer disease (AD) is characterized, among other pathological alterations, by an extensive synapse loss. Brain spectrin is a membrane skeleton protein found in synapses, and its immunoreactivity has been shown to increase in the rat model of denervation. In order to test the hypothesis that there is an increase in brain spectrin immunoreactivity in relation to the synapse pathology in AD, we studied brain sections and homogenates from AD and control cases and found increased anti-brain spectrin immunostaining of neurons, fibers, and plaques, with a relative decrease in the granular pattern of neuropil immunoreactivity. Western blot analysis showed a 25% increase in the 150 kDa bands (degradation products) in the cytosolic fraction and a decrease in the 240 kDa band (intact brain spectrin) in the particulate fraction. Altered immunostaining of brain sections and Western blot was not observed with an antibody against red blood cell spectrin demonstrating the specific change of brain spectrin. These results support the contention that increased brain spectrin immunoreactivity is a marker of synapse or neuronal loss and further supports the concept of synapse pathology in AD.     

APOE-dependent PET patterns of brain activation in Alzheimer disease

Using H2(15)O PET, the authors imaged 13 patients with Alzheimer disease (AD) while performing a serial nonverbal recognition memory task. Patterns of brain activation differed as a function of APOE genotype: epsilon4 carriers exhibited lower activation in the left lingual gyrus and higher activation in left cuneus, precuneus, parahippocampal, and right precentral gyrus. The APOE genotype seems to play a role in cerebral physiologic activity even after onset of clinical manifestations of AD.     

Cell mediators of inflammation in the Alzheimer disease brain

Lesions of Alzheimer disease are associated with low-grade but sustained inflammatory responses. Activated microglia agglomerate in the center of senile plaques. Reactive astrocytes marginate the amyloid beta-protein (A beta) deposits and extend their processes toward the center of plaques. Both microglia and astrocytes are known to secrete a wide variety of molecules involved in inflammation and are potential sources of proinflammatory elements in the brain. Dystrophic neurites occur in senile plaques with such glial reactions, suggesting the relevance of inflammatory responses to the neuronal degeneration in Alzheimer disease. Activated glial cells are, therefore, targets of anti-inflammatory therapy of Alzheimer disease. However, evidence also indicates that these cells eliminate A beta from the brain. A beta is produced continuously in both the normal and the AD brain. Under normal conditions, A beta is removed successfully before it accumulates as extracellular amyloid fibrils. Even in Alzheimer disease, a large portion of A beta may be cleared from the brain with a small portion being left and deposited as neurotoxic senile plaques. Both in vivo and in vitro studies showed the effective uptake of A beta by microglia. Before clinical application, it must be determined whether the treatment that suppresses glial activation and inflammatory responses inhibits A beta removal by glial cells.     

17beta-estradiol reduces plasma Abeta40 for HRT-na?ve postmenopausal women with Alzheimer disease: a preliminary study.

OBJECTIVE: One mechanism to support the potentially beneficial effects of estrogen in the brain for postmenopausal women potentially involves the hormone's ability to favorably alter the processing of amyloid-precursor protein (APP), believed to play an important role in the pathobiology of Alzheimer disease (AD). The authors evaluated the effects of estrogen administration on plasma concentration of one by-product of APP processing, Abeta40, for postmenopausal women with AD. METHODS: In a placebo-controlled, double blind, parallel-group design study, 20 women were randomized to receive either 0.10 mg/day of transdermal 17beta-estradiol or a placebo for 8 weeks and were retrospectively evaluated as to whether basal levels of Abeta40 were affected by pre-study use of hormone replacement therapy (HRT). Blood samples were collected and cognitive tests were administered at baseline; at Weeks 3, 5, and 8 during treatment; and again 8 weeks after treatment termination. RESULTS: For the group as a whole, plasma Abeta40 was not reliably reduced in response to short-term estradiol administration. For HRT-na?ve subjects, baseline Abeta40 concentrations were higher than those of previous HRT users, and controlled estradiol administration significantly reduced plasma Abeta40 by the end of the 8-week treatment period. CONCLUSIONS: These results provide preliminary clinical evidence to support an effect of estradiol on Abeta-processing for AD women who are HRT-na?ve. This finding suggests that the hormone may serve as an Abeta-lowering agent for HRT-na?ve AD women, which may, in turn, have ultimate ramifications for the progression of AD pathology.