beta-amyloidogenesis

How and when does amyloid beta-protein accumulate in the brain? We sought to learn about when and how amyloid beta-protein (A beta) accumulates in the cortex of normal individuals and about the difference in the A beta accumulation between normal aged and Alzheimer's disease brains. From consecutive autopsy cases (n = 76; age range: 24-92 years) and confirmed Alzheimer's disease cases (n = 7; age range: 60-79 years), hippocampus CA1 and occipitotemporal cortex T4 were sampled for A beta quantitation. The A beta 42 level increased steeply from age 50 to age 70 years in T4 and a little later in CA1. It was consistently higher in T4 than those in CA1 in a given case. There was a critical level of A beta 42 below which no senile plaques were detected. In the Alzheimer's disease brains the A beta 42 levels were significantly higher, and the extents of A beta 42 amino-terminal modifications were also much greater, than those in the control brains. In contrast to A beta 42, A beta 40 showed no age-dependent accumulation and its level was increased in most of the Alzheimer's disease brains. A beta 40 appears to invariably accumulate in the cortex during aging, and to a greater extent in Alzheimer's disease. Increased A beta 40 levels are associated with most Alzheimer's disease cases. An early onset of A beta 42 accumulation may lead to development of Alzheimer's disease late in life and increased levels of A beta 40 may be involved in acceleration of development of the disease.     

Global and local dimensions of vocal dynamics

The global embedding dimension (dE) and the local dynamical dimension (dL) are calculated from the microphone and electroglottographic (EGG) signals elicited from five healthy subjects and seven dysphonic subjects with laryngeal pathology during phonation of sustained/a/. The data from each pathologic subject contain at least one bifurcation and are divided into periodic and irregular segments for analysis. The dE values from both the microphone and EGG signals elicited from the healthy subjects indicate that a relatively small coordinate space can be used to reconstruct the attractor, with little residual noise. Consistent across all healthy subjects, three dominant degrees of freedom (dL) are found to govern local dynamics of the trajectories on the attractor. From the pathologic subjects, many of the dE values suggest the presence of a high-dimensional component in the signals. However, the noise does not completely obscure the deterministic dynamics of the source signal or prevent extraction of an optimal global embedding dimension. The data do not reveal consistent differences in degrees of freedom between healthy and pathologic phonation, or between different modes of pathologic phonation. However, the dL values suggest that the pathologic vocal fold vibration of these subjects, even highly irregular vibration, is governed locally by a low number of dominant degrees of freedom, sometimes no greater than those calculated from the signals of healthy subjects. Only in the cases of severe breathiness are the microphone and EGG signals sufficiently contaminated by noise to obscure any deterministic component.     

No evidence for a higher resting metabolic rate in noninstitutionalized Alzheimer's disease patients

OBJECTIVE: It has previously been suggested that Alzheimer's disease patients have higher resting energy requirements than healthy individuals, which may contribute to their unexplained weight loss. We examined whether resting metabolic rate, the largest component of daily energy expenditure, is elevated in Alzheimer's patients compared with healthy older controls. DESIGN: Cross-sectional. SETTING: General Clinical Research Center and Baltimore VA Medical Center. PATIENTS: Twenty-five noninstitutionalized demented patients (74 +/- 8 years; mean +/- SD) with a wide range of Mini-Mental Examination scores (1 to 20) and 73 healthy older individuals (69 +/- 7 years). MEASUREMENTS: Resting metabolic rate was measured by indirect calorimetry, fat-free mass and fat mass by dual energy X-ray absorptiometry, and daily energy intake by food diaries. RESULTS: No differences in fat-free mass and fat mass were noted between Alzheimer's disease patients and healthy older controls. Resting metabolic rate was similar in Alzheimer's disease patients (5446 +/- 962 kJ/day) and healthy older individuals (5647 +/- 887 kJ/day). These results persisted when resting metabolic rate was statistically adjusted for differences in body composition and age. CONCLUSION: These results provide no evidence for an elevation in resting energy requirements in noninstitutionalized demented patients.     

Quantitative analysis of neuropathologic changes in the cerebral cortex of centenarians

1. The quantitative distribution of neurofibrillary tangles and senile plaques was studied in the brains of 65 elderly patients aged from 96 to 104 years by immunohistochemistry. 2. According to the clinical and neuropathological diagnoses, three groups of cases were considered: 19 patients with Alzheimer's disease, 22 patients with mixed dementia (vascular and degenerative) and 24 patients with no or very mild cognitive impairment. 3. Moderate to high neurofibrillary tangle densities were always present in the hippocampus and entorhinal cortex. The inferior temporal cortex was very frequently affected in demented and non-demented cases whereas the superior frontal cortex was spared in the majority of cases independently of the clinical diagnosis. Quantitatively, Alzheimer's disease cases showed significantly higher NFT densities than cases with no clinical findings of dementia only in the CA1 field of the hippocampus. 4. The hippocampus and entorhinal cortex were often devoid of senile plaques in non-demented cases while the vast majority of Alzheimer's disease cases had few SP in these regions. The frontal and temporal cortex were more frequently involved than the limbic structures in both non-demented and Alzheimer's disease cases. The SP densities in layers II and III of the inferior temporal and superior frontal cortex were significantly higher in Alzheimer's disease than in non-demented cases. 5. These observations suggest that the dementing process in nonagenarians and centenarians may differ to that described in younger demented individuals in that neurofibrillary tangles involve principally the hippocampal formation with relative sparing of the neocortex. Furthermore, they indicate that both the neurofibrillary tangle densities in the CA1 field and senile plaque densities in the superficial layers of the neocortex must be considered for the neuropathological diagnosis of Alzheimer's disease in this age group.     

Are elevated cerebrospinal fluid levels of IL-6 in sudden unexplained deaths, infectious deaths and deaths due to heart/lung disease in infants and children due to hypoxia?

In this paper we applied mathematical techniques of non-linear dynamics, to an ECG signal. The first step is to compute the shift-delay time, via average displacement of the digital ECG. Phase space is constructed at a prescribed shift-delay and correlation dimension and dominant Lyapounov exponent versus the embedding dimension are monitored. This technique was applied to 5 healthy volunteers and 4 patients with VVI pacemaker.     

Co-localization of high-affinity neurotrophin receptors in nucleus basalis of Meynert neurons and their differential reduction in Alzheimer's disease

It has been suggested that degeneration of neurons in Alzheimer's disease is the result of diminished trophic support. However, so far no evidence has been forwarded that neuronal degeneration in Alzheimer's disease is causally related to insufficient production of neurotrophins. The present study deals with (i) the expression and co-localization of tyrosine kinase receptors (trks) in the human nucleus basalis of Meynert and (ii) alterations of these receptors in Alzheimer's disease in the nucleus basalis of Meynert, an area severely affected in Alzheimer's disease. The expression of trkA, trkB and trkC in the nucleus basalis of Meynert of control and Alzheimer's disease brains was studied using three polyclonal antibodies specifically recognizing the extracellular domain of trkA, trkB and trkC. Brain material of eight controls and seven Alzheimer's disease patients was obtained at autopsy, embedded in paraffin and stained immunocytochemically. Using an image analysis system, we determined the proportion of trk neurons expressing the different trk receptors in controls and Alzheimer's disease patients. In control brains, trkA, trkB and trkC were differentially expressed in numerous nucleus basalis of Meynert neurons. The highest proportion of neurons was found to express trkB (75%), followed by trkC (58%) and trkA (54%). Furthermore, using consecutive sections, a clear co-localization of trk receptors was observed in the same neurons. The highest degree of co-localization was observed between trkA and trkB. In Alzheimer's disease patients, the number of immunoreactive neurons and the staining intensity of individual neurons was reduced dramatically. Reduction in the proportion of neurons expressing trkA was 69%, in trkB 47% and in trkC 49%, which indicated a differential reduction in the amount of trk receptors in Alzheimer's disease. These observations indicate that nucleus basalis of Meynert neurons can be supported by more than one neurotrophin and that the degeneration of these neurons in Alzheimer's disease is associated with a decreased expression of trk receptors, suggesting a decreased neurotrophin responsiveness of nucleus basalis of Meynert neurons in Alzheimer's disease.     

ApoE and CYP2D6 polymorphism with and without parkinsonism-dementia complex in the people of Chamorro, guam

Parkinsonism-dementia complex (PDC), a neurodegenerative disorder in the Chamorro, Guam population, has been epidemiologically ascribed to the ingestion of the neurotoxin cycasin. This disease is characterized neuropathologically by the presence of abundant neurofibrillary tangles (NFTs). We analyzed a genetic risk factor of Alzheimer's disease (AD), apolipoprotein E, hypothesized to be linked to NFT formation, and a genetic risk factor of Parkinson's disease (PD), CYP2D6 mutation, linked to slower metabolism of exogenous toxins, in Chamorro, Guam individuals with and without PDC. The representation of the G-to-C mutation in exon 9 of the CYP2D6 gene was higher in Chamorro and Filipino than in Caucasian individuals, but this mutant allele had similar high frequencies in both PDC patients and healthy Chamorro individuals. We found no alleles of these genes associated with AD or PD to be overrepresented among those with PDC.     

Presenilin 1 intronic polymorphism is not associated with Alzheimer type neuropathological changes or sporadic Alzheimer's disease

BACKGROUND: A genetic association between the presenilin 1 (PS-1) intronic polymorphism and sporadic Alzheimer's disease has been a matter of controversy. Recent findings have suggested that the PS-1 polymorphism is not associated with Alzheimer's disease or amyloid beta-protein (Abeta) deposition in brains from patients with Alzheimer's disease. OBJECTIVES: To elucidate the influence of the PS-1 polymorphism on Alzheimer type neuropathological changes and the development of Alzheimer's disease, the relation between the PS-1 polymorphism and quantitative severity of Alzheimer type neuropathological changes in the brains from patients with Alzheimer's disease and non-demented subjects was studied. METHODS: The PS-1 and apolipoprotein E (ApoE) genotypes, were examined, together with the densities of the senile plaques, senile plaques with dystrophic neurites, and neurofibrillary tangles in the brains from 36 postmortem confirmed patients with sporadic Alzheimer's disease and 86 non-demented subjects. Association of the PS-1 polymorphism with sporadic Alzheimer's disease and ages at onset and duration of illness in Alzheimer's disease was also examined. RESULTS: The PS-1 polymorphism was not associated with the senile plaques, senile plaques with dystrophic neurites, or neurofibrillary tangles in Alzheimer's disease or non-demented subjects. There was no association of the PS-1 intronic polymorphism with Alzheimer's disease, ages at onset, or durations of illness in Alzheimer's disease. The results remained nonsignificant even when the PS-1 genotype groups were divided into the subgroups with different ApoE epsilon4 status. CONCLUSIONS: The PS-1 intronic polymorphism does not itself have a direct causal role in the formation of Alzheimer type neuropathological changes or in the development of sporadic Alzheimer's disease.     

Quantitation of amyloid beta-protein (A beta) in the cortex during aging and in Alzheimer's disease

In this study we sought to learn about when and how amyloid beta-protein (A beta) accumulates in the cortex of normal individuals and about the difference in the A beta accumulation between normal aged and Alzheimer's disease (AD) brains. From consecutive autopsy cases and AD cases, hippocampus CA1 and occipitotemporal cortex T4 were sampled for A beta quantitation by the well characterized two-site enzyme immunoassays (EIAs). There was a strong tendency toward A beta 42 accumulation between the ages of 50 and 70 years in T4 and a little later in CA1. The A beta 42 levels were consistently higher in T4 than those in CA1 in any given case. The levels of A beta 42 in AD brains were significantly higher than those in control brains, and the extent of A beta 42 amino-terminal modification was also much greater in AD brains than that in control brains. Even in cases in which no senile plaques were immunocytochemically detected, EIAs clearly showed that significant amounts of A beta 42 already had accumulated. In contrast to A beta 42, A beta 40 showed no apparent age-dependent accumulation, and its high levels were found to be associated with AD.     

Identification and measurement of beta-endorphin levels in the skin during induced hair growth in mice

Post-mitotic, human neurons (hNT cells) which have a phenotype similar to that of terminally differentiated neurons of the central nervous system were generated by treating the NT2/D1 human teratocarcinoma cell line with retinoic acid. Treatment of both hNT and NT2/D1 cells with 10(-5) M beta-amyloid peptide fragment 25-35 (A beta P) for 24 h resulted in a decrease in cell viability as determined by MTT incorporation and Trypan blue exclusion, and also induced an apoptotic morphology in hNT cells. Pre-treatment of cells for 24 h with 10 ng/ml TGF-beta 1 or 2 before addition of A beta P reduced the apoptotic morphology of hNT cells and increased cell viability in hNT cells, but not in NT2/D1 cells. Results of RT-PCR, immunohistochemistry and analysis of receptor cross-linking of [125I]TGF-beta 1 to the cell membrane, all showed that the TGF-beta type II receptor is expressed by hNT cells, but not NT2/D1 cells. These results suggest that TGF-beta can protect human, terminally differentiated, TGF-beta type II receptor-positive neurons from A beta P toxicity. We propose that the increased expression of TGF-beta in brains of patients with Alzheimer's disease may offer some degree of neuroprotection if neurons also express a functional TGF-beta type II receptor.     

Increased expression of cyclooxygenases and peroxisome proliferator-activated receptor-gamma in Alzheimer's disease brains

Recent studies suggest that inflammatory events are associated with plaque formation in the brains of patients with Alzheimer's disease (AD). Treatment with nonsteroidal anti-inflammatory drugs (NSAIDs) of these patients appears to slow the progression of disease. We assessed the occurrence of cyclooxygenases (COX-1 and -2) and peroxisome proliferator-activated receptor-gamma (PPARgamma) in temporal cortex from normal and AD brains using specific antibodies. In AD brains, protein levels of COX-1 were increased in both cytosolic and particulate fractions, and COX-2 protein was also increased in the particulate fraction. On the other hand, PPARgamma level was increased in the cytosolic fraction but not in the particulate fraction. Thus, expression levels of COX-1, COX-2, and PPARgamma may change in AD brains. In addition, several NSAIDs which are also PPARgamma activators, such as indomethacin, inhibited COX-2 expression in glial cells. These results suggest that PPARgamma activators have inhibitory effects on inflammatory events in AD brains.     

Destabilization of beta-catenin by mutations in presenilin-1 potentiates neuronal apoptosis

Mutations of the presenilin-1 gene are a major cause of familial early-onset Alzheimer's disease. Presenilin-1 can associate with members of the catenin family of signalling proteins, but the significance of this association is unknown. Here we show that presenilin-1 forms a complex with beta-catenin in vivo that increases beta-catenin stability. Pathogenic mutations in the presenilin-1 gene reduce the ability of presenilin-1 to stabilize beta-catenin, and lead to increased degradation of beta-catenin in the brains of transgenic mice. Moreover, beta-catenin levels are markedly reduced in the brains of Alzheimer's disease patients with presenilin-1 mutations. Loss of beta-catenin signalling increases neuronal vulnerability to apoptosis induced by amyloid-beta protein. Thus, mutations in presenilin-1 may increase neuronal apoptosis by altering the stability of beta-catenin, predisposing individuals to early-onset Alzheimer's disease.     

Abnormal expression of the cell cycle regulators P16 and CDK4 in Alzheimer's disease

In this study, we demonstrate that two important regulators of the cell cycle, cyclin-dependent kinase-4 and its inhibitor p16, are increased in the brains of cases of Alzheimer's disease patients compared with age-matched controls. Both proteins are increased in the pyramidal neurons of the hippocampus, including those neurons containing neurofibrillary tangles and granulovacuolar degeneration. As p16 is not normally found in terminally differentiated neurons, it seems paradoxical that it is increased in Alzheimer's disease unless it is responding to increases in cyclin-dependent kinase-4 or other cell cycle regulators. Induction of the latter, a protein that signals re-entry and progression through the cell cycle, may itself be the consequence of alpha response to a growth stimulus. Re-entry into the cell cycle is likely deleterious in terminally differentiated neurons and may contribute to the biochemical abnormalities, such as oxidative stress and hyperphosphorylated tau protein, as well as the neuronal degeneration characteristic of the pathology of Alzheimer's disease.     

Interleukin-6-associated inflammatory processes in Alzheimer's disease: new therapeutic options

The cytokine interleukin-6 is consistently detected in the brains of Alzheimer's disease patients but not in the brains of nondemented elderly persons. Until recently it was unclear whether an interleukin-6-associated inflammatory mechanism is an early or late event in the pathological cascade of Alzheimer's disease. We investigated whether interleukin-6 could be detected in plaques of Alzheimer's disease patients prior to the onset of neuritic degeneration. We found interleukin-6 mostly in plaques where neuritic pathology has not yet developed. This indicates that the appearance of interleukin-6 may precede neuritic changes and is not just a consequence of neuritic degeneration. Therefore, one may hypothesize that activation of inflammatory mechanisms may cause neuritic degeneration in plaques. A suppression of interleukin-6 synthesis could, therefore, be of therapeutic value. Upon screening a number of substances, we found that a small number of nonsteroidal antiinflammatory drugs, including tenidap, were able to inhibit interleukin-6 synthesis in cultured human astrocytoma cells. These substances may be therapeutically useful in Alzheimer's disease and should be evaluated in clinical studies.     

Interindividual differences in the levels of the glutamate transporters GLAST and GLT, but no clear correlation with Alzheimer's disease

Alzheimer's disease is a common progressive neurodegenerative disease of unknown etiology. Several different pathological processes have been identified in the brains of Alzheimer patients. To determine if reduced glutamate uptake is a contributing factor, we have measured the levels of the glutamate transporter proteins GLAST (EAAT1) and GLT (EAAT2) in human autopsy samples. The postmortem proteolysis of these proteins turned out to be fairly rapid. Brains from 10 Alzheimer and 10 control patients were therefore obtained with a relatively short postmortem delay (5 hr on average). GLT (N-terminal and central parts), GLAST (C-terminal), glial fibrillary acidic protein (GFAP) and inositol (1,4,5)-triphosphate (IP3)-receptor immunoreactivities were determined in the cingulate and inferior temporal gyri by immunoblotting. The Na+-dependent "binding" of D-[3H]aspartate and the glutamate uptake after solubilization and reconstitution in liposomes were determined for comparison. An individual variation in GLAST and GLT levels was found, but no significant correlation with Alzheimer's disease, except for a 14% lower ratio of N-terminal to central GLT immunoreactivity (P < 0.04). The levels of GLAST and GLT showed negative correlation in agreement with the idea that these proteins are differentially regulated. In conclusion, Alzheimer's disease brains can have both normal and reduced levels of GLAST and GLT.     

Expression and distribution of amyloid precursor protein-like protein-2 in Alzheimer's disease and in normal brain

Amyloid precursor-like protein-2 (APLP-2) belongs to a family of homologous amyloid precursor-like proteins. In the present study we report on the expression and distribution of APLP-2 in fetal and adult human brain and in brains of patients with Alzheimer's disease. We demonstrate that APLP-2 mRNAs encoding isoforms predicted to undergo post-translational modification by chondroitin sulfate glycosaminoglycans are elevated in fetal and aging brains relative to the brains of young adults. Immunocytochemical labeling with APLP-2-specific antibodies demonstrates APLP-2 immunoreactivity in cytoplasmic compartments in neurons and astrocytes, in large part overlapping the distribution of the amyloid precursor protein. In Alzheimer's disease brain, APLP-2 antibodies also label a subset of neuritic plaques. APLP-2 immunoreactivity is particularly conspicuous in large dystrophic neurites that also label with antibodies specific for APP and chromogranin A. In view of the age-dependent increase in levels of chondroitin sulfate glycosaminoglycan-modified forms of APLP-2 in aging brain and the accumulation of APLP-2 in dystrophic presynaptic elements, we suggest that APLP-2 may play roles in neuronal sprouting or in the aggregation, deposition, and/or persistence of beta-amyloid deposits.     

Alterations of low molecular weight acid phosphatase protein level in Alzheimer''s disease

We have previously reported that the activity of low molecular weight (LMW) acid phosphatase, which can remove tyrosine-linked phosphates of epidermal growth factor receptor, was significantly decreased in Alzheimer brains. In the present study, a specific antibody was prepared to analyze the protein level of this enzyme. Western blot analysis indicated that the level of LMW acid phosphatase protein was significantly reduced, whereas the activity of LMW acid phosphatase per enzyme molecule was not changed in Alzheimer brains. These results suggest that the reduction of LMW acid phosphatase activity in Alzheimer brains is due to its decreased protein level in Alzheimer's disease.     

Is the "preamyloid" of diffuse plaques in Alzheimer's disease really nonfibrillar?

Several papers have described an 'amorphous' component of the amyloid in diffuse plaques and it has been suggested that this is 'preamyloid,' which is not organized into fibrils. Because most of the studies have been performed on autopsy tissue it was the purpose of this study to compare the ultrastructure of diffuse amyloid deposits in well preserved Alzheimer's disease biopsy specimens with autopsy tissues from patients with Alzheimer's disease and Down's syndrome. A postembedding immunogold technique with anti-beta/A4 protein demonstrated gold particles exclusively on extracellular amyloid fibrils in both biopsy and autopsy brains. We have presented evidence that suggests the claim for the existence of an amorphous component within the beta/A4 protein-positive material is unconvincing.