Effect of general anesthetics on amyloid precursor protein and mRNA levels in the rat brain.

The incidence of Alzheimer's disease is elevated after exposure to surgical interventions. Since amyloid precursor protein (APP) and its neurotoxic derivatives play key roles in the development of Alzheimer dementia, the role of general anesthesia is controversial in the development of cognitive decline. As such, the effect of anesthetics on APP protein and mRNA levels was assessed utilizing semiquantitative Western-immunoblot and reverse transcription polymerase chain reaction (RT-PCR) in brains of rats following intraperitoneal treatment with propofol and thiopental. The anesthetics did not change cortical APP protein and mRNA concentration considerably. These results indicate that both propofol and thiopental are considered to be relatively safe with respect to APP metabolism.

ApoE -491A/T promoter polymorphism is not an independent risk factor, but associated with the epsilon4 allele in Hungarian Alzheimer's dementia population.

Apolipoprotein E gene (Apo(epsilon)) has three common alleles (epsilon2, epsilon3, and epsilon4), of which epsilon4 has been shown to be associated with an increased risk for Alzheimer's disease (AD). Possible additional genetic factors, like the -491A variant of ApoE promoter may modify the development of AD, independently of the ApoE allele status. The objective of this study was to investigate whether A/T allelic polymorphism at site-491 of the ApoE promoter is associated with AD in a Hungarian population. The genomic DNA isolated from peripheral blood lymphocytes of 52 late-onset AD and 53 control individuals was used as a template for the two examined polymorphisms and PCR assay was applied. The epsilon4 allele was significantly over-represented in the AD group (28%) as compared with the control population (7%). No significant differences have been found between the control and the AD populations regarding the occurrence of the promoter A allele frequencies (control: 77%, AD: 70%). However, the AA genotype was more frequent in the AD group (48%) than in the control (10%) when the presence of epsilon4 allele was also considered. It is unlikely therefore that the -491A variant of the ApoE promoter gene is an independent risk factor in the Hungarian AD population, but a linkage disequilibrium exists between the two examined mutations.

Impact of haloperidol and risperidone on gene expression profile in the rat cortex.

Despite the clinical efficacy of the most thoroughly studied conventional neuroleptic agent haloperidol, and the atypical antipsychotic risperidone is well established, little information is available on their molecular effects. Recent advances in high-density DNA microarray techniques allow the possibility to analyze thousands of genes simultaneously for their differential gene expression patterns in various biological processes, and to determine mechanisms of drug action. The aim of this series of experiments was to gain experience in antipsychotic gene-expression profiling and characterize (in the parlance of genomics) the "antipsychotic transcriptome." In this prospective animal study, broad-scale gene expression profiles were characterized for brains of rats treated with antipsychotics and compared with those of sham controls. We used DNA microarrays containing 8000 sequences to measure the expression patterns of multiple genes in rat fronto-temporo-parietal cortex after intraperitoneal treatment with haloperidol or risperidone. A number of transcripts were differentially expressed between control and treated samples, of which only 36 and 89 were found to significantly differ in expression as a result of exposure to haloperidol or risperidone, respectively (P<0.05). Acutely, 13 genes were more highly expressed and 15 transcripts were found to be significantly less abundant, whereas chronically nine genes were up-regulated and none of them was repressed in haloperidol-treated cortices. Risperidone acutely induced 43 and repressed 46 genes, and chronically over-expressed 6 and down-regulated 11 transcripts. Selected genes were assayed by real-time PCR, then normalized to beta-actin. These assays confirmed the significance of the array results for all transcripts tested. Despite their differing receptor affinity and selectivity, our findings indicate that haloperidol and risperidone interfere with cell survival, neural plasticity, signal transduction, ionic homeostasis and metabolism in a similar manner.

Altered response to mirtazapine on gene expression profile of lymphocytes from Alzheimer's patients.

Antidepressants are widely used in the treatment of mood disorders associated with dementia, however little information is available on their effect at the molecular level. We have demonstrated that gene expression profiles of lymphocytes from patients with Alzheimer dementia differ from that seen with controls, with alpha(2)-adrenoceptor being the most highly repressed transcript. To address this issue in light of antidepressant treatment, we used lymphocytes derived from Alzheimer patients and control individuals to assess the impact of mirtazapine, the novel antidepressant with alpha(2)-adrenoceptor antagonistic activities, on gene expression using a cDNA microarray representing 3200 distinct human genes. Sequences that are differentially regulated after treatment with mirtazapine were identified and categorized based on similarities in biological functions. This analysis revealed that selected biological processes, including protein metabolism, cytoskeleton integrity, immune response, cellular plasticity, and neurotransmission, are involved in early phases of administration of this antidepressant. In addition, although it was possible to identify common targets, the expression profiles of Alzheimer lymphocytes differed mainly in their magnitude from those seen with controls. These results confirm the usefulness of the gene array approach for studying Alzheimer-specific changes in the periphery and suggest that the expression of genes of Alzheimer lymphocytes is modulated differently by mirtazapine, which correlates with the pathology.

Gene expression profile analysis of the rat cortex following treatment with imipramine and citalopram.

The effect of antidepressants is the culmination of a series of molecular actions occurring in the brain. These events are thought to lead to changes in the expression level of numerous, but as yet unknown genes that result in different cellular functions. In our present study we addressed this issue by establishing gene expression profiles of the rat brain after treatment with imipramine and citalopram at therapeutic doses. After 96 h and 4 wk, fronto-temporal cortices from controls and each treated strain were prepared and total RNA was isolated, and assessed using a cDNA microarray system containing 3200 clones. The expression of 6 genes was decreased and 8 were over-expressed by imipramine, whereas 27 were repressed and 7 were up-regulated by citalopram. Members of signal transduction (e.g. phosphatidylinositol transfer protein), structural elements (e.g. tubulin, fibronectin), factors related to protein metabolism in general (e.g. proteasomal subunits, ubiquitin-like proteins, polyadenylation sites), components involved in cell survival (e.g. midkine, stress-inducible protein), and determinants of membrane conductance and ion transport (e.g. vacuolar H+-ATPase), and basics of nuclear functions (e.g. translin, basal transcription factor 3), were some of the genes with altered expression. These data demonstrate that antidepressants interfere with the expression of a large array of genes involved in signalling, survival and protein metabolism. Our results demonstrate for the first time that antidepressants specifically regulate neuronal plasticity through induction of a highly specific transcriptional programme in brain cells.

The effect of citalopram on gene expression profile of Alzheimer lymphocytes.

Antidepressants are widely used in the treatment of mood disorders associated with dementia, however little information is available on their effect at the molecular level. In certain neurodegenerative disorders, such as in Alzheimer's disease, lymphocytes have been used to assess mirror changes that thought to occur in the brain. Gene expression profiles of lymphocytes from Alzheimer patients have been shown to differ from that seen with controls. To address this issue in light of antidepressant treatment, we used lymphocytes derived from Alzheimer's disease patients and control individuals to assess the impact of the selective serotonine reuptake inhibitor citalopram on gene expression using a cDNA microarray representing 3200 distinct human genes. Sequences that are differentially regulated after treatment with citalopram were identified and categorized based on similarities in biological functions. This analysis revealed that the overexpression of genes in control and Alzheimer white blood cells by citalopram are implicated in cell survival. Apart from this, citalopram did not markedly alter genes involved in other molecular functions in control cells. In contrast, alteration of genes implicated in ionic currents, cell-adhesion, immune mechanism, and adrenergic functions, were also observed in Alzheimer lymphocytes. The expression of genes of Alzheimer lymphocytes by citalopram is modulated differently which may correlate with the pathology.

The nitric oxide synthase-3 codon 298 polymorphism is not associated with late-onset sporadic Alzheimer's dementia and Lewy body disease in a sample from Hungary.

An association study was performed between apolipoprotein E (apoE) polymorphism and the common structural polymorphism Glu/Asp at codon 298 of the nitric oxide synthase (NOS3) gene in late-onset sporadic Alzheimer's dementia probands (LOAD), diffuse Lewy body dementia cases (DLBD) and controls in a Hungarian sample. The frequency of individuals who carried the apoE epsilon4 allele was significantly more common in both dementia groups (LOAD, 20%; DLBD, 27%; control, 8%; control versus DLBD, chi2=13.264, degrees of freedom=2, P<0.001; control versus LOAD, chi2=6.628, degrees of freedom=2, P<0.036). However, there were no significant differences in the NOS3 genotype and allele distributions between the LOAD, DLBD and control groups. The apoE status has been found to be independent from the NOS3 codon 298 polymorphism in the examined cohort. Despite the facts that NOS3 is associated with neuritic sprouting, and aberrant neuronal and glial expression of the same molecule has been found in neurodegenerative diseases, it is unlikely that the polymorphism Glu/Asp of the NOS3 gene is involved in the development of LOAD and DLBD.

Effect of haloperidol and risperidone on amyloid precursor protein levels in vivo.

The neurotoxic beta-amyloid peptide of Alzheimer's disease is formed from the amyloid precursor protein (APP), which is a member of an evolutionarily highly conserved gene family with significant functional importance. Because behavioral and psychiatric symptoms treated with antipsychotics may influence the course of the disease, we have investigated traditional and atypical antipsychotic drugs, administered through the intraperitoneal route, for their effects on rat cortical APP. Western-immunoblotting was utilized for semi-quantitative evaluation of APP levels. Treatment with haloperidol resulted in an acute elevation of cortical APP both in therapeutic and toxic doses, however, it had no significant chronic impact on APP. Atypical antipsychotic risperidone did not change cortical APP concentration. These results indicate that both haloperidol and risperidone are considered to be relatively safe with respect to APP metabolism. Possible mechanisms, including involvement of calcium and APP itself as a receptor, are discussed.

Lack of influence of the apolipoprotein E genotype on the outcome of selegiline treatment in Alzheimer's disease.

The objective of our study was to investigate whether an interaction exists between apolipoprotein E (APOE) genotype and the response of patients with Alzheimer's disease (AD) to selegiline treatment, and whether APOE genotype independently affects the rate of AD progression. A 48-week multicenter double-blind trial was undertaken on 43 patients with mild to moderate AD. Primary efficacy measures were the AD Assessment Scale (ADAS), an 11-item cognitive subscale of ADAS (ADAS-Cog/11) and the Mini Mental State Examination. Secondary outcome measures were Clinical Global Impression of severity and CGI of change scales. The therapeutic response to selegiline was not affected by APOE genotype. Our results revealed that the APOE4 allele carrier AD probands did not respond better to selegiline treatment than the APOE2-3 patients, i.e. APOE status did not influence the therapeutic outcome of selegiline treatment.

Long-term exposition of cells to beta-amyloid results in decreased intracellular calcium concentration.

The ubiquitously present beta-amyloid peptide plays an important role in the pathogenesis of Alzheimer's disease. Its neurotoxicity has been blamed on its mal-activity to increase calcium-levels. In the present study, we demonstrate that treatment of fibroblasts with beta-amyloid has, indeed, resulted in a transient rise in the calcium-concentration. Chronic exposition of cultures to the peptide, however, caused a fall in the calcium-level. Apparently, beta-amyloid has biphasic effects: acutely, it increases the calcium-concentration of cells; in contrast, on the long-run, beta-amyloid peptide acts as a calcium-antagonist. Therefore, the idea that beta-amyloid peptide leads to neural degeneration solely by increasing cells' calcium concentration must be replaced with a more complex view of its dual function in intracellular ionic homeostasis.

Fibroblasts and lymphocytes from Alzheimer patients are resistant to beta-amyloid-induced increase in the intracellular calcium concentration.

A major neuropathological finding in Alzheimer's disease (AD) is the presence of senile plaques in certain regions in the brain. The plaques contain extracellular deposits of beta-amyloid peptide (beta AP). Destabilization of intracellular calcium homeostasis in neurons, caused by beta AP, plays a central role in AD pathogenesis. In the present study, the authors report ionic alterations of lymphocytes and fibroblasts harvested from sporadic AD patients and from age-matched controls. Intracellular free calcium level ([Ca2+]i) of human cells, labeled with Fura-2AM, was determined by dual wavelength spectrofluorimetry. Basal [Ca2+]i appeared to be higher in AD lymphocytes when compared to control ones. Resting [Ca2+]i of AD fibroblasts, however, has proven to be lower than that seen with control cells. Exposure of cells to beta AP resulted in the elevation of the [Ca2+]i in both control cell types, however, that of AD lymphocytes and fibroblasts did not differ considerably.

Beta-amyloid-induced increase in the resting intracellular calcium concentration gives support to tell Alzheimer lymphocytes from control ones.

Senile plaques containing beta-amyloid peptide (betaAP) comprise the major neuropathological lesions in Alzheimer's disease (AD). In line with ongoing studies investigating alterations of various biochemical processes of cells of peripheral tissues, the authors demonstrate differences in resting intracellular free calcium levels of lymphocytes harvested from sporadic Alzheimer patients and from age-matched controls. Resting intracellular calcium concentration was measured in Fura-2AM-loaded human lymphocytes by dual wavelength spectrofluorimetry. Resting calcium level appeared to be higher in Alzheimer cells when compared to control lymphocytes. After incubating cells in 10(-7)M of beta-amyloid, the resting calcium concentration of the control cells elevated, while that of Alzheimer lymphocytes did not differ considerably.

Alpha2-macroglobulin exon 24 (Val-1000-Ile) polymorphism is not associated with late-onset sporadic Alzheimer's dementia in the Hungarian population.

Several lines of biochemical evidence support a role of alpha2-macroglobulin (A2M) in the pathogenesis of Alzheimer's dementia (AD). A2M participates in the general defence mechanism against proteinases and it is supposed to be involved in the degradation of beta-amyloid peptide (betaAP). Furthermore, A2M has been shown to reduce betaAP fibril formation, and it is upregulated in the acute-phase inflammatory response like the process occurring in the AD brain. The exon 18 splice acceptor deletion polymorphism and the exon 24 (Val-1000-Ile) GG genotype were reported to be associated with AD, but the results are contradictory. Since the Hungarian population is genetically distinct from the other European ethnic groups, we examined whether the risk for developing AD is increased in the A2M GG carriers. The interaction of apolipoprotein E (apoE) and A2M polymorphisms was also examined. The distribution of A2M genotypes and alleles in the entire data set was consistent with the previous negative observations in which A and G allelic frequencies were comparable in both groups (72% and 28% in the AD population, and 72% and 28% in the control population, respectively). The GG genotype was over-represented (14%) only in the apoE epsilon4 non-carrier subgroup of AD probands (7% in the control group), but the difference was not significant. Our data suggest that, although A2M has an important role in the AD-specific neurodegenerative process, its exon 24 Val-1000-Ile polymorphism is not likely to be associated with late-onset sporadic AD in the Hungarian population.

Whole blood samples from Alzheimer patients and control donors demonstrate fluorimetric differences.

Beta-amyloid peptide plays a crucial role in the pathology of Alzheimer's disease. As part of our ongoing fluorimetric studies, in the present report we demonstrate differences in resting intracellular free calcium levels of cells in the blood derived from sporadic Alzheimer patients and from age-matched control individuals. Calcium levels were measured in Fura-2AM-loaded human blood samples by dual-wavelength spectrofluorimetry. The resting calcium concentrations of blood samples from Alzheimer patients were lower compared to that of the control samples. Exposure of control blood samples to beta-amyloid caused an increase in the calcium level. Specimens from Alzheimer donors, however, appeared to be resistant to the peptide. This simple finding may serve as a springboard to monitoring Alzheimer pathology in the peripheral systems of the body.