Alzheimer Disease: Kitajka K

Kálmán J, Kitajka K, Pákáski M, Zvara A, Juhász A, Vincze G, Janka Z, Puskás LG. · Department of Psychiatry, Albert Szent-Györgyi Center for Medical and Pharmaceutical Sciences, Faculty of Medicine, University of Szeged, Semmelweis u. 6. H-6725 Szeged, Hungary. · Psychiatr Genet. · Pubmed #15722950 No free full text.

Abstract: Since the function and metabolism of peripheral lymphocytes is known to be altered in Alzheimer's disease (AD), a pilot study was carried out to examine differences in gene expression profiles of these cells in 16 AD patients and aged control probands. Using a cDNA microarray representing 3200 distinct human genes, we identified 20 candidate genes whose expression is altered in AD lymphocytes compared with the control probands. Among these were the alpha2C-adrenoreceptor gene, known to regulate blood pressure and learning, the defensin, histocompability complex enhancer-binding protein, carboxypeptidase M, and the Fc fragment of IgE known to be involved in cellular and humoral immune responses. Others, like human cell death protein, TRAIL, and galectin-4 participate in the regulation of apoptosis. Real-time quantitative reverse transcription-polymerase chain reaction analysis was performed in order to confirm the expression changes in AD lymphocytes, and it could detect down-regulation of defensin and alpha2c-adrenoceptor genes, while other genes seemed unaltered in their expression, including heat-shock protein (hsp90), cholesteryl ester transfer protein, and apolipoprotein B100 (apoB). The altered expression profile of these genes might be connected with the previously reported AD-specific lymphocyte abnormalities. It remains to be elucidated, however, how these genes are related to the pathomechanism of dementia and whether the gene expression differences of AD lymphocytes reflect disease traits or stage processes.

Palotás A, Puskás LG, Kitajka K, Palotás M, Molnár J, Pákáski M, Janka Z, Penke B, Kálmán J. · Department of Psychiatry, Albert Szent-Györgyi Medical and Pharmaceutical Center, Faculty of Medicine, University of Szeged, H-6721 Szeged, Semmelweis u. 6, Hungary. · Eur J Pharmacol. · Pubmed #15336942 No free full text.

Abstract: 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.

Palotás A, Puskás LG, Kitajka K, Palotás M, Molnár J, Pákáski M, Janka Z, Penke B, Kálmán J. · Department of Psychiatry, Albert Szent-Györgyi Medical and Pharmaceutical Center, Faculty of Medicine, University of Szeged, H-6721 Szeged, Hungary. · Neurochem Res. · Pubmed #15260135 No free full text.

Abstract: 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.