Project description:Background: The prevalence of individuals allergic to latex, exhibiting cross-hypersensitivity with plant-derived food has been frequently reported as the so-called latex-fruit syndrome. Nonetheless, molecular mechanisms underlying allergy to latex and/or fruit are poorly understood. Objective: The aims of this study were to identify candidate genes that may be associated with the pathogenesis of allergy to latex and /or vegetable food, and to assess if similar molecular pathways are involved in both types of hypersensitivity. Methods: DNA microarray analysis was performed to screen the molecular profiles of peripheral blood mononuclear cells isolated from patients with allergy to latex, to fruit, or with latex-fruit syndrome, and from control healthy subjects. Results: Gene expression profiling identified an overlapping dataset of genes commonly regulated in all the atopic patients enrolled in this study, suggesting that similar molecular mechanisms are involved in the pathogenesis of allergy to the fruit and /or latex. Several regulators of the innate and acquired immunity reported to polarize the immunological response towards a Th2-mediated immune response were overexpressed in patients. Furthermore, evidences suggested that T regulatory cell expression might be defective in allergic patients, as a consequence of a dysregulation of some inflammatory cytokines. Finally, several transcription factors that may be responsible for the Th1/Th2 imbalance were modulated in allergic patients. Conclusion and clinical implications: This study identified relevant genes that may help to elucidate the molecular mechanisms underlying allergic disease. Knowledges of critical targets, along with transcription factors regulating gene activity may facilitate the development of new therapies. Experiment Overall Design: This study aimed at the understanding of the molecular pathways involved in allergy to latex and fruit. As latex and vegetable food allergens cross-react, it could be hypothesized that similar pathways are involved in both types of hypersensitivity. Experiment Overall Design: For this purpose, patients allergic to latex (n=6), allergic to vegetable food (n=5), or suffering from latex-fruit syndrome (n=6) were enrolled from the Unit of Allergy of the Gemelli Hospital of Rome. Moreover, 4 healthy volunteers were added to this study. Five ml of blood were harvested from each individual, and PBMCs were isolated on ficoll gradient. Following sample preparation (as recommended by the manufacturer), each sample was hybridized on Affymetrix human focus array. Data were processed with Affymetrix MAS 5.0 software and averaged intensity of signals from biological replicates were calculated for further analysis. Experiment Overall Design: The CEL files for this study were lost in a computer crash.

Project description:Background: The prevalence of individuals allergic to latex, exhibiting cross-hypersensitivity with plant-derived food has been frequently reported as the so-called latex-fruit syndrome. Nonetheless, molecular mechanisms underlying allergy to latex and/or fruit are poorly understood. Objective: The aims of this study were to identify candidate genes that may be associated with the pathogenesis of allergy to latex and /or vegetable food, and to assess if similar molecular pathways are involved in both types of hypersensitivity. Methods: DNA microarray analysis was performed to screen the molecular profiles of peripheral blood mononuclear cells isolated from patients with allergy to latex, to fruit, or with latex-fruit syndrome, and from control healthy subjects. Results: Gene expression profiling identified an overlapping dataset of genes commonly regulated in all the atopic patients enrolled in this study, suggesting that similar molecular mechanisms are involved in the pathogenesis of allergy to the fruit and /or latex. Several regulators of the innate and acquired immunity reported to polarize the immunological response towards a Th2-mediated immune response were overexpressed in patients. Furthermore, evidences suggested that T regulatory cell expression might be defective in allergic patients, as a consequence of a dysregulation of some inflammatory cytokines. Finally, several transcription factors that may be responsible for the Th1/Th2 imbalance were modulated in allergic patients. Conclusion and clinical implications: This study identified relevant genes that may help to elucidate the molecular mechanisms underlying allergic disease. Knowledges of critical targets, along with transcription factors regulating gene activity may facilitate the development of new therapies.

Project description:Gene Expression Profiling in 45X Turner Syndrome patients

Project description:Gene expression profiling of immortalized human mesenchymal stem cells with hTERT/E6/E7 transfected MSCs. hTERT may change gene expression in MSCs. Goal was to determine the gene expressions of immortalized MSCs.

Project description:Transcriptional profiling of human mesenchymal stem cells comparing normoxic MSCs cells with hypoxic MSCs cells. Hypoxia may inhibit senescence of MSCs during expansion. Goal was to determine the effects of hypoxia on global MSCs gene expression.

Project description:Mucosal gene expression profiling in ileum of patients with Crohn's disease

Project description:Gene expression profiling of immortalized human mesenchymal stem cells with hTERT/E6/E7 transfected MSCs. hTERT may change gene expression in MSCs. Goal was to determine the gene expressions of immortalized MSCs. One-condition experment, gene expression of 3A6

Project description:Expression profiling of PBMC from patients with hepatocellular carcinoma

Project description:Gene methylation profiling of immortalized human mesenchymal stem cells comparing HPV E6/E7-transfected MSCs cells with human telomerase reverse transcriptase (hTERT)- and HPV E6/E7-transfected MSCs. hTERT may increase gene methylation in MSCs. Goal was to determine the effects of different transfected genes on global gene methylation in MSCs.

Project description:RNA extracted at 240min. Samples are rRNA depleted. Expression measurement of Homo sapiens genes.