Your search keyword '"Merkouri Papadima E"' showing total 3 results

1. EPA-1239 – Individualizing clozapine and risperidone treatment for schizophrenia patients

Author

Tsermpini, E., primary, Assimakopoulos, K., additional, Iconomou, G., additional, Merkouri-Papadima, E., additional, Mitropoulos, K., additional, Squassina, A., additional, and Patrinos, G., additional

Published

2014

2. Whole Genome Expression Analyses of miRNAs and mRNAs Suggest the Involvement of miR-320a and miR-155-3p and their Targeted Genes in Lithium Response in Bipolar Disorder.

Author

Pisanu C, Merkouri Papadima E, Melis C, Congiu D, Loizedda A, Orrù N, Calza S, Orrù S, Carcassi C, Severino G, Ardau R, Chillotti C, Del Zompo M, and Squassina A

Subjects

Adult, Bipolar Disorder genetics, Bipolar Disorder metabolism, Bipolar Disorder physiopathology, Calpain genetics, Calpain metabolism, Cell Line, Female, Gene Expression Profiling, Gene Expression Regulation, Genome, Human, Humans, Lymphocytes drug effects, Lymphocytes metabolism, Lymphocytes pathology, Male, MicroRNAs classification, MicroRNAs metabolism, Middle Aged, Oligonucleotide Array Sequence Analysis, Primary Cell Culture, RGS Proteins genetics, RGS Proteins metabolism, RNA, Messenger classification, RNA, Messenger metabolism, Retrospective Studies, Sp4 Transcription Factor genetics, Sp4 Transcription Factor metabolism, Treatment Outcome, Bipolar Disorder drug therapy, Lithium therapeutic use, MicroRNAs genetics, Psychotropic Drugs therapeutic use, RNA, Messenger genetics

Abstract

Lithium is the mainstay in the maintenance of bipolar disorder (BD) and the most efficacious pharmacological treatment in suicide prevention. Nevertheless, its use is hampered by a high interindividual variability and important side effects. Genetic and epigenetic factors have been suggested to modulate lithium response, but findings so far have not allowed identifying molecular targets with predictive value. In this study we used next generation sequencing to measure genome-wide miRNA expression in lymphoblastoid cell lines from BD patients excellent responders (ER, n = 12) and non-responders (NR, n = 12) to lithium. These data were integrated with microarray genome-wide expression data to identify pairs of miRNA/mRNA inversely and significantly correlated. Significant pairs were prioritized based on strength of association and in-silico miRNA target prediction analyses to select candidates for validation with qRT-PCR. Thirty-one miRNAs were differentially expressed in ER vs. NR and inversely correlated with 418 genes differentially expressed between the two groups. A total of 331 of these correlations were also predicted by in-silico algorithms. miR-320a and miR-155-3p, as well as three of their targeted genes ( CAPNS1 (Calpain Small Subunit 1) and RGS16 (Regulator of G Protein Signaling 16) for miR-320, SP4 (Sp4 Transcription Factor) for miR-155-3p) were validated. These miRNAs and mRNAs were previously implicated in psychiatric disorders (miR-320a and SP4 ), key processes of the central nervous system ( CAPNS1 , RGS16 , SP4 ) or pathways involved in mental illnesses (miR-155-3p). Using an integrated approach, we identified miRNAs and their targeted genes potentially involved in lithium response in BD., Competing Interests: The authors declare no conflict of interest.

Published

2019

3. Genomic variants in the FTO gene are associated with sporadic amyotrophic lateral sclerosis in Greek patients.

Author

Mitropoulos K, Merkouri Papadima E, Xiromerisiou G, Balasopoulou A, Charalampidou K, Galani V, Zafeiri KV, Dardiotis E, Ralli S, Deretzi G, John A, Kydonopoulou K, Papadopoulou E, di Pardo A, Akcimen F, Loizedda A, Dobričić V, Novaković I, Kostić VS, Mizzi C, Peters BA, Basak N, Orrù S, Kiskinis E, Cooper DN, Gerou S, Drmanac R, Bartsakoulia M, Tsermpini EE, Hadjigeorgiou GM, Ali BR, Katsila T, and Patrinos GP

Subjects

Alpha-Ketoglutarate-Dependent Dioxygenase FTO metabolism, Case-Control Studies, Computer Simulation, Founder Effect, GTPase-Activating Proteins genetics, Greece, Haplotypes, Humans, Linkage Disequilibrium, Motor Neurons pathology, Motor Neurons physiology, Polymorphism, Single Nucleotide, Alpha-Ketoglutarate-Dependent Dioxygenase FTO genetics, Amyotrophic Lateral Sclerosis genetics

Abstract

Background: Amyotrophic lateral sclerosis (ALS) is a devastating disease whose complex pathology has been associated with a strong genetic component in the context of both familial and sporadic disease. Herein, we adopted a next-generation sequencing approach to Greek patients suffering from sporadic ALS (together with their healthy counterparts) in order to explore further the genetic basis of sporadic ALS (sALS)., Results: Whole-genome sequencing analysis of Greek sALS patients revealed a positive association between FTO and TBC1D1 gene variants and sALS. Further, linkage disequilibrium analyses were suggestive of a specific disease-associated haplotype for FTO gene variants. Genotyping for these variants was performed in Greek, Sardinian, and Turkish sALS patients. A lack of association between FTO and TBC1D1 variants and sALS in patients of Sardinian and Turkish descent may suggest a founder effect in the Greek population. FTO was found to be highly expressed in motor neurons, while in silico analyses predicted an impact on FTO and TBC1D1 mRNA splicing for the genomic variants in question., Conclusions: To our knowledge, this is the first study to present a possible association between FTO gene variants and the genetic etiology of sALS. In addition, the next-generation sequencing-based genomics approach coupled with the two-step validation strategy described herein has the potential to be applied to other types of human complex genetic disorders in order to identify variants of clinical significance.

Published

2017