Your search keyword '"Ricciardelli, Eugenia"' showing total 2 results

1. Acute stress enhances the expression of neuroprotection- and neurogenesis-associated genes in the hippocampus of a mouse restraint model.

Author

Sannino G, Pasqualini L, Ricciardelli E, Montilla P, Soverchia L, Ruggeri B, Falcinelli S, Renzi A, Ludka C, Kirchner T, Grünewald TG, Ciccocioppo R, Ubaldi M, and Hardiman G

Subjects

Animals, Gene Expression Regulation, Mice, Neurogenesis genetics, Neuroprotection genetics, Biomarkers analysis, Disease Models, Animal, Gene Expression Profiling, Hippocampus metabolism, Restraint, Physical methods, Stress, Psychological genetics

Abstract

Stress arises from an external demand placed on an organism that triggers physiological, cognitive and behavioural responses in order to cope with that request. It is thus an adaptive response useful for the survival of an organism. The objective of this study was to identify and characterize global changes in gene expression in the hippocampus in response to acute stress stimuli, by employing a mouse model of short-term restraint stress. In our experimental design mice were subjected to a one time exposure of restraint stress and the regulation of gene expression in the hippocampus was examined 3, 12 and 24 hours thereafter. Microarray analysis revealed that mice which had undergone acute restraint stress differed from non-stressed controls in global hippocampal transcriptional responses. An up-regulation of transcripts contributing directly or indirectly to neurogenesis and neuronal protection including, Ttr, Rab6, Gh, Prl, Ndufb9 and Ndufa6, was observed. Systems level analyses revealed a significant enrichment for neurogenesis, neuron morphogenesis- and cognitive functions-related biological process terms and pathways. This work further supports the hypothesis that acute stress mediates a positive action on the hippocampus favouring the formation and the preservation of neurons, which will be discussed in the context of current data from the literature.

Published

2016

2. Biomarkers of hippocampal gene expression in a mouse restraint chronic stress model.

Author

Ubaldi M, Ricciardelli E, Pasqualini L, Sannino G, Soverchia L, Ruggeri B, Falcinelli S, Renzi A, Ludka C, Ciccocioppo R, and Hardiman G

Subjects

Animals, Chronic Disease, Gene Expression Profiling, Male, Mice, Protein Array Analysis, RNA biosynthesis, RNA genetics, RNA, Messenger biosynthesis, RNA, Messenger genetics, Reproducibility of Results, Restraint, Physical, Biomarkers analysis, Gene Expression genetics, Hippocampus metabolism, Stress, Psychological genetics

Abstract

Objective: Acute stress provides many beneficial effects whereas chronic stress contributes to a variety of human health issues including anxiety, depression, gastrointestinal problems, cardiac disease, sleep disorders and obesity. The goal of this work was to identify, using a rodent model, hippocampal gene signatures associated with prolonged chronic stress representing candidate biomarkers and therapeutic targets for early diagnosis and pharmacological intervention for stress induced disease., Materials & Methods: Mice underwent 'restraint stress' over 7 consecutive days and hippocampal gene-expression changes were analyzed at 3, 12 and 24 h following the final restraint treatment., Results: Data indicated that mice exposed to chronic restraint stress exhibit a differential gene-expression profile compared with non-stressed controls. The greatest differences were observed 12 and 24 h following the final stress test., Conclusion: Our study indicated that Gpr88, Ttr, Gh and Tac1 mRNAs were modulated in mice exposed to chronic restraint stress. These transcripts represent a panel of biomarkers and druggable targets for further analysis in the context of chronic stress associated disease in humans.

Published

2015