Your search keyword '"Stirpe, Mariarita"' showing total 4 results

1. Increased levels of RNA oxidation enhance the reversion frequency in aging pro-apoptotic yeast mutants.

Author

Stirpe M, Palermo V, Ferrari M, Mroczek S, Kufel J, Falcone C, and Mazzoni C

Subjects

Aging pathology, Mutation, Oxidation-Reduction, Reactive Oxygen Species metabolism, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Aging genetics, Apoptosis genetics, Oxidative Stress genetics, RNA, Messenger metabolism

Abstract

Despite recent advances in understanding the complexity of RNA processes, regulation of the metabolism of oxidized cellular RNAs and the mechanisms through which oxidized ribonucleotides affect mRNA translation, and consequently cell viability, are not well characterized. We show here that the level of oxidized RNAs is markedly increased in a yeast decapping Kllsm4Δ1 mutant, which accumulates mRNAs, ages much faster that the wild type strain and undergoes regulated-cell-death. We also found that in Kllsm4Δ1 cells the mutation rate increases during chronological life span indicating that the capacity to handle oxidized RNAs in yeast declines with aging. Lowering intracellular ROS levels by antioxidants recovers the wild-type phenotype of mutant cells, including reduced amount of oxidized RNAs and lower mutation rate. Since mRNA oxidation was reported to occur in different neurodegenerative diseases, decapping-deficient cells may represent a useful tool for deciphering molecular mechanisms of cell response to such conditions, providing new insights into RNA modification-based pathogenesis.

Published

2017

2. NEM1 acts as a suppressor of apoptotic phenotypes in LSM4 yeast mutants.

Author

Palermo V, Stirpe M, Torella M, Falcone C, and Mazzoni C

Subjects

Gene Expression, Genetic Complementation Test, Kluyveromyces genetics, Nuclear Envelope metabolism, Nuclear Proteins genetics, Phospholipids biosynthesis, Saccharomyces cerevisiae Proteins genetics, Apoptosis, Gene Deletion, Kluyveromyces physiology, Nuclear Proteins metabolism, Saccharomyces cerevisiae Proteins metabolism

Abstract

Saccharomyces cerevisiae mutants in the essential gene LSM4, involved in messenger RNA decapping, and expressing a truncated form of the LSM4 gene of the yeast Kluyveromyces lactis (Kllsm4Δ1), show premature aging accompanied by the presence of typical markers of apoptosis and high sensitivity to oxidative stressing agents. We isolated multicopy extragenic suppressors of these defects, transforming the Kllsm4Δ1 mutant with a yeast DNA library and selecting clones showing resistance to acetic acid. Here we present one of these clones, carrying a DNA fragment containing the NEM1 gene (Nuclear Envelope Morphology protein 1), which encodes the catalytic subunit of the Nem1p-Spo7p phosphatase holoenzyme. Nem1p regulates nuclear growth by controlling phospholipid biosynthesis and it is required for normal nuclear envelope morphology and sporulation. The data presented here correlate the mRNA metabolism with the biosynthesis of phospholipids and with the functionality of the endoplasmic reticulum., (© FEMS 2015. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2015

3. Annurca apple (M. pumila Miller cv Annurca) extracts act against stress and ageing in S. cerevisiae yeast cells.

Author

Stirpe, Mariarita, Palermo, Vanessa, Bianchi, Michele Maria, Silvestri, Romano, Falcone, Claudio, Tenore, Giancarlo, Novellino, Ettore, and Mazzoni, Cristina

Subjects

REACTIVE oxygen species, AGING, ALTERNATIVE medicine, ANTIOXIDANTS, APPLES, CELL physiology, LONGEVITY, MICROSCOPY, MITOCHONDRIA, PROBABILITY theory, RESEARCH funding, STAINS & staining (Microscopy), YEAST, PLANT extracts, OXIDATIVE stress, DESCRIPTIVE statistics, FLUORESCENT dyes, IN vitro studies

Abstract

Background: During the past years, a number of studies have demonstrated the positive effect of apple on ageing and different diseases such as cancer, degenerative and cardiovascular diseases. The unicellular yeast Saccharomyces cerevisiae represents a simple eukaryotic model to study the effects of different compounds on lifespan. We previously demonstrated that apple extracts have anti-ageing effects in this organism because of their antioxidant properties. In particular, the effect is related to the presence in this fruit of polyphenols, which give a large contribution to the antioxidant activity of apples. Methods: We we used a clonogenic assay to assess the viability and the resistance to oxidative stress of S. cerevisiae cells in the presence of Annurca apple extracts. The production of ROS and the aberrant morphology of nuclei were detected by cell staining with the fluorescent dies Dihydrorhodamine 123 and DAPI, respectively. Mitochondrial morphology was analyzed by following the localization of the mito-GFP protein into the mitochondrial matrix. Results: In this study, we show that apple extracts can increase yeast lifespan, reduce the levels of reactive oxygen species and cell sensitivity to oxidative stress, and prevent nuclei and mitochondria fragmentation protecting cells from regulated cell death. Conclusions: In this paper, by using the yeast S. cerevisiae as a model, we have demonstrated that Annurca extracts possess antioxidant properties thanks to which the extracts can reduce the intracellular ROS levels and have anti-apoptotic functions thus prolonging cell lifespan. These results contribute to knowledge on the effects of natural compounds on ageing and support the use of yeast as a model organism for the development of simple tests to assess the effectiveness of bioactive substances from natural sources. [ABSTRACT FROM AUTHOR]

Published

2017

4. Annurca apple (M. pumila Miller cv Annurca) extracts act against stress and ageing in S. cerevisiae yeast cells

Author

Ettore Novellino, Mariarita Stirpe, Romano Silvestri, Vanessa Palermo, Michele M. Bianchi, Cristina Mazzoni, Gian Carlo Tenore, Claudio Falcone, Stirpe, Mariarita, Palermo, Vanessa, Bianchi, Michele Maria, Silvestri, Romano, Falcone, Claudio, Tenore, GIAN CARLO, Novellino, Ettore, and Mazzoni, Cristina

Subjects

Polyphenol, 0301 basic medicine, Aging, Malus, Antioxidant, medicine.medical_treatment, anti-oxidant, apoptosis, fruit, mitochondria, polyphenols, ROS, Saccharomyces cerevisiae, Mitochondrion, Biology, medicine.disease_cause, Models, Biological, Antioxidants, Plant Extract, 03 medical and health sciences, medicine, Humans, Fragmentation (cell biology), chemistry.chemical_classification, Reactive oxygen species, 030102 biochemistry & molecular biology, Plant Extracts, Apoptosi, Oxidative Stre, lcsh:Other systems of medicine, General Medicine, lcsh:RZ201-999, biology.organism_classification, Yeast, Malu, Oxidative Stress, 030104 developmental biology, chemistry, Biochemistry, Complementary and alternative medicine, Reactive Oxygen Species, Reactive Oxygen Specie, Oxidative stress, Research Article, Human

Abstract

Background During the past years, a number of studies have demonstrated the positive effect of apple on ageing and different diseases such as cancer, degenerative and cardiovascular diseases. The unicellular yeast Saccharomyces cerevisiae represents a simple eukaryotic model to study the effects of different compounds on lifespan. We previously demonstrated that apple extracts have anti-ageing effects in this organism because of their antioxidant properties. In particular, the effect is related to the presence in this fruit of polyphenols, which give a large contribution to the antioxidant activity of apples. Methods We we used a clonogenic assay to assess the viability and the resistance to oxidative stress of S. cerevisiae cells in the presence of Annurca apple extracts. The production of ROS and the aberrant morphology of nuclei were detected by cell staining with the fluorescent dies Dihydrorhodamine 123 and DAPI, respectively. Mitochondrial morphology was analyzed by following the localization of the mito-GFP protein into the mitochondrial matrix. Results In this study, we show that apple extracts can increase yeast lifespan, reduce the levels of reactive oxygen species and cell sensitivity to oxidative stress, and prevent nuclei and mitochondria fragmentation protecting cells from regulated cell death. Conclusions In this paper, by using the yeast S. cerevisiae as a model, we have demonstrated that Annurca extracts possess antioxidant properties thanks to which the extracts can reduce the intracellular ROS levels and have anti-apoptotic functions thus prolonging cell lifespan. These results contribute to knowledge on the effects of natural compounds on ageing and support the use of yeast as a model organism for the development of simple tests to assess the effectiveness of bioactive substances from natural sources.