Keyword search (3,448 papers available)


Discovery of fifteen new geroprotective plant extracts and identification of cellular processes they affect to prolong the chronological lifespan of budding yeast.

Author(s): Dakik P, Rodriguez MEL, Junio JAB, Mitrofanova D, Medkour Y, Tafakori T, Taifour T, Lutchman V, Samson E, Arlia-Ciommo A, Rukundo B, Simard ...

Oncotarget. 2020 Jun 09;11(23):2182-2203 Authors: Dakik P, Rodriguez MEL, Junio JAB, Mitrofanova D, Medkour Y, Tafakori T, Taifour T, Lutchman V, Samson E, Arlia-Ciommo A, Rukundo B, Simard É...

Article GUID: 32577164
Mechanisms by which PE21, an extract from the white willow Salix alba, delays chronological aging in budding yeast.

Author(s): Medkour Y, Mohammad K, Arlia-Ciommo A, Svistkova V, Dakik P, Mitrofanova D, Rodriguez MEL, Junio JAB, Taifour T, Escudero P, Goltsios FF, So...

Oncotarget. 2019 Oct 08;10(56):5780-5816 Authors: Medkour Y, Mohammad K, Arlia-Ciommo A, Svistkova V, Dakik P, Mitrofanova D, Rodriguez MEL, Junio JAB, Taifour T, Escudero P, Goltsios FF, Soodbakh...

Article GUID: 31645900
Lipid metabolism and transport define longevity of the yeast Saccharomyces cerevisiae.

Author(s): Mitrofanova D, Dakik P, McAuley M, Medkour Y, Mohammad K, Titorenko VI

Front Biosci (Landmark Ed). 2018 Jan 01;23:1166-1194 Authors: Mitrofanova D, Dakik P, McAuley M, Medkour Y, Mohammad K, Titorenko VI

Article GUID: 28930594
Some Metabolites Act as Second Messengers in Yeast Chronological Aging.

Author(s): Mohammad K, Dakik P, Medkour Y, McAuley M, Mitrofanova D, Titorenko VI

Int J Mol Sci. 2018 Mar 15;19(3): Authors: Mohammad K, Dakik P, Medkour Y, McAuley M, Mitrofanova D, Titorenko VI

Article GUID: 29543708
Yeast Cells Exposed to Exogenous Palmitoleic Acid Either Adapt to Stress and Survive or Commit to Regulated Liponecrosis and Die.

Author(s): Mohammad K, Dakik P, Medkour Y, McAuley M, Mitrofanova D, Titorenko VI

Oxid Med Cell Longev. 2018;2018:3074769 Authors: Mohammad K, Dakik P, Medkour Y, McAuley M, Mitrofanova D, Titorenko VI

Article GUID: 29636840
Pairwise combinations of chemical compounds that delay yeast chronological aging through different signaling pathways display synergistic effects on the extent of aging delay.

Author(s): Dakik P, McAuley M, Chancharoen M, Mitrofanova D, Lozano Rodriguez ME, Baratang Junio JA, Lutchman V, Cortes B, Simard É, Titorenko VI

Oncotarget. 2019 Jan 08;10(3):313-338 Authors: Dakik P, McAuley M, Chancharoen M, Mitrofanova D, Lozano Rodriguez ME, Baratang Junio JA, Lutchman V, Cortes B, Simard É, Titorenko VI

Article GUID: 30719227
Quiescence Entry, Maintenance, and Exit in Adult Stem Cells.

Author(s): Mohammad K, Dakik P, Medkour Y, Mitrofanova D, Titorenko VI

Int J Mol Sci. 2019 May 01;20(9): Authors: Mohammad K, Dakik P, Medkour Y, Mitrofanova D, Titorenko VI

Article GUID: 31052375
Mechanisms Through Which Some Mitochondria-Generated Metabolites Act as Second Messengers That Are Essential Contributors to the Aging Process in Eukaryotes Across Phyla.

Author(s): Dakik P, Medkour Y, Mohammad K, Titorenko VI

Front Physiol. 2019;10:461 Authors: Dakik P, Medkour Y, Mohammad K, Titorenko VI

Article GUID: 31057428
Title:Mechanisms by which PE21, an extract from the white willow Salix alba, delays chronological aging in budding yeast.
Authors:Medkour YMohammad KArlia-Ciommo ASvistkova VDakik PMitrofanova DRodriguez MELJunio JABTaifour TEscudero PGoltsios FFSoodbakhsh SMaalaoui HSimard ÉTitorenko VI
Link:https://www.ncbi.nlm.nih.gov/pubmed/31645900?dopt=Abstract
DOI:10.18632/oncotarget.27209
Category:Oncotarget
PMID:31645900
Dept Affiliation: BIOLOGY
1 Department of Biology, Concordia University, Montreal, Quebec H4B 1R6, Canada.
2 Idunn Technologies Inc., Rosemere, Quebec J7A 4A5, Canada.

Description:

Mechanisms by which PE21, an extract from the white willow Salix alba, delays chronological aging in budding yeast.

Oncotarget. 2019 Oct 08;10(56):5780-5816

Authors: Medkour Y, Mohammad K, Arlia-Ciommo A, Svistkova V, Dakik P, Mitrofanova D, Rodriguez MEL, Junio JAB, Taifour T, Escudero P, Goltsios FF, Soodbakhsh S, Maalaoui H, Simard É, Titorenko VI

Abstract

We have recently found that PE21, an extract from the white willow Salix alba, slows chronological aging and prolongs longevity of the yeast Saccharomyces cerevisiae more efficiently than any of the previously known pharmacological interventions. Here, we investigated mechanisms through which PE21 delays yeast chronological aging and extends yeast longevity. We show that PE21 causes a remodeling of lipid metabolism in chronologically aging yeast, thereby instigating changes in the concentrations of several lipid classes. We demonstrate that such changes in the cellular lipidome initiate three mechanisms of aging delay and longevity extension. The first mechanism through which PE21 slows aging and prolongs longevity consists in its ability to decrease the intracellular concentration of free fatty acids. This postpones an age-related onset of liponecrotic cell death promoted by excessive concentrations of free fatty acids. The second mechanism of aging delay and longevity extension by PE21 consists in its ability to decrease the concentrations of triacylglycerols and to increase the concentrations of glycerophospholipids within the endoplasmic reticulum membrane. This activates the unfolded protein response system in the endoplasmic reticulum, which then decelerates an age-related decline in protein and lipid homeostasis and slows down an aging-associated deterioration of cell resistance to stress. The third mechanisms underlying aging delay and longevity extension by PE21 consists in its ability to change lipid concentrations in the mitochondrial membranes. This alters certain catabolic and anabolic processes in mitochondria, thus amending the pattern of aging-associated changes in several key aspects of mitochondrial functionality.

PMID: 31645900 [PubMed]