Meiotic cellular rejuvenation is coupled to nuclear remodeling in budding yeast

Grant A. King; Jay S. Goodman; Jennifer G. Schick; Keerthana Chetlapalli; Danielle M. Jorgens; Kent L. McDonald; Elçin Ünal

doi:10.7554/eLife.47156

Meiotic cellular rejuvenation is coupled to nuclear remodeling in budding yeast

Grant A. King, Jay S. Goodman, Jennifer G. Schick, Keerthana Chetlapalli, Danielle M. Jorgens, Kent L. McDonald, Elçin Ünal

Biomedical Engineering

Research output: Contribution to journal › Article › peer-review

32 Scopus citations

Abstract

Production of healthy gametes in meiosis relies on the quality control and proper distribution of both nuclear and cytoplasmic contents. Meiotic differentiation naturally eliminates age-induced cellular damage by an unknown mechanism. Using time-lapse fluorescence microscopy in budding yeast, we found that nuclear senescence factors – including protein aggregates, extrachromosomal ribosomal DNA circles, and abnormal nucleolar material – are sequestered away from chromosomes during meiosis II and subsequently eliminated. A similar sequestration and elimination process occurs for the core subunits of the nuclear pore complex in both young and aged cells. Nuclear envelope remodeling drives the formation of a membranous compartment containing the sequestered material. Importantly, de novo generation of plasma membrane is required for the sequestration event, preventing the inheritance of long-lived nucleoporins and senescence factors into the newly formed gametes. Our study uncovers a new mechanism of nuclear quality control and provides insight into its function in meiotic cellular rejuvenation.

Original language	English (US)
Article number	e47156
Journal	eLife
Volume	8
DOIs	https://doi.org/10.7554/eLife.47156
State	Published - Aug 2019

ASJC Scopus subject areas

Neuroscience(all)
Immunology and Microbiology(all)
Biochemistry, Genetics and Molecular Biology(all)

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10.7554/eLife.47156

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@article{7ec20f34f6da4e9a9e7211b82ef61566,

title = "Meiotic cellular rejuvenation is coupled to nuclear remodeling in budding yeast",

abstract = "Production of healthy gametes in meiosis relies on the quality control and proper distribution of both nuclear and cytoplasmic contents. Meiotic differentiation naturally eliminates age-induced cellular damage by an unknown mechanism. Using time-lapse fluorescence microscopy in budding yeast, we found that nuclear senescence factors – including protein aggregates, extrachromosomal ribosomal DNA circles, and abnormal nucleolar material – are sequestered away from chromosomes during meiosis II and subsequently eliminated. A similar sequestration and elimination process occurs for the core subunits of the nuclear pore complex in both young and aged cells. Nuclear envelope remodeling drives the formation of a membranous compartment containing the sequestered material. Importantly, de novo generation of plasma membrane is required for the sequestration event, preventing the inheritance of long-lived nucleoporins and senescence factors into the newly formed gametes. Our study uncovers a new mechanism of nuclear quality control and provides insight into its function in meiotic cellular rejuvenation.",

author = "King, {Grant A.} and Goodman, {Jay S.} and Schick, {Jennifer G.} and Keerthana Chetlapalli and Jorgens, {Danielle M.} and McDonald, {Kent L.} and El{\c c}in {\"U}nal",

note = "Funding Information: We thank Gloria Brar, Andrew Dillin, Rebecca Heald, Jasper Rine, James Olzmann, Jingxun Chen, Amy Tresenrider, Eric Sawyer, Tina Sing, Victoria Jorgensen, Cyrus Ruediger, Amy Eisenberg, and Helen Vander Wende for comments on this manuscript. This work was supported by funds from the Pew Charitable Trusts (00027344), Damon Runyon Cancer Research Foundation (35-15), National Institutes of Health (DP2 AG055946-01), and Glenn Foundation for Medical Research to E{\"U}; a National Science Foundation Graduate Research Fellowship (DGE 1752814) and National Institutes of Health Traineeship (T32 GM007232) to GAK; and a National Institutes of Health F31 Fellowship (F31AG060656) and National Institutes of Health Traineeship (T32 GM007127-40S1) to JSG. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. We thank Reena Zalpuri, Guangwei Min, and the University of California, Berkeley, Electron Microscope Lab for assistance in electron microscopy sample preparation and data collection. We acknowledge technical support from Eric Sawyer, Yuzhang Chen, Daniel Serwas, and George Otto. Publisher Copyright: {\textcopyright} King et al.",

year = "2019",

month = aug,

doi = "10.7554/eLife.47156",

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T1 - Meiotic cellular rejuvenation is coupled to nuclear remodeling in budding yeast

AU - King, Grant A.

AU - Goodman, Jay S.

AU - Schick, Jennifer G.

AU - Chetlapalli, Keerthana

AU - Jorgens, Danielle M.

AU - McDonald, Kent L.

AU - Ünal, Elçin

N1 - Funding Information: We thank Gloria Brar, Andrew Dillin, Rebecca Heald, Jasper Rine, James Olzmann, Jingxun Chen, Amy Tresenrider, Eric Sawyer, Tina Sing, Victoria Jorgensen, Cyrus Ruediger, Amy Eisenberg, and Helen Vander Wende for comments on this manuscript. This work was supported by funds from the Pew Charitable Trusts (00027344), Damon Runyon Cancer Research Foundation (35-15), National Institutes of Health (DP2 AG055946-01), and Glenn Foundation for Medical Research to EÜ; a National Science Foundation Graduate Research Fellowship (DGE 1752814) and National Institutes of Health Traineeship (T32 GM007232) to GAK; and a National Institutes of Health F31 Fellowship (F31AG060656) and National Institutes of Health Traineeship (T32 GM007127-40S1) to JSG. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. We thank Reena Zalpuri, Guangwei Min, and the University of California, Berkeley, Electron Microscope Lab for assistance in electron microscopy sample preparation and data collection. We acknowledge technical support from Eric Sawyer, Yuzhang Chen, Daniel Serwas, and George Otto. Publisher Copyright: © King et al.

PY - 2019/8

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N2 - Production of healthy gametes in meiosis relies on the quality control and proper distribution of both nuclear and cytoplasmic contents. Meiotic differentiation naturally eliminates age-induced cellular damage by an unknown mechanism. Using time-lapse fluorescence microscopy in budding yeast, we found that nuclear senescence factors – including protein aggregates, extrachromosomal ribosomal DNA circles, and abnormal nucleolar material – are sequestered away from chromosomes during meiosis II and subsequently eliminated. A similar sequestration and elimination process occurs for the core subunits of the nuclear pore complex in both young and aged cells. Nuclear envelope remodeling drives the formation of a membranous compartment containing the sequestered material. Importantly, de novo generation of plasma membrane is required for the sequestration event, preventing the inheritance of long-lived nucleoporins and senescence factors into the newly formed gametes. Our study uncovers a new mechanism of nuclear quality control and provides insight into its function in meiotic cellular rejuvenation.

AB - Production of healthy gametes in meiosis relies on the quality control and proper distribution of both nuclear and cytoplasmic contents. Meiotic differentiation naturally eliminates age-induced cellular damage by an unknown mechanism. Using time-lapse fluorescence microscopy in budding yeast, we found that nuclear senescence factors – including protein aggregates, extrachromosomal ribosomal DNA circles, and abnormal nucleolar material – are sequestered away from chromosomes during meiosis II and subsequently eliminated. A similar sequestration and elimination process occurs for the core subunits of the nuclear pore complex in both young and aged cells. Nuclear envelope remodeling drives the formation of a membranous compartment containing the sequestered material. Importantly, de novo generation of plasma membrane is required for the sequestration event, preventing the inheritance of long-lived nucleoporins and senescence factors into the newly formed gametes. Our study uncovers a new mechanism of nuclear quality control and provides insight into its function in meiotic cellular rejuvenation.

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Meiotic cellular rejuvenation is coupled to nuclear remodeling in budding yeast

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