Plant PIEZO homologs modulate vacuole morphology during tip growth

Ivan Radin; Ryan A. Richardson; Joshua H. Coomey; Ethan R. Weiner; Carlisle S. Bascom; Ting Li; Magdalena Bezanilla; Elizabeth S. Haswell

doi:10.1126/science.abe6310

Plant PIEZO homologs modulate vacuole morphology during tip growth

Ivan Radin, Ryan A. Richardson, Joshua H. Coomey, Ethan R. Weiner, Carlisle S. Bascom, Ting Li, Magdalena Bezanilla, Elizabeth S. Haswell

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

61 Scopus citations

Abstract

In animals, PIEZOs are plasma membrane–localized cation channels involved in diverse mechanosensory processes. We investigated PIEZO function in tip-growing cells in the moss Physcomitrium patens and the flowering plant Arabidopsis thaliana. PpPIEZO1 and PpPIEZO2 redundantly contribute to the normal growth, size, and cytoplasmic calcium oscillations of caulonemal cells. Both PpPIEZO1 and PpPIEZO2 localized to vacuolar membranes. Loss-of-function, gain-of-function, and overexpression mutants revealed that moss PIEZO homologs promote increased complexity of vacuolar membranes through tubulation, internalization, and/or fission. Arabidopsis PIEZO1 also localized to the tonoplast and is required for vacuole tubulation in the tips of pollen tubes. We propose that in plant cells the tonoplast has more freedom of movement than the plasma membrane, making it a more effective location for mechanosensory proteins.

Original language	English
Pages (from-to)	586-590
Number of pages	5
Journal	Science
Volume	373
Issue number	6554
DOIs	https://doi.org/10.1126/science.abe6310
State	Published - Jul 30 2021

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title = "Plant PIEZO homologs modulate vacuole morphology during tip growth",

abstract = "In animals, PIEZOs are plasma membrane–localized cation channels involved in diverse mechanosensory processes. We investigated PIEZO function in tip-growing cells in the moss Physcomitrium patens and the flowering plant Arabidopsis thaliana. PpPIEZO1 and PpPIEZO2 redundantly contribute to the normal growth, size, and cytoplasmic calcium oscillations of caulonemal cells. Both PpPIEZO1 and PpPIEZO2 localized to vacuolar membranes. Loss-of-function, gain-of-function, and overexpression mutants revealed that moss PIEZO homologs promote increased complexity of vacuolar membranes through tubulation, internalization, and/or fission. Arabidopsis PIEZO1 also localized to the tonoplast and is required for vacuole tubulation in the tips of pollen tubes. We propose that in plant cells the tonoplast has more freedom of movement than the plasma membrane, making it a more effective location for mechanosensory proteins.",

author = "Ivan Radin and Richardson, {Ryan A.} and Coomey, {Joshua H.} and Weiner, {Ethan R.} and Bascom, {Carlisle S.} and Ting Li and Magdalena Bezanilla and Haswell, {Elizabeth S.}",

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AU - Radin, Ivan

AU - Richardson, Ryan A.

AU - Coomey, Joshua H.

AU - Weiner, Ethan R.

AU - Bascom, Carlisle S.

AU - Li, Ting

AU - Bezanilla, Magdalena

AU - Haswell, Elizabeth S.

PY - 2021/7/30

Y1 - 2021/7/30

N2 - In animals, PIEZOs are plasma membrane–localized cation channels involved in diverse mechanosensory processes. We investigated PIEZO function in tip-growing cells in the moss Physcomitrium patens and the flowering plant Arabidopsis thaliana. PpPIEZO1 and PpPIEZO2 redundantly contribute to the normal growth, size, and cytoplasmic calcium oscillations of caulonemal cells. Both PpPIEZO1 and PpPIEZO2 localized to vacuolar membranes. Loss-of-function, gain-of-function, and overexpression mutants revealed that moss PIEZO homologs promote increased complexity of vacuolar membranes through tubulation, internalization, and/or fission. Arabidopsis PIEZO1 also localized to the tonoplast and is required for vacuole tubulation in the tips of pollen tubes. We propose that in plant cells the tonoplast has more freedom of movement than the plasma membrane, making it a more effective location for mechanosensory proteins.

AB - In animals, PIEZOs are plasma membrane–localized cation channels involved in diverse mechanosensory processes. We investigated PIEZO function in tip-growing cells in the moss Physcomitrium patens and the flowering plant Arabidopsis thaliana. PpPIEZO1 and PpPIEZO2 redundantly contribute to the normal growth, size, and cytoplasmic calcium oscillations of caulonemal cells. Both PpPIEZO1 and PpPIEZO2 localized to vacuolar membranes. Loss-of-function, gain-of-function, and overexpression mutants revealed that moss PIEZO homologs promote increased complexity of vacuolar membranes through tubulation, internalization, and/or fission. Arabidopsis PIEZO1 also localized to the tonoplast and is required for vacuole tubulation in the tips of pollen tubes. We propose that in plant cells the tonoplast has more freedom of movement than the plasma membrane, making it a more effective location for mechanosensory proteins.

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Plant PIEZO homologs modulate vacuole morphology during tip growth

Abstract

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