Directional Bleb Formation in Spherical Cells under Temperature Gradient

Kotaro Oyama; Tomomi Arai; Akira Isaka; Taku Sekiguchi; Hideki Itoh; Yusuke Seto; Makito Miyazaki; Takeshi Itabashi; Takashi Ohki; Madoka Suzuki; Shin'Ichi Ishiwata

doi:10.1016/j.bpj.2015.06.016

Directional Bleb Formation in Spherical Cells under Temperature Gradient

Kotaro Oyama^*, Tomomi Arai, Akira Isaka, Taku Sekiguchi, Hideki Itoh, Yusuke Seto, Makito Miyazaki, Takeshi Itabashi, Takashi Ohki, Madoka Suzuki, Shin'Ichi Ishiwata

^*Corresponding author for this work

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22 Citations (Scopus)

Abstract

Living cells sense absolute temperature and temporal changes in temperature using biological thermosensors such as ion channels. Here, we reveal, to our knowledge, a novel mechanism of sensing spatial temperature gradients within single cells. Spherical mitotic cells form directional membrane extensions (polar blebs) under sharp temperature gradients (≥∼0.065 °C μm<sup>-1</sup>; 1.3 °C temperature difference within a cell), which are created by local heating with a focused 1455-nm laser beam under an optical microscope. On the other hand, multiple nondirectional blebs are formed under gradual temperature gradients or uniform heating. During heating, the distribution of actomyosin complexes becomes inhomogeneous due to a break in the symmetry of its contractile force, highlighting the role of the actomyosin complex as a sensor of local temperature gradients.

Original language	English
Pages (from-to)	355-364
Number of pages	10
Journal	Biophysical Journal
Volume	109
Issue number	2
DOIs	https://doi.org/10.1016/j.bpj.2015.06.016
Publication status	Published - 2015 Jul 22

ASJC Scopus subject areas

Biophysics

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title = "Directional Bleb Formation in Spherical Cells under Temperature Gradient",

abstract = "Living cells sense absolute temperature and temporal changes in temperature using biological thermosensors such as ion channels. Here, we reveal, to our knowledge, a novel mechanism of sensing spatial temperature gradients within single cells. Spherical mitotic cells form directional membrane extensions (polar blebs) under sharp temperature gradients (≥∼0.065 °C μm-1; 1.3 °C temperature difference within a cell), which are created by local heating with a focused 1455-nm laser beam under an optical microscope. On the other hand, multiple nondirectional blebs are formed under gradual temperature gradients or uniform heating. During heating, the distribution of actomyosin complexes becomes inhomogeneous due to a break in the symmetry of its contractile force, highlighting the role of the actomyosin complex as a sensor of local temperature gradients.",

author = "Kotaro Oyama and Tomomi Arai and Akira Isaka and Taku Sekiguchi and Hideki Itoh and Yusuke Seto and Makito Miyazaki and Takeshi Itabashi and Takashi Ohki and Madoka Suzuki and Shin'Ichi Ishiwata",

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T1 - Directional Bleb Formation in Spherical Cells under Temperature Gradient

AU - Oyama, Kotaro

AU - Arai, Tomomi

AU - Isaka, Akira

AU - Sekiguchi, Taku

AU - Itoh, Hideki

AU - Seto, Yusuke

AU - Miyazaki, Makito

AU - Itabashi, Takeshi

AU - Ohki, Takashi

AU - Suzuki, Madoka

AU - Ishiwata, Shin'Ichi

PY - 2015/7/22

Y1 - 2015/7/22

N2 - Living cells sense absolute temperature and temporal changes in temperature using biological thermosensors such as ion channels. Here, we reveal, to our knowledge, a novel mechanism of sensing spatial temperature gradients within single cells. Spherical mitotic cells form directional membrane extensions (polar blebs) under sharp temperature gradients (≥∼0.065 °C μm-1; 1.3 °C temperature difference within a cell), which are created by local heating with a focused 1455-nm laser beam under an optical microscope. On the other hand, multiple nondirectional blebs are formed under gradual temperature gradients or uniform heating. During heating, the distribution of actomyosin complexes becomes inhomogeneous due to a break in the symmetry of its contractile force, highlighting the role of the actomyosin complex as a sensor of local temperature gradients.

AB - Living cells sense absolute temperature and temporal changes in temperature using biological thermosensors such as ion channels. Here, we reveal, to our knowledge, a novel mechanism of sensing spatial temperature gradients within single cells. Spherical mitotic cells form directional membrane extensions (polar blebs) under sharp temperature gradients (≥∼0.065 °C μm-1; 1.3 °C temperature difference within a cell), which are created by local heating with a focused 1455-nm laser beam under an optical microscope. On the other hand, multiple nondirectional blebs are formed under gradual temperature gradients or uniform heating. During heating, the distribution of actomyosin complexes becomes inhomogeneous due to a break in the symmetry of its contractile force, highlighting the role of the actomyosin complex as a sensor of local temperature gradients.

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Directional Bleb Formation in Spherical Cells under Temperature Gradient

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