Membrane curvature sensing of the lipid-anchored K-Ras small GTPase
Plasma membrane (PM) curvature defines cell shape and intracellular organelle morphologies and is a fundamental cell property. Growth/proliferation is more stimulated in flatter cells than the same cells in elongated shapes. PM-anchored K-Ras small GTPase regulates cell growth/proliferation and play...
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sg-ntu-dr.10356-1419492023-12-29T06:46:32Z Membrane curvature sensing of the lipid-anchored K-Ras small GTPase Liang, Hong Mu, Huanwen Jean-Francois, Frantz Lakshman, Bindu Sarkar-Banerjee, Suparna Zhuang, Yinyin Zeng, Yongpeng Gao, Weibo Zaske, Ana Maria Nissley, Dwight V. Gorfe, Alemayehu A. Zhao, Wenting Zhou, Yong School of Chemical and Biomedical Engineering School of Physical and Mathematical Sciences Engineering::Bioengineering Plasma Membrane (PM) Curvature GTPase Plasma membrane (PM) curvature defines cell shape and intracellular organelle morphologies and is a fundamental cell property. Growth/proliferation is more stimulated in flatter cells than the same cells in elongated shapes. PM-anchored K-Ras small GTPase regulates cell growth/proliferation and plays key roles in cancer. The lipid-anchored K-Ras form nanoclusters selectively enriched with specific phospholipids, such as phosphatidylserine (PS), for efficient effector recruitment and activation. K-Ras function may, thus, be sensitive to changing lipid distribution at membranes with different curvatures. Here, we used complementary methods to manipulate membrane curvature of intact/live cells, native PM blebs, and synthetic liposomes. We show that the spatiotemporal organization and signaling of an oncogenic mutant K-RasG12V favor flatter membranes with low curvature. Our findings are consistent with the more stimulated growth/proliferation in flatter cells. Depletion of endogenous PS abolishes K-RasG12V PM curvature sensing. In cells and synthetic bilayers, only mixed-chain PS species, but not other PS species tested, mediate K-RasG12V membrane curvature sensing. Thus, K-Ras nanoclusters act as relay stations to convert mechanical perturbations to mitogenic signaling. Published version 2020-06-12T03:24:35Z 2020-06-12T03:24:35Z 2019 Journal Article Liang, H., Mu, H., Jean-Francois, F., Lakshman, B., Sarkar-Banerjee, S., Zhuang, Y., . . . Zhou, Y. (2019). Membrane curvature sensing of the lipid-anchored K-Ras small GTPase. Life Science Alliance, 2(4), e201900343-. doi:10.26508/lsa.201900343 2575-1077 https://hdl.handle.net/10356/141949 10.26508/lsa.201900343 31296567 2-s2.0-85071195276 4 2 en Life Science Alliance © 2019 Liang et al. This article is available under a Creative Commons License (Attribution 4.0 International, as described at https://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Bioengineering Plasma Membrane (PM) Curvature GTPase Liang, Hong Mu, Huanwen Jean-Francois, Frantz Lakshman, Bindu Sarkar-Banerjee, Suparna Zhuang, Yinyin Zeng, Yongpeng Gao, Weibo Zaske, Ana Maria Nissley, Dwight V. Gorfe, Alemayehu A. Zhao, Wenting Zhou, Yong Membrane curvature sensing of the lipid-anchored K-Ras small GTPase |
| description |
Plasma membrane (PM) curvature defines cell shape and intracellular organelle morphologies and is a fundamental cell property. Growth/proliferation is more stimulated in flatter cells than the same cells in elongated shapes. PM-anchored K-Ras small GTPase regulates cell growth/proliferation and plays key roles in cancer. The lipid-anchored K-Ras form nanoclusters selectively enriched with specific phospholipids, such as phosphatidylserine (PS), for efficient effector recruitment and activation. K-Ras function may, thus, be sensitive to changing lipid distribution at membranes with different curvatures. Here, we used complementary methods to manipulate membrane curvature of intact/live cells, native PM blebs, and synthetic liposomes. We show that the spatiotemporal organization and signaling of an oncogenic mutant K-RasG12V favor flatter membranes with low curvature. Our findings are consistent with the more stimulated growth/proliferation in flatter cells. Depletion of endogenous PS abolishes K-RasG12V PM curvature sensing. In cells and synthetic bilayers, only mixed-chain PS species, but not other PS species tested, mediate K-RasG12V membrane curvature sensing. Thus, K-Ras nanoclusters act as relay stations to convert mechanical perturbations to mitogenic signaling. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Liang, Hong Mu, Huanwen Jean-Francois, Frantz Lakshman, Bindu Sarkar-Banerjee, Suparna Zhuang, Yinyin Zeng, Yongpeng Gao, Weibo Zaske, Ana Maria Nissley, Dwight V. Gorfe, Alemayehu A. Zhao, Wenting Zhou, Yong |
| format |
Article |
| author |
Liang, Hong Mu, Huanwen Jean-Francois, Frantz Lakshman, Bindu Sarkar-Banerjee, Suparna Zhuang, Yinyin Zeng, Yongpeng Gao, Weibo Zaske, Ana Maria Nissley, Dwight V. Gorfe, Alemayehu A. Zhao, Wenting Zhou, Yong |
| author_sort |
Liang, Hong |
| title |
Membrane curvature sensing of the lipid-anchored K-Ras small GTPase |
| title_short |
Membrane curvature sensing of the lipid-anchored K-Ras small GTPase |
| title_full |
Membrane curvature sensing of the lipid-anchored K-Ras small GTPase |
| title_fullStr |
Membrane curvature sensing of the lipid-anchored K-Ras small GTPase |
| title_full_unstemmed |
Membrane curvature sensing of the lipid-anchored K-Ras small GTPase |
| title_sort |
membrane curvature sensing of the lipid-anchored k-ras small gtpase |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/141949 |
| _version_ |
1787136477471178752 |