Increased H+ efflux is sufficient to induce dysplasia and necessary for viability with oncogene expression

Increased H+ efflux is sufficient to induce dysplasia and necessary for viability with oncogene expression

Intracellular pH (pHi) dynamics is increasingly recognized as an important regulator of a range of normal and pathological cell behaviors. Notably, increased pHi is now acknowledged as a conserved characteristic of cancers and in cell models is confirmed to increase proliferation and migration as we...

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Main Authors: Bree K Grillo-Hill, Changhoon Choi, Maite Jimenez-Vidal, Diane L Barber
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2015-03-01
Series:eLife
Subjects:
cancer
intracellular pH
synthetic lethality
Online Access:https://elifesciences.org/articles/03270
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spelling doaj-7869bee00f034219bb705f7ab44f16f82021-05-04T23:42:29ZengeLife Sciences Publications LtdeLife2050-084X2015-03-01410.7554/eLife.03270Increased H+ efflux is sufficient to induce dysplasia and necessary for viability with oncogene expressionBree K Grillo-Hill0Changhoon Choi1Maite Jimenez-Vidal2Diane L Barber3Department of Cell and Tissue Biology, University of California, San Francisco, San Francisco, United StatesDepartment of Cell and Tissue Biology, University of California, San Francisco, San Francisco, United StatesDepartment of Cell and Tissue Biology, University of California, San Francisco, San Francisco, United StatesDepartment of Cell and Tissue Biology, University of California, San Francisco, San Francisco, United StatesIntracellular pH (pHi) dynamics is increasingly recognized as an important regulator of a range of normal and pathological cell behaviors. Notably, increased pHi is now acknowledged as a conserved characteristic of cancers and in cell models is confirmed to increase proliferation and migration as well as limit apoptosis. However, the significance of increased pHi for cancer in vivo remains unresolved. Using Drosophila melanogaster, we show that increased pHi is sufficient to induce dysplasia in the absence of other transforming cues and potentiates growth and invasion with oncogenic Ras. Using a genetically encoded biosensor we also confirm increased pHi in situ. Moreover, in Drosophila models and clonal human mammary cells we show that limiting H+ efflux with oncogenic Raf or Ras induces acidosis and synthetic lethality. Further, we show lethality in invasive primary tumor cell lines with inhibiting H+ efflux. Synthetic lethality with reduced H+ efflux and activated oncogene expression could be exploited therapeutically to restrain cancer progression while limiting off-target effects.https://elifesciences.org/articles/03270cancerintracellular pHsynthetic lethality
collection DOAJ
language English
format Article
sources DOAJ
author Bree K Grillo-Hill
Changhoon Choi
Maite Jimenez-Vidal
Diane L Barber
spellingShingle Bree K Grillo-Hill
Changhoon Choi
Maite Jimenez-Vidal
Diane L Barber
Increased H+ efflux is sufficient to induce dysplasia and necessary for viability with oncogene expression
eLife
cancer
intracellular pH
synthetic lethality
author_facet Bree K Grillo-Hill
Changhoon Choi
Maite Jimenez-Vidal
Diane L Barber
author_sort Bree K Grillo-Hill
title Increased H+ efflux is sufficient to induce dysplasia and necessary for viability with oncogene expression
title_short Increased H+ efflux is sufficient to induce dysplasia and necessary for viability with oncogene expression
title_full Increased H+ efflux is sufficient to induce dysplasia and necessary for viability with oncogene expression
title_fullStr Increased H+ efflux is sufficient to induce dysplasia and necessary for viability with oncogene expression
title_full_unstemmed Increased H+ efflux is sufficient to induce dysplasia and necessary for viability with oncogene expression
title_sort increased h+ efflux is sufficient to induce dysplasia and necessary for viability with oncogene expression
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2015-03-01
description Intracellular pH (pHi) dynamics is increasingly recognized as an important regulator of a range of normal and pathological cell behaviors. Notably, increased pHi is now acknowledged as a conserved characteristic of cancers and in cell models is confirmed to increase proliferation and migration as well as limit apoptosis. However, the significance of increased pHi for cancer in vivo remains unresolved. Using Drosophila melanogaster, we show that increased pHi is sufficient to induce dysplasia in the absence of other transforming cues and potentiates growth and invasion with oncogenic Ras. Using a genetically encoded biosensor we also confirm increased pHi in situ. Moreover, in Drosophila models and clonal human mammary cells we show that limiting H+ efflux with oncogenic Raf or Ras induces acidosis and synthetic lethality. Further, we show lethality in invasive primary tumor cell lines with inhibiting H+ efflux. Synthetic lethality with reduced H+ efflux and activated oncogene expression could be exploited therapeutically to restrain cancer progression while limiting off-target effects.
topic cancer
intracellular pH
synthetic lethality
url https://elifesciences.org/articles/03270
work_keys_str_mv AT breekgrillohill increasedheffluxissufficienttoinducedysplasiaandnecessaryforviabilitywithoncogeneexpression
AT changhoonchoi increasedheffluxissufficienttoinducedysplasiaandnecessaryforviabilitywithoncogeneexpression
AT maitejimenezvidal increasedheffluxissufficienttoinducedysplasiaandnecessaryforviabilitywithoncogeneexpression
AT dianelbarber increasedheffluxissufficienttoinducedysplasiaandnecessaryforviabilitywithoncogeneexpression
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