Literature DB >> 35726024

Adaptive stimulation of macropinocytosis overcomes aspartate limitation in cancer cells under hypoxia.

Javier Garcia-Bermudez1,2, Michael A Badgley3, Sheela Prasad3, Lou Baudrier1, Yuyang Liu1, Konnor La1, Mariluz Soula1, Robert T Williams1, Norihiro Yamaguchi4, Rosa F Hwang5, Laura J Taylor3, Elisa de Stanchina6, Bety Rostandy7, Hanan Alwaseem7, Henrik Molina7, Dafna Bar-Sagi8, Kıvanç Birsoy9.   

Abstract

Stress-adaptive mechanisms enable tumour cells to overcome metabolic constraints under nutrient and oxygen shortage. Aspartate is an endogenous metabolic limitation under hypoxic conditions, but the nature of the adaptive mechanisms that contribute to aspartate availability and hypoxic tumour growth are poorly understood. Here we identify GOT2-catalysed mitochondrial aspartate synthesis as an essential metabolic dependency for the proliferation of pancreatic tumour cells under hypoxic culture conditions. In contrast, GOT2-catalysed aspartate synthesis is dispensable for pancreatic tumour formation in vivo. The dependence of pancreatic tumour cells on aspartate synthesis is bypassed in part by a hypoxia-induced potentiation of extracellular protein scavenging via macropinocytosis. This effect is mutant KRAS dependent, and is mediated by hypoxia-inducible factor 1 (HIF1A) and its canonical target carbonic anhydrase-9 (CA9). Our findings reveal high plasticity of aspartate metabolism and define an adaptive regulatory role for macropinocytosis by which mutant KRAS tumours can overcome nutrient deprivation under hypoxic conditions.
© 2022. The Author(s), under exclusive licence to Springer Nature Limited.

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Year:  2022        PMID: 35726024     DOI: 10.1038/s42255-022-00583-z

Source DB:  PubMed          Journal:  Nat Metab        ISSN: 2522-5812


  48 in total

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Journal:  Genes Dev       Date:  2013-07-01       Impact factor: 11.361

3.  Oncogenic Kras maintains pancreatic tumors through regulation of anabolic glucose metabolism.

Authors:  Haoqiang Ying; Alec C Kimmelman; Costas A Lyssiotis; Sujun Hua; Gerald C Chu; Eliot Fletcher-Sananikone; Jason W Locasale; Jaekyoung Son; Hailei Zhang; Jonathan L Coloff; Haiyan Yan; Wei Wang; Shujuan Chen; Andrea Viale; Hongwu Zheng; Ji-hye Paik; Carol Lim; Alexander R Guimaraes; Eric S Martin; Jeffery Chang; Aram F Hezel; Samuel R Perry; Jian Hu; Boyi Gan; Yonghong Xiao; John M Asara; Ralph Weissleder; Y Alan Wang; Lynda Chin; Lewis C Cantley; Ronald A DePinho
Journal:  Cell       Date:  2012-04-27       Impact factor: 41.582

4.  Pancreatic cancers require autophagy for tumor growth.

Authors:  Shenghong Yang; Xiaoxu Wang; Gianmarco Contino; Marc Liesa; Ergun Sahin; Haoqiang Ying; Alexandra Bause; Yinghua Li; Jayne M Stommel; Giacomo Dell'antonio; Josef Mautner; Giovanni Tonon; Marcia Haigis; Orian S Shirihai; Claudio Doglioni; Nabeel Bardeesy; Alec C Kimmelman
Journal:  Genes Dev       Date:  2011-03-15       Impact factor: 11.361

Review 5.  The biology of cancer: metabolic reprogramming fuels cell growth and proliferation.

Authors:  Ralph J DeBerardinis; Julian J Lum; Georgia Hatzivassiliou; Craig B Thompson
Journal:  Cell Metab       Date:  2008-01       Impact factor: 27.287

Review 6.  The Frequency of Ras Mutations in Cancer.

Authors:  Ian A Prior; Fiona E Hood; James L Hartley
Journal:  Cancer Res       Date:  2020-03-24       Impact factor: 12.701

7.  Inhibition of Hedgehog signaling enhances delivery of chemotherapy in a mouse model of pancreatic cancer.

Authors:  Kenneth P Olive; Michael A Jacobetz; Christian J Davidson; Aarthi Gopinathan; Dominick McIntyre; Davina Honess; Basetti Madhu; Mae A Goldgraben; Meredith E Caldwell; David Allard; Kristopher K Frese; Gina Denicola; Christine Feig; Chelsea Combs; Stephen P Winter; Heather Ireland-Zecchini; Stefanie Reichelt; William J Howat; Alex Chang; Mousumi Dhara; Lifu Wang; Felix Rückert; Robert Grützmann; Christian Pilarsky; Kamel Izeradjene; Sunil R Hingorani; Pearl Huang; Susan E Davies; William Plunkett; Merrill Egorin; Ralph H Hruban; Nigel Whitebread; Karen McGovern; Julian Adams; Christine Iacobuzio-Donahue; John Griffiths; David A Tuveson
Journal:  Science       Date:  2009-05-21       Impact factor: 47.728

8.  Aspartate is a limiting metabolite for cancer cell proliferation under hypoxia and in tumours.

Authors:  Javier Garcia-Bermudez; Lou Baudrier; Konnor La; Xiphias Ge Zhu; Justine Fidelin; Vladislav O Sviderskiy; Thales Papagiannakopoulos; Henrik Molina; Matija Snuderl; Caroline A Lewis; Richard L Possemato; Kıvanç Birsoy
Journal:  Nat Cell Biol       Date:  2018-06-25       Impact factor: 28.824

9.  Glutamine supports pancreatic cancer growth through a KRAS-regulated metabolic pathway.

Authors:  Jaekyoung Son; Costas A Lyssiotis; Haoqiang Ying; Xiaoxu Wang; Sujun Hua; Matteo Ligorio; Rushika M Perera; Cristina R Ferrone; Edouard Mullarky; Ng Shyh-Chang; Ya'an Kang; Jason B Fleming; Nabeel Bardeesy; John M Asara; Marcia C Haigis; Ronald A DePinho; Lewis C Cantley; Alec C Kimmelman
Journal:  Nature       Date:  2013-03-27       Impact factor: 49.962

10.  Macropinocytosis of protein is an amino acid supply route in Ras-transformed cells.

Authors:  Cosimo Commisso; Shawn M Davidson; Rengin G Soydaner-Azeloglu; Seth J Parker; Jurre J Kamphorst; Sean Hackett; Elda Grabocka; Michel Nofal; Jeffrey A Drebin; Craig B Thompson; Joshua D Rabinowitz; Christian M Metallo; Matthew G Vander Heiden; Dafna Bar-Sagi
Journal:  Nature       Date:  2013-05-12       Impact factor: 49.962
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  2 in total

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Journal:  Elife       Date:  2022-07-11       Impact factor: 8.713

2.  In vivo isotope tracing reveals a requirement for the electron transport chain in glucose and glutamine metabolism by tumors.

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Journal:  Sci Adv       Date:  2022-08-31       Impact factor: 14.957
  2 in total

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