Statin-induced GGPP depletion blocks macropinocytosis and starves cells with oncogenic defects

Zhihua Jiao, Huaqing Cai, Yu Long, Orit Katarina Sirka, Veena Padmanaban, Andrew J. Ewald, Peter N. Devreotes

Research output: Contribution to journalArticlepeer-review

Abstract

Cancer cells display novel characteristics which can be exploited for therapeutic advantage. Isolated studies have shown that 1) the mevalonate pathway and 2) increased macropinocytosis are important in tumorigenesis, but a connection between these two observations has not been envisioned. A library screen for compounds that selectively killed Dictyostelium pten cells identified pitavastatin. Pitavastatin also killed human breast epithelial MCF10A cells lacking PTEN or expressing K-RasG12V, as well as mouse tumor organoids. The selective killing of cells with oncogenic defects was traced to GGPP (geranylgeranyl diphosphate) depletion. Disruption of GGPP synthase in Dictyostelium revealed that GGPP is needed for pseudopod extension and macropinocytosis. Fluid-phase uptake through macropinocytosis is lower in PTEN-deleted cells and, as reported previously, higher in cells expressing activated Ras. Nevertheless, uptake was more sensitive to pitavastatin in cells with either of these oncogenic mutations than in wild-type cells. Loading the residual macropinosomes after pitavastatin with high concentrations of protein mitigated the cell death, indicating that defective macropinocytosis leads to amino acid starvation. Our studies suggest that the dependence of cancer cells on the mevalonate pathway is due to the role of GGPP in macropinocytosis and the reliance of these cells on macropinocytosis for nutrient uptake. Thus, inhibition of the networks mediating these processes is likely to be effective in cancer intervention.

Original languageEnglish (US)
Pages (from-to)4158-4168
Number of pages11
JournalProceedings of the National Academy of Sciences of the United States of America
Volume117
Issue number8
DOIs
StatePublished - Feb 25 2020

Keywords

  • Cancer
  • Chemotaxis
  • Mevalonate pathway
  • Small GTPases
  • Tumor organoids

ASJC Scopus subject areas

  • General

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