Oncogenic PIK3CA induces centrosome amplification and tolerance to genome doubling

Berenjeno, Inma M.; Piñeiro, Roberto; Castillo, Sandra D.; Pearce, Wayne; McGranahan, Nicholas; Dewhurst, Sally M.; Méniel, Valérie S.; Birkbak, Nicolai J.; Lau, Evelyn; Sansregret, Laurent; Morelli, Daniele; Kanu, Nnennaya; Srinivas, Shankar; Graupera, Mariona; Parker, Victoria; Montgomery, Karen G.; Moniz, Larissa S.; Scudamore, Cheryl L.; Phillips, Wayne A.; Semple, Robert K.; Clarke, Alan Richard; Swanton, Charles; Vanhaesebroeck, Bart

doi:10.1038/s41467-017-02002-4

Cited by 62 publications

(68 citation statements)

References 58 publications

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“…High-depth transcriptomics confirmed that heterozygosity for PIK3CA H1047R fails to induce widespread substantial transcriptional remodeling, whether chronically modelled in CRISPR-edited iPSCs or acutely induced in mouse embryonic fibroblasts (MEFs) by Cre expression, despite induction of canonical PI3K pathway activation in both cases (current study and Ref. ( 5, 28, 48 )). Similarly, iPSCs with heterozygous expression of PIK3CA E418K , a “non-hotspot” mutation, were transcriptionally indistinguishable from their isogenic wild-type controls.…”

Section: Discussionsupporting

confidence: 56%

NODAL/TGFβ signalling mediates the self-sustained stemness induced by PIK3CA^H1047R homozygosity in pluripotent stem cells

Madsen

Longden

Knox

et al. 2019

Preprint

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AbstractActivating PIK3CA mutations are known “drivers” of human cancer and developmental overgrowth syndromes. We recently demonstrated that the “hotspot” PIK3CAH1047R variant exerts unexpected allele dose-dependent effects on stemness in human pluripotent stem cells (hPSCs). In the present study, we combine high-depth transcriptomics, total proteomics and reverse-phase protein arrays to reveal potentially disease-related alterations in heterozygous cells, and to assess the contribution of activated TGFβ signalling to the stemness phenotype of PIK3CAH1047R homozygous cells. We demonstrate signalling rewiring as a function of oncogenic PI3K signalling dose, and provide experimental evidence that self-sustained stemness is causally related to enhanced autocrine NODAL/TGFβ signalling. A significant transcriptomic signature of TGFβ pathway activation in PIK3CAH1047R heterozygous was observed but was modest and was not associated with the stemness phenotype seen in homozygous mutants. Notably, the stemness gene expression in PIK3CAH1047R homozygous iPSCs was reversed by pharmacological inhibition of TGFβ signalling, but not by pharmacological PI3Kα pathway inhibition. Altogether, this provides the first in-depth analysis of PI3K signalling in human pluripotent stem cells and directly links dose-dependent PI3K activation to developmental NODAL/TGFβ signalling.

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Section: Discussionsupporting

confidence: 56%

NODAL/TGFβ signalling mediates the self-sustained stemness induced by PIK3CA^H1047R homozygosity in pluripotent stem cells

Madsen

Longden

Knox

et al. 2019

Preprint

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“…At present, it is not clear whether the observed defects in cell cycle progression are an artefact of forced overexpression of supra-physiologically active PI3K constructs, or whether this would also occur upon endogenous oncogenic PIK3CA activation. In this regard, we did not find evidence for cell cycle blockade in MEFs expressing an endogenous heterozygous PIK3CA H1047R allele [72]. Oncogenic activation of PI3K signaling has also been shown to elicit senescence in some cellular contexts [91,95,96] but not in others [72,97].…”

Section: Cell Cycle Block By Constitutive Pi3k (Over)activation?contrasting

confidence: 69%

“…Our demonstration that physiological induction of PIK3CA H1047R (i.e. in the heterozygous state and expressed from the endogenous promotor) can induce centrosome amplification and aneuploidy [72] more firmly establishes this biological role of mutant PI3K. In fact, PI3K also controls tetraploidization under physiological conditions: in rodents, modulation of insulin concentration, and consequently Akt/PKB activity, orients hepatocytes into a specific cell cycle program, leading to the generation of binucleated tetraploid cells [80].…”

Section: Pik3ca/aktmentioning

confidence: 63%

“…We recently reported that expression of the PIK3CA H1047R mutant can lead to centrosome amplification (in mouse embryonic fibroblasts (MEFs), the MCF10A immortalised breast cell line and in mouse tissues) and increased in vitro tolerance to WGD (in MEFs) [72], indicating that PI3K activation might be involved in CIN. Signalling pathways involved in PIK3CA H1047R -driven centrosome amplification include AKT, ROCK and CDK2/Cyclin E-nucleophosmin [72]. Overexpression of Akt/PKB has been shown to induce supernumerary centrosomes/aneuploidy in cell lines [73,74].…”

Section: Pik3ca/aktmentioning

confidence: 99%

“…PIK3CA mutation is very common in breast cancer, where it appears to be an early, clonal event [72]. Moreover, in genome-doubled breast cancers, the majority of PIK3CA mutations precede the genome duplication event, with PIK3CA mutations showing a tendency to be mutually exclusive with mutations in TP53 [72], a known tolerance mechanism towards genome doubling [41][42][43]. These data indicate a potential role of PIK3CA mutation as a tolerance mechanism for genome doubling in breast cancer, independent of the p53 pathway.…”

Section: Pik3ca/aktmentioning

confidence: 99%

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Perspective: Potential Impact and Therapeutic Implications of Oncogenic PI3K Activation on Chromosomal Instability

Vanhaesebroeck

Bilanges

Madsen

et al. 2019

Preprint

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Genetic activation of the class I PI3K pathway is very common in cancer. This mostly results from oncogenic mutations in PIK3CA, the gene encoding the ubiquitously expressed PI3Kα catalytic subunit, or from inactivation of the PTEN tumour suppressor, a lipid phosphatase which opposes class I PI3K signalling. The clinical impact of PI3K inhibitors in solid tumours, aimed at dampening cancercell-intrinsic PI3K activity, has thus far been limited. Challenges include poor drug tolerance, incomplete pathway inhibition and pre-existing or inhibitor-induced resistance. The principle of pharmacologically targeting cancer-cell-intrinsic PI3K activity also assumes that all cancer-promoting effects of PI3K activation are reversible, which might not be the case. Emerging evidence suggests that genetic PI3K pathway activation can induce and/or allow cells to tolerate chromosomal instability, which -even if occurring in a low fraction of the cell population -might help to facilitate and/or drive tumour evolution. While it is clear that such genomic events cannot be reverted pharmacologically, a role for PI3K in the regulation of chromosomal instability could be exploited by using PI3K pathway inhibitors to prevent those genomic events from happening and/or reduce the pace at which they are occurring, thereby dampening cancer development or progression. Such an impact might be most effective in tumours with clonal PI3K activation and achievable at lower drug doses than the maximum-tolerated doses of PI3K inhibitors currently used in the clinic.

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Mitochondrial respiration inhibitor enhances the anti-tumor effect of high-dose ascorbic acid in castration-resistant prostate cancer

et al. 2022

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Oncogenic PIK3CA induces centrosome amplification and tolerance to genome doubling

Cited by 62 publications

References 58 publications

NODAL/TGFβ signalling mediates the self-sustained stemness induced by PIK3CA^H1047R homozygosity in pluripotent stem cells

NODAL/TGFβ signalling mediates the self-sustained stemness induced by PIK3CA^H1047R homozygosity in pluripotent stem cells

Perspective: Potential Impact and Therapeutic Implications of Oncogenic PI3K Activation on Chromosomal Instability

Mitochondrial respiration inhibitor enhances the anti-tumor effect of high-dose ascorbic acid in castration-resistant prostate cancer

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Oncogenic PIK3CA induces centrosome amplification and tolerance to genome doubling

Cited by 62 publications

References 58 publications

NODAL/TGFβ signalling mediates the self-sustained stemness induced by PIK3CAH1047R homozygosity in pluripotent stem cells

NODAL/TGFβ signalling mediates the self-sustained stemness induced by PIK3CAH1047R homozygosity in pluripotent stem cells

Perspective: Potential Impact and Therapeutic Implications of Oncogenic PI3K Activation on Chromosomal Instability

Mitochondrial respiration inhibitor enhances the anti-tumor effect of high-dose ascorbic acid in castration-resistant prostate cancer

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Product

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NODAL/TGFβ signalling mediates the self-sustained stemness induced by PIK3CA^H1047R homozygosity in pluripotent stem cells

NODAL/TGFβ signalling mediates the self-sustained stemness induced by PIK3CA^H1047R homozygosity in pluripotent stem cells