3-Phosphoinositide–Dependent Kinase 1 Potentiates Upstream Lesions on the Phosphatidylinositol 3-Kinase Pathway in Breast Carcinoma

Maurer, Matthew; Su, Tao; Saal, Lao H.; Koujak, Susan; Hopkins, Benjamin D.; Barkley, Christina R.; Wu, Jiaping; Nandula, Subhadra V.; Dutta, Bhaskar; Xie, Yuning; Chin, Y. Rebecca; Kim, Da In; Ferris, Jennifer S.; Gruvberger-Saal, Sofia K.; Laakso, Mervi; Wang, Xiaomei; Memeo, Lorenzo; Rojtman, Albert; Matos, Tulio; Yu, Jennifer; Cordon‐Cardo, Carlos; Isola, Jorma; Terry, Mary Beth; Toker, Alex; Mills, Gordon B.; Zhao, Jean J.; Murty, Vundavalli V.; Hibshoosh, Hanina; Parsons, Ramon

doi:10.1158/0008-5472.can-09-0820

Cited by 128 publications

(133 citation statements)

References 48 publications

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“…However, in this study, PIK3CA mutations [41] were found in both drug-sensitive and drug-resistant breast cancer cells ( 56] failed to demonstrate a correlation between the presence of PIK3CA mutations and expression of pAKT, nor did they provide evidence that such mutations shorten survival or elevate chemoresistance in breast tumor patients [55]. Consistently, recent evidence indicates that when PDK1, which is overexpressed in a large proportion of breast cancers [8], is activated by mutant PIK3CA, it phosphorylates SGK3 rather than AKT [56]. Therefore, PIK3CA mutations may at best contribute to drug-refractory AKT signaling and growth resistance, but are definitely not the sole causes for it.…”

Section: Discussionsupporting

confidence: 60%

“…All ErbB receptors except ErbB3 activate various downstream signaling molecules including the phosphatidylinositol 3-kinase (PI3K) and its downstream mediators AKT and mTOR, and the mitogen-activated protein kinase (MAPK) cascade proteins C-RAF, MEK, and ERK [7,8]. Both, the MAPK-and the PI3K signaling pathway, have been involved in resistance of tumor cells against ErbB-targeting drugs [9][10][11].…”

Section: Introductionmentioning

confidence: 99%

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The PI3 kinase/mTOR blocker NVP-BEZ235 overrides resistance against irreversible ErbB inhibitors in breast cancer cells

Brünner-Kubath

Shabbir

Saferding

et al. 2010

Breast Cancer Res Treat

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Resistance against first and second generation (irreversible) ErbB inhibitors is an unsolved problem in clinical oncology. The purpose of this study was to examine the effects of the irreversible ErbB inhibitors pelitinib and canertinib on growth of breast and ovarian cancer cells. Although in vitro growth-inhibitory effects of both drugs exceeded by far the effects of all reversible ErbB blockers tested (lapatinib, erlotinib, gefitinib), complete growth-inhibition was usually not reached. To define the mechanism of resistance, we examined downstream signaling pathways in drugexposed cells by Western blot analysis. Although ErbB phosphorylation was reduced by pelitinib and canertinib, activation of the AKT/mTOR pathway remained essentially unaltered in drug-resistant cells. Correspondingly, transfection of tumor cells with constitutively activated AKT was found to promote resistance against all ErbB inhibitors tested, whereas dominant negative AKT reinstalled s ensitivity in drugresistant cells. In a next step, we applied PI3K/AKT/mTOR blockers including the dual PI3K/mTOR kinase inhibitor NVP-BEZ235. These agents were found to cooperate with pelitinib and canertinib in producing in vitro growth inhibition in cancer cells resistant against ErbB-targeting drugs. In conclusion, our data show that ErbB drugrefractory activation of the PI3K/AKT/mTOR pathway plays a crucial role in resistance against classical and second-generation irreversible ErbB inhibitors, and NVP-BEZ235 can override this form of resistance against pelitinib and canertinib.Key words: Breast cancer, drug resistance, irreversible EGFR/ErbB/HER inhibitor, ovarian cancer, NVP-BEZ235, PI3K/AKT/mTOR Brünner-Kubath et al. 3

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Section: Discussionsupporting

confidence: 60%

Section: Introductionmentioning

confidence: 99%

The PI3 kinase/mTOR blocker NVP-BEZ235 overrides resistance against irreversible ErbB inhibitors in breast cancer cells

Brünner-Kubath

Shabbir

Saferding

et al. 2010

Breast Cancer Res Treat

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“…34 Recently, the GCK-like kinase (MAP4K3) has been shown to directly phosphorylate PKCy on T538. 35 Although expression of GLK has not been studied in breast cancer, both LCK 36 and 3-phosphoinositide-dependent kinase 1 37 have been reported to be overexpressed, especially in ERÀ compared with ER þ tumours for the tyrosine kinase. (b) MCF7 cells were transiently transfected with 50 ng of the pIRES2 --EGFP vector expressing either wild-type Fra-1 (WT) or mutated Fra-1 in which serines 252 and 265 were replaced by alanine (S/A).…”

Section: Discussionmentioning

confidence: 99%

The PKCθ pathway participates in the aberrant accumulation of Fra-1 protein in invasive ER-negative breast cancer cells

et al. 2012

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Fra-1 is aberrantly expressed in a large number of cancer cells and tissues, and emerging evidence suggests an important role for this Fos family protein in both oncogenesis and the progression or maintenance of many tumour types. Here, we show that the concentration of Fra-1 is high in invasive oestrogen receptor (ER)-negative (ERÀ) breast cancer cell lines, regardless of their Ras pathway status. All of the ERÀ cells express high levels of activated PKCy, and the inhibition of PKCy activity using RNA interference or the expression of a dominant-negative mutant results in a dramatic reduction in Fra-1 abundance. Conversely, the ectopic expression of constitutively active PKCy leads to Fra-1 phosphorylation and accumulation in poorly invasive ER þ cells. This accumulation is due to the stabilisation of the Fra-1 protein through PKCy signalling, whereas other members of the PKC family are ineffective. Both Ste20-related proline-alanine-rich kinase (SPAK) and ERK1/2, whose activities are upregulated by PKCy, participate in PKCy-driven Fra-1 stabilisation. Interestingly, their relative contributions appear to be different depending on the cell line studied. ERK1/2 signalling has a major role in ERÀ MDA-MB-231 cells, whereas Fra-1 accumulation occurs mainly through SPAK signalling in ERÀ BT549 cells. Fra-1 mutational analysis shows that the phosphorylation of S265, T223 and T230 is critical for PKCy-driven Fra-1 stabilisation. Phosphorylation of the protein was confirmed using specific antisera against Fra-1 phosphorylated on T223 or S265. In addition, Fra-1 participates in PKCy-induced cell invasion and is necessary for PKCy-induced cell migration. In summary, we identified PKCy signalling as an important regulator of Fra-1 accumulation in ERÀ breast cancer cells. Moreover, our results suggest that PKCy could participate in progression of some breast cancers and could be a new therapeutic target.

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“…1,2 Activating mutations in PIK3CA, which encodes the PI3K catalytic subunit, have been reported in approximately a quarter of breast tumors 3 and copy number gain of this gene has been identified in 1-14% of breast cancers. [4][5][6] Approximately one fifth of breast cancers are described as having loss of phosphatase and tensin homologue deleted on chromosome 10 (PTEN) expression (range 4-48%) [6][7][8][9][10][11][12][13][14][15] and epigenetic silencing of the PTEN gene through promoter hypermethylation has been reported in 34% 16 and 48% 17 of breast cancers. Loss of heterozygosity at the PTEN locus is observed in 40% of invasive breast carcinomas 18,19 but mutations in this gene have only been identified in 2-9% of breast cancers 3,7,[20][21][22] suggesting that PTEN haploinsufficiency may have tumorigenic consequences.…”

mentioning

confidence: 99%

Comprehensive analysis of PTEN status in breast carcinomas

Jones

Bonnet

Sfar

et al. 2013

Intl Journal of Cancer

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PTEN plays a well-established role in the negative regulation of the PI3K pathway, which is frequently activated in several cancer types, including breast cancer. A nuclear function in the maintenance of chromosomal stability has been proposed for PTEN but is yet to be clearly defined. In order to improve understanding of the role of PTEN in mammary tumorigenesis in terms of a possible gene dosage effect, its PI3K pathway function and its association with p53, we undertook comprehensive analysis of PTEN status in 135 sporadic invasive ductal carcinomas. Four PTEN status groups were defined; complete loss (19/ 135, 14%), reduced copy number (19/135, 14%), normal (86/135, 64%) and complex (11/135, 8%). Whereas the PTEN complete loss status was significantly associated with estrogen receptor (ER) negativity (p50.006) and in particular the basal-like phenotype (p<0.0001), a reduced PTEN copy number was not associated with hormone receptor status or a particular breast cancer subtype. Overall, PI3K pathway alteration was suggested to be involved in 59% (79/134) of tumors as assessed by human epidermal growth factor receptor 2 overexpression, PIK3CA mutation or a complete loss of PTEN. A complex PTEN status was identified in a tumor subgroup which displayed a specific, complex DNA profile at the PTEN locus with a strikingly similar highly rearranged pan-genomic profile. All of these tumors had relapsed and were associated with a poorer prognosis in the context of node negative disease (p51.4 3 10 213 ) thus may represent a tumor subgroup with a common molecular alteration which could be targeted to improve clinical outcome.Alterations in phosphatidylinositol 3-kinase (PI3K) pathway components have been described in breast cancer and can lead to hyperactivation of the pathway. Human epidermal growth factor receptor 2 (HER2) overexpression is observed in 15% of breast cancers. 1,2 Activating mutations in PIK3CA, which encodes the PI3K catalytic subunit, have been reported in approximately a quarter of breast tumors 3 and copy number gain of this gene has been identified in 1-14% of breast cancers. [4][5][6] Approximately one fifth of breast cancers are described as having loss of phosphatase and tensin homologue deleted on chromosome 10 (PTEN) expression (range 4-48%) 6-15 and epigenetic silencing of the PTEN gene through promoter hypermethylation has been reported in 34% 16 and 48% 17 of breast cancers. Loss of heterozygosity at the PTEN locus is observed in 40% of invasive breast carcinomas 18,19 but mutations in this gene have only been identified in 2-9% of breast cancers 3,7,[20][21][22] suggesting that PTEN haploinsufficiency may have tumorigenic consequences. 23,24 Indeed, complete loss of Pten has been reported to oppose tumor progression in vitro and in a prostate-specific mouse model through induction of p53-dependant cellular senescence. 25 In addition to its function as a negative regulator of the PI3K pathway, a nuclear role for PTEN has been proposed. It has been reported to control chromosomal integrity t...

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3-Phosphoinositide–Dependent Kinase 1 Potentiates Upstream Lesions on the Phosphatidylinositol 3-Kinase Pathway in Breast Carcinoma

Cited by 128 publications

References 48 publications

The PI3 kinase/mTOR blocker NVP-BEZ235 overrides resistance against irreversible ErbB inhibitors in breast cancer cells

The PI3 kinase/mTOR blocker NVP-BEZ235 overrides resistance against irreversible ErbB inhibitors in breast cancer cells

The PKCθ pathway participates in the aberrant accumulation of Fra-1 protein in invasive ER-negative breast cancer cells

Comprehensive analysis of PTEN status in breast carcinomas

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