Inhibition of PI3K/BMX Cell Survival Pathway Sensitizes to BH3 Mimetics in SCLC

Potter, Danielle S.; Galvin, Melanie; Brown, Stewart; Lallo, Alice; Hodgkinson, Cassandra L.; Blackhall, Fiona; Morrow, Christopher J.

doi:10.1158/1535-7163.mct-15-0885

Cited by 27 publications

(40 citation statements)

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“…CDX3 tumours were dissociated to single cells with Miltenyi Biotecs tumour dissociation kit according to manufacturer's recommendations on a gentleMACS dissociator52. Single cells underwent immunomagnetic depletion of mouse cells and dead cells with a Dead cell removal microbead set (Mitenyi Biotec), anti-mouse anti-MHC1 antibody (eBioscience clone, 34-1-2s) and anti-mouse anti-IgG2a+b microbeads over a LS column in a MidiMACS Seperator (Miltenyi Biotec).…”

Section: Methodsmentioning

confidence: 99%

Vasculogenic mimicry in small cell lung cancer

et al. 2016

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Small cell lung cancer (SCLC) is characterized by prevalent circulating tumour cells (CTCs), early metastasis and poor prognosis. We show that SCLC patients (37/38) have rare CTC subpopulations co-expressing vascular endothelial-cadherin (VE-cadherin) and cytokeratins consistent with vasculogenic mimicry (VM), a process whereby tumour cells form ‘endothelial-like' vessels. Single-cell genomic analysis reveals characteristic SCLC genomic changes in both VE-cadherin-positive and -negative CTCs. Higher levels of VM are associated with worse overall survival in 41 limited-stage patients' biopsies (P<0.025). VM vessels are also observed in 9/10 CTC patient-derived explants (CDX), where molecular analysis of fractionated VE-cadherin-positive cells uncovered copy-number alterations and mutated TP53, confirming human tumour origin. VE-cadherin is required for VM in NCI-H446 SCLC xenografts, where VM decreases tumour latency and, despite increased cisplatin intra-tumour delivery, decreases cisplatin efficacy. The functional significance of VM in SCLC suggests VM regulation may provide new targets for therapeutic intervention.

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Section: Methodsmentioning

confidence: 99%

Vasculogenic mimicry in small cell lung cancer

et al. 2016

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“…In small cell lung cancer (SCLC), ABT-737, navitoclax and venetoclax have shown antitumor activity in cell lines and xenograft models (44, 133–136) and limited single-agent activity has been observed with navitoclax in patients with SCLC (137, 138). Combination with other chemotherapeutic agents including rapamycin and vorinostat, or inhibition of other signaling pathways such as PI3K/BMX, appears to be a promising approach to overcoming resistance and enhancing sensitivity to BH3 mimetics in SCLC (139–142). …”

Section: Future Considerations and Conclusionmentioning

confidence: 99%

Found in Translation: How Preclinical Research Is Guiding the Clinical Development of the BCL2-Selective Inhibitor Venetoclax

Sampath²,

et al. 2017

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Since the discovery of apoptosis as a form of programmed cell death, targeting the apoptosis pathway to induce cancer cell death has been a high priority goal for cancer therapy. After decades of effort, drug discovery scientists have succeeded in generating small-molecule inhibitors of antiapoptotic BCL-2 family proteins. Innovative medicinal chemistry and structure-based drug design, coupled with a strong fundamental understanding of BCL-2 biology, were essential to the development of BH3 mimetics such as the BCL-2-selective inhibitor venetoclax. We review a number of preclinical studies that have deepened our understanding of BCL-2 biology and facilitated the clinical development of venetoclax.

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“…Investigation of the effects of combination of a dual PI3K/mTOR inhibitor which modulated BMX activity with the pro-apoptotic BH3 mimetic ABT737, revealed an increase in cellular sensitivity with the combination compared to either agent alone. As shown in (Figure 1) and outlined above PI3K is one of the upstream regulators of BMX, and interestingly it was found that it was the effect of PI3K inhibition on BMX activity rather than on AKT or mTOR that was responsible for the increased sensitivity observed both in colorectal cancer cell models [9] and small cell lung cancer [10]. Together with our mechanistic study these findings suggest strongly that when it comes to BMX inhibition, either directly [6] or via modulating upstream regulators such as PI3K [9,10], a combinatorial approach would be most effective.…”

Section: Commentarymentioning

confidence: 86%

“…As shown in (Figure 1) and outlined above PI3K is one of the upstream regulators of BMX, and interestingly it was found that it was the effect of PI3K inhibition on BMX activity rather than on AKT or mTOR that was responsible for the increased sensitivity observed both in colorectal cancer cell models [9] and small cell lung cancer [10]. Together with our mechanistic study these findings suggest strongly that when it comes to BMX inhibition, either directly [6] or via modulating upstream regulators such as PI3K [9,10], a combinatorial approach would be most effective. However, it remains to be established whether upstream PI3K inhibition is able to modulate BMX activity with enough amplitude and duration to be effective or whether directly targeting BMX may be a better approach.…”

Section: Commentarymentioning

confidence: 86%

Targeting Apoptosis Signalling in Cancer: How Decreasing BAK Phosphorylation via BMX Inhibition Increases Sensitivity to Cytotoxic Drugs

Fox¹

2017

J Cell Signal

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CommentaryAt the molecular level there exists a fine balance between death and survival, which is essential in healthy cells for normal foetal development and for the clearance of damaged cells. However, more often than not, this balance is disrupted in diseases resulting in either too much cell death, for example in neurodegenerative disorders, or insufficient cell death as observed in cancer. Cancers are genetically heterogeneous and evolve during tumourigenesis, a process that helps cancer cells survive, by evading cell death, promoting proliferation and activating migration and invasion [1]. Targeting apoptosis, particularly for the treatment of cancer, has therefore become an increasingly attractive intervention strategy. Drugs approved for clinical use as well as many in the development pipeline aim to alter apoptotic signalling outcome or to trigger initiation of apoptosis, for example SMAC mimetics or BH3 mimetic Venetoclax respectively. However, these approaches have not been without their complications with both ontarget and off-target dose limiting toxicity reported, as well as the development of drug-induced resistance (reviewed in [2]). Despite the exciting progress that has been made in understanding and targeting the complex pathways that commits a cell to die by apoptosis, it is becoming increasingly clear that simply characterising the effector pathways is not enough [2]. Understanding the regulatory pathways and checkpoints at the crucial commitment points that trigger these executioner cell death pathways is equally important and could be the key to enable successful modulation of death pathways that determine cell fate.Intrinsic or mitochondrial apoptosis depends on activation of the BCL-2 effector proteins BAK and/or BAX which, once activated, are able to form first dimers then higher order multimers which disrupts the outer mitochondrial membrane [3]. This loss of membrane integrity results in the release of apoptogenic factors such as cytochrome c which is required to form an active apoptosome complex and activates downstream caspases. Recent studies, however, have found that it is activation of BAK/BAX resulting in the loss of mitochondrial outer membrane potential (MOMP) as the irreversible commitment step in the process. Therefore, BAK/BAX exert their effects at a crucial point in the apoptotic cascade and regulation of their activation status is critical in determining cell fate. BAK is constitutively present in the outer mitochondrial membrane, and requires tight regulation to ensure that aberrant induction of apoptosis does not occur. Two key sequential dephosphorylation events serve to regulate the ability of BAK to undergo activation in response to death signals. The initial BAK dephosphorylation at Y108 by PTPN5 [4] is the key switch that enables BAK activation to proceed, followed by dephosphorylation of S116 by PP2A [5]. Once these two phosphorylation marks have been removed then BAK activation can proceed [3].In our recent article "BMX Negatively Regulates BAK Function Thereby...

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Inhibition of PI3K/BMX Cell Survival Pathway Sensitizes to BH3 Mimetics in SCLC

Cited by 27 publications

References 50 publications

Vasculogenic mimicry in small cell lung cancer

Vasculogenic mimicry in small cell lung cancer

Found in Translation: How Preclinical Research Is Guiding the Clinical Development of the BCL2-Selective Inhibitor Venetoclax

Targeting Apoptosis Signalling in Cancer: How Decreasing BAK Phosphorylation via BMX Inhibition Increases Sensitivity to Cytotoxic Drugs

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