A new validated mathematical model of the Wnt signalling pathway predicts effective combinational therapy by sFRP and Dkk

Kogan, Yuri; Halevi-Tobias, Karin; Hochman, Gili; Baczmanska, Anna K.; Leyns, Luc; Agur, Zvia

doi:10.1042/bj20111887

Cited by 39 publications

(69 citation statements)

References 45 publications

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“…Until now, increasing evidences have demonstrated that multiple negative modulators could antagonize Wnt/β-catenin signaling through recruiting different mechanisms. For example, secreted Frizzled-related proteins (SFRPs) and Wnt inhibitory factor-1 (WIF-1) are able to directly bind Wnt proteins and block Wnt/ β-catenin pathway, and Dickkopf1 (DKK1) negatively regulates Wnt signaling via interacting with Wnt co-receptors LRP5/LRP6 whereas GSK3β displays its suppression on Wnt/β-catenin pathway through phosphorylating β-catenin, leads to the proteasome proteolytic degradation of β-catenin [28, 33, 34]. Moreover, nuclear transcriptionalsuppressors including transducin-like enhancer of split 3 (TLE3) inhibit the transcriptional activity of LEF/TCF [35].…”

Section: Discussionmentioning

confidence: 99%

MicroRNA-744 promotes prostate cancer progression through aberrantly activating Wnt/β-catenin signaling

et al. 2017

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Accumulated evidence indicate that miR-744 functions as either tumor suppressor or oncogene in the progression of a variety of tumors, with a tumor type-specific way. However, little is known about how miR-744 impacts on the tumorigenesis of human prostate cancer. In this study, employing the analyses of microarray, qRT-PCR and re-analysis of MSKCC data, we found that CRPC tissues expressed much more miR-744 than ADPC tissues did, and the expression level of miR-744 was inversely associated with survival of CRPC patients. In vitro studies revealed that miR-744 promotes PCa cells proliferation, enhances migration, invasion; in vivo results demonstrated that silencing of miR-744 mediated by shRNA dramatically reduces PCa xenograft tumor growth. Importantly, through human gene expression array, pathway enrichment analysis and Western blot, we identified that miR-744 dramatically activated Wnt/β-catenin pathway by targeting multiple negative regulators of Wnt/β-catenin signaling, including SFRP1, GSK3β, TLE3 and NKD1. At molecular level, we further defined that NKD1 is a major functional target of miR-744. Our findings indicate that miR-744 acts as one of oncogenic factor in the progression of CRPC by recruiting a mechanism of aberrant activation of Wnt/β-catenin signaling.

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Section: Discussionmentioning

confidence: 99%

MicroRNA-744 promotes prostate cancer progression through aberrantly activating Wnt/β-catenin signaling

et al. 2017

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“…Antagonists of Wnt signaling include secreted Frizzled-related protein (sFRP), Wnt inhibitory factor 1 (WIF-1), and Dickkopf (Dkk). Mathematical models have been used to investigate the effect of inhibiting Wnt via its antagonists and, in one example, modeling was applied to investigate Wnt inhibition via Wnt3a, sFRP, and Dkk [74]. The effect of inhibiting Wnt signaling was quantified by estimating the accumulation of β-catenin, which leads to the transcription of various genes involved in EC proliferation, migration, and other processes.…”

Section: Computational Models Of Anti-angiogenic Therapeuticsmentioning

confidence: 99%

“…Additionally, the model simulated the effect of Dkk alone and in combination with sFRP. Interestingly, Dkk and sFRP were predicted to have a synergistic effect on inhibiting β-catenin accumulation [74], and this work could lead to a new anti-angiogenic treatment strategy.…”

Section: Computational Models Of Anti-angiogenic Therapeuticsmentioning

confidence: 99%

Computational systems biology approaches to anti-angiogenic cancer therapeutics

Finley

Chu

Popel

2015

Drug Discovery Today

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Angiogenesis is an exquisitely regulated process that is required for physiological processes and is also important in numerous diseases. Tumors utilize angiogenesis to generate the vascular network needed to supply the cancer cells with nutrients and oxygen, and many cancer drugs aim to inhibit tumor angiogenesis. Anti-angiogenic therapy involves inhibiting multiple cell types, molecular targets, and intracellular signaling pathways. Computational tools are useful in guiding treatment strategies, predicting the response to treatment, and identifying new targets of interest. Here, we describe progress that has been made in applying mathematical modeling and bioinformatics approaches to study anti-angiogenic therapeutics in cancer.

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“…Computational methods have been developed for predicting drug combination effects from gene expression profiles of drug-treated samples1112131415 and simulation of drug-targeted signaling161718192021 and metabolic22232425 pathways. In particular, simulation of drug-targeted pathways is potentially useful for predicting CIs1726, as demonstrated by the successful applications of the chemogenomic profile based models2728 and the statistically-inferenced network models2930 for the prediction of synergistic effects of drug combinations.…”

mentioning

confidence: 99%

“…These also provide useful knowledge for developing drug or drug combination targeted mathematical models for a number of pathways targeted by drugs and drug combinations (e.g. EGFR-ERK3132333435, apoptosis3637, NFκB1617, Wnt19 and disease-relevant metabolic22232425 pathways).…”

mentioning

confidence: 99%

Predicting Drug Combination Index and Simulating the Network-Regulation Dynamics by Mathematical Modeling of Drug-Targeted EGFR-ERK Signaling Pathway

Huang

Jiang

Chen

2017

Sci Rep

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Synergistic drug combinations enable enhanced therapeutics. Their discovery typically involves the measurement and assessment of drug combination index (CI), which can be facilitated by the development and applications of in-silico CI predictive tools. In this work, we developed and tested the ability of a mathematical model of drug-targeted EGFR-ERK pathway in predicting CIs and in analyzing multiple synergistic drug combinations against observations. Our mathematical model was validated against the literature reported signaling, drug response dynamics, and EGFR-MEK drug combination effect. The predicted CIs and combination therapeutic effects of the EGFR-BRaf, BRaf-MEK, FTI-MEK, and FTI-BRaf inhibitor combinations showed consistent synergism. Our results suggest that existing pathway models may be potentially extended for developing drug-targeted pathway models to predict drug combination CI values, isobolograms, and drug-response surfaces as well as to analyze the dynamics of individual and combinations of drugs. With our model, the efficacy of potential drug combinations can be predicted. Our method complements the developed in-silico methods (e.g. the chemogenomic profile and the statistically-inferenced network models) by predicting drug combination effects from the perspectives of pathway dynamics using experimental or validated molecular kinetic constants, thereby facilitating the collective prediction of drug combination effects in diverse ranges of disease systems.

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A new validated mathematical model of the Wnt signalling pathway predicts effective combinational therapy by sFRP and Dkk

Cited by 39 publications

References 45 publications

MicroRNA-744 promotes prostate cancer progression through aberrantly activating Wnt/β-catenin signaling

MicroRNA-744 promotes prostate cancer progression through aberrantly activating Wnt/β-catenin signaling

Computational systems biology approaches to anti-angiogenic cancer therapeutics

Predicting Drug Combination Index and Simulating the Network-Regulation Dynamics by Mathematical Modeling of Drug-Targeted EGFR-ERK Signaling Pathway

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