Pathway-Based Drug-Repurposing Schemes in Cancer: The Role of Translational Bioinformatics

Hernández‐Lemus, Enrique; Martínez-García, Mireya

doi:10.3389/fonc.2020.605680

Cited by 35 publications

(22 citation statements)

References 186 publications

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“…It is important to highlight that the heterogeneity of cancer physiology and response to therapy and the multiple resistance mechanisms these cells develop represent an enormous challenge in oncology. The combination of computational frameworks (translational bioinformatics, computational intelligence, and methodological and systems biology) in multidisciplinary teams has successfully sped up clinical trials for repurposing drugs [143]. The emergence of new technologies in this field, such as large-scale multi-omics sequencing, genome-wide positioning systems network (GPSnet) algorithms, and other artificial intelligence algorithms, has helped identify new targets for older drugs [144].…”

Section: Discussionmentioning

confidence: 99%

Overcoming Therapy Resistance in Colon Cancer by Drug Repurposing

Yibirin

Oliveira-Gomes²,

Machaalani

et al. 2022

Cancers

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Colorectal cancer (CRC) is the third most common cancer in the world. Despite improvement in standardized screening methods and the development of promising therapies, the 5-year survival rates are as low as 10% in the metastatic setting. The increasing life expectancy of the general population, higher rates of obesity, poor diet, and comorbidities contribute to the increasing trends in incidence. Drug repurposing offers an affordable solution to achieve new indications for previously approved drugs that could play a protagonist or adjuvant role in the treatment of CRC with the advantage of treating underlying comorbidities and decreasing chemotherapy toxicity. This review elaborates on the current data that supports drug repurposing as a feasible option for patients with CRC with a focus on the evidence and mechanism of action promising repurposed candidates that are widely used, including but not limited to anti-malarial, anti-helminthic, anti-inflammatory, anti-hypertensive, anti-hyperlipidemic, and anti-diabetic agents.

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Section: Discussionmentioning

confidence: 99%

Overcoming Therapy Resistance in Colon Cancer by Drug Repurposing

Yibirin

Oliveira-Gomes²,

Machaalani

et al. 2022

Cancers

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“…Alternatively, the myogenesis gene expression profile may be a bystander effect of exposure to the orthotopic environment, rather than a program driving invasive mesothelioma growth. Lastly, drug repurposing approaches have their limitations, in particular when based on an overlap in gene expression signatures between disease-associated tissues and cell lines treated with compounds, such as LINCS/CMap, resulting in false-positive hits (53) (54) (55). Other treatment avenues will need to be explored to specifically target mesothelioma invasion.…”

Section: Discussionmentioning

confidence: 99%

Geldanamycin treatment does not result in anti-cancer activity in a preclinical model of orthotopic mesothelioma

Morales

Rinaldi

Jong

et al. 2022

Preprint

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Mesothelioma is characterised by its aggressive invasive behaviour, affecting the surrounding tissues of the pleura or peritoneum. We compared an invasive pleural model with a non-invasive subcutaneous model of mesothelioma and performed transcriptomic analyses on the tumour samples. Invasive pleural tumours were characterised by a transcriptomic signature enriched for genes associated with MEF2C and MYOCD signaling, muscle differentiation and myogenesis. Further analysis using the CMap and LINCS databases identified geldanamycin as a potential antagonist of this signature, so we evaluated its potential in vitro and in vivo. Nanomolar concentrations of geldanamycin significantly reduced cell growth, invasion, and migration in vitro. However, administration of geldanamycin in vivo did not result in significant anti-cancer activity. Our findings show that myogenesis and muscle differentiation pathways are upregulated in pleural mesothelioma which may be related to the invasive behaviour. However, geldanamycin as a single agent does not appear to be a viable treatment for mesothelioma.

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“…Secondly, it could be a feature summarizing the gene-signature at a higher level, which is useful in machine learning-based modeling. It is different from the gene level as it captures different information about drugs or diseases [28][29][30]. Thirdly, the pathway analysis could enhance the confidence of the prediction of the candidate drugs [31].…”

Section: Drug Repurposing -Molecular Aspects and Therapeutic Applicationsmentioning

confidence: 99%

Gene Signature-Based Drug Repositioning

Jia¹,

Song²,

Shi³

et al. 2022

Drug Repurposing - Molecular Aspects and Therapeutic Applications

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With the advent of dynamical omics technology, especially the transcriptome and proteome, a huge amount of data related to various diseases and approved drugs are available under multi global projects or researches with their interests. These omics data and new machine learning technology largely promote the translation of drug research into clinical trials. We will cover the following topics in this chapter. 1) An introduction to the basic discipline of gene signature-based drug repurposing; 2) databases of genes, drugs and diseases; 3) gene signature databases of the approved drugs; 4) gene signature databases of various diseases; 5) gene signature-based methods and tools for drug repositioning; 6) new omics technology for drug repositioning; 7) drug repositioning examples with reproducible code. And finally, discuss the future trends and conclude.

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Pathway-Based Drug-Repurposing Schemes in Cancer: The Role of Translational Bioinformatics

Cited by 35 publications

References 186 publications

Overcoming Therapy Resistance in Colon Cancer by Drug Repurposing

Overcoming Therapy Resistance in Colon Cancer by Drug Repurposing

Geldanamycin treatment does not result in anti-cancer activity in a preclinical model of orthotopic mesothelioma

Gene Signature-Based Drug Repositioning

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