RAS-targeted therapies: is the undruggable drugged?

Moore, Amanda R.; Rosenberg, Scott; McCormick, Frank; Malek, Shiva

doi:10.1038/s41573-020-0068-6

Cited by 640 publications

(708 citation statements)

References 266 publications

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“…Unfortunately, monotherapies targeted to RAS oncogenes have mostly failed following initial response owing to resistance occurring via different mechanisms such as feedback reactivation of RAS-downstream pathways. Nevertheless, substantial advances have been made lately, introducing promising compounds where some are undergoing clinical trials (reviewed in Moore et al 81 ). This includes approaches targeting KRAS G12C oncoproteins or blocking GTP loading of KRAS oncoproteins, which indicate that direct targeting of KRAS might be achievable eventually, even though acquired resistance phenomena against these novel therapies might be inevitable 82 .…”

Section: Clinical Translationmentioning

confidence: 99%

Immune modulatory effects of oncogenic KRAS in cancer

et al. 2020

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Oncogenic KRAS mutations are the most frequent mutations in human cancer, but most difficult to target. While sustained proliferation caused by oncogenic KRAS-downstream signalling is a main driver of carcinogenesis, there is increasing evidence that it also mediates autocrine effects and crosstalk with the tumour microenvironment (TME). Here, we discuss recent reports connecting KRAS mutations with tumour-promoting inflammation and immune modulation caused by KRAS that leads to immune escape in the TME. We discuss the preclinical work on KRAS-induced inflammation and immune modulation in the context of currently ongoing clinical trials targeting cancer entities that carry KRAS mutations and strategies to overcome the oncogene-induced effects on the immune system.

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Section: Clinical Translationmentioning

confidence: 99%

Immune modulatory effects of oncogenic KRAS in cancer

et al. 2020

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“…Activating mutations in KRAS, NRAS, and HRAS, which encode for members of the RAS family of proteins, occur at high prevalence in many cancer types, particularly subtypes of lung and pancreatic cancers. 115 One of the earliest shRNA screens first focused on identifying genes that may alter RAS activity in the absence of a mutation using modified primary fibroblasts, with enhanced potential to transform. The screen identified the transcription factor PITX1 as a putative suppressor of RAS activity, 116 a finding subsequent studies of hepatocarcinogenesis confirmed.…”

Section: The Ras Oncoprotein Familymentioning

confidence: 99%

Cancer biology functional genomics: From small RNAs to big dreams

Rajan

Ludwig

Hall

et al. 2020

Molecular Carcinogenesis

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The year 2021 marks the 20th anniversary of the first publications reporting the discovery of the gene silencing mechanism, RNA interference (RNAi) in mammalian cells. Along with the many studies that delineated the proteins and substrates that form the RNAi pathway, this finding changed our understanding of the posttranscriptional regulation of mammalian gene expression. Furthermore, the development of methods that exploited the RNAi pathway began the technological revolution that eventually enabled the interrogation of mammalian gene function-from a single gene to the whole genome-in only a few days. The needs of the cancer research community have driven much of this progress. In this perspective, we highlight milestones in the development and application of RNAi-based methods to study carcinogenesis. We discuss how RNAi-based functional genetic analysis of exemplar tumor suppressors and oncogenes furthered our understanding of cancer initiation and progression and explore how such studies formed the basis of genome-wide scale efforts to identify cancer or cancer-type specific vulnerabilities, including studies conducted in vivo. Furthermore, we examine how RNAi technologies have revealed new cancer-relevant molecular targets and the implications for cancer of the first RNAi-based drugs. Finally, we discuss the future of functional genetic analysis, highlighting the increasing availability of complementary approaches to analyze cancer gene function.

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“…Research into drugs targeting Ras has made progress (20). Certain research demonstrated that 2,3-dichloro-1,4-naphthoquinone inhibited the growth of N-Ras-mutant melanoma (21), while 2-(2' ,4'-dihydroxyphenyl)-8-hydroxy-1,4-naphthoquinone and 5-hydroxy-2-(2,4-dihydroxyphenyl)naphthalene-1,4-dione inhibited Apc/K-Ras-mutant mouse organoid differentiation capacity (22).…”

Section: The Compound 2-benzylthio-58-dimethoxynaphthalene-14-dionementioning

confidence: 99%

The compound 2‑benzylthio‑5,8‑dimethoxynaphthalene‑1,4‑dione leads to apoptotic cell death by increasing the cellular reactive oxygen species levels in Ras‑mutated liver cancer cells

Shen

Sun

et al. 2020

Exp Ther Med

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The aim of the present study was to verify the pro-apoptotic anticancer potential of several 5,8-dimethoxy-1,4-phthoquinone (DMNQ) derivatives in Ras-mediated tumorigenesis. MTT assays were used to detect cellular viability and flow cytometry was performed to assess intracellular reactive oxygen species (ROS) levels and apoptosis. The expression levels of proteins were detected via western blotting. Among the 12 newly synthesized DMNQ derivatives, 2-benzylthio-5,8-dimethoxynaphthalene-1,4-dione (BZNQ; component #1) significantly reduced cell viability both in mouse NIH3T3 embryonic fibroblasts cells (NC) and H-Ras G12V transfected mouse NIH3T3 embryonic fibroblasts cells (NR). Moreover, BZNQ resulted in increased cytotoxic sensitivity in Ras-mutant transfected cells. Furthermore, the reactive oxygen species (ROS) levels in H-Ras G12V transfected HepG2 liver cancer cells (HR) were significantly higher compared with the levels in HepG2 liver cancer cells (HC) following BZNQ treatment, which further resulted in increased cellular apoptosis. Eliminating cellular ROS using an ROS scavenger N-acetyl-L-cysteine markedly reversed BZNQ-induced cellular ROS accumulation and cell apoptosis in HC and HR cells. Western blotting results revealed that BZNQ significantly downregulated H-Ras protein expression and inhibited the Ras-mediated downstream signaling pathways such as protein kinase B, extracellular signal-related kinase and glycogen synthase kinase phosphorylation and β-catenin protein expression. These results indicated that the novel DMNQ derivative BZNQ may be a therapeutic drug for Ras-mediated liver tumorigenesis. The results of the current study suggest that BZNQ exerts its effect by downregulating H-Ras protein expression and Ras-mediated signaling pathways.

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RAS-targeted therapies: is the undruggable drugged?

Cited by 640 publications

References 266 publications

Immune modulatory effects of oncogenic KRAS in cancer

Immune modulatory effects of oncogenic KRAS in cancer

Cancer biology functional genomics: From small RNAs to big dreams

The compound 2‑benzylthio‑5,8‑dimethoxynaphthalene‑1,4‑dione leads to apoptotic cell death by increasing the cellular reactive oxygen species levels in Ras‑mutated liver cancer cells

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