KRAS driven expression signature has prognostic power superior to mutation status in non‐small cell lung cancer

Nagy, Ádám; Pongor, Lőrinc Sándor; Szabó, András; Santarpía, Mariacarmela; Győrffy, Balázs

doi:10.1002/ijc.30509

Cited by 28 publications

(21 citation statements)

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“…An analysis of the TCGA’s KRAS mutant lung adenocarcinoma cohort defined a 4-gene signature of mutant tumors (overexpressing FOXRED2, TOP1, PEX3, and ABL2). This was completely different from KRAS-amplified or KRAS wild-type deleted groups [ 31 ]. In another study of large public datasets of the KRAS mutant lung adenocarcinoma [ 32 ], three subtypes were observed based on gene expression signatures, which were also characterized by different co-mutations, i.e., cluster1/CDKN2A/2B-mutant/LOH, cluster 2/TP53 mutant, and cluster3/LKB1 mutant (Table 3 ).…”

Section: Introductionmentioning

confidence: 91%

Molecular epidemiology and diagnostics of KRAS mutations in human cancer

Tı́már

Kashofer

2020

Cancer Metastasis Rev

167

101

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RAS mutation is the most frequent oncogenic alteration in human cancers. KRAS is the most frequently mutated followed by NRAS. The emblematic KRAS mutant cancers are pancreatic, colorectal, lung adenocarcinomas and urogenital cancers. KRAS mutation frequencies are relatively stable worldwide in various cancer types with the one exception of lung adenocarcinoma. The frequencies of KRAS variant alleles appears cancer type specific, reflecting the various carcinogenic processes. In addition to point mutation KRAS, allelic imbalances are also frequent in human cancers leading to the predominance of a mutant allele. KRAS mutant cancers are characterized by typical, cancer-type-specific co-occurring mutations and distinct gene expression signatures. The heterogeneity of KRAS mutant primary cancers is significant, affecting the variant allele frequency, which could lead to unpredictable branching development in metastases. Selection of minute mutant subclones in the primary tumors or metastases during target therapies can also occur frequently in lung or colorectal cancers leading to acquired resistance. Ultrahigh sensitivity techniques are now routinely available for diagnostic purposes, but the proper determination of mutant allele frequency of KRAS in the primary or metastatic tissues may have larger clinical significance.

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Section: Introductionmentioning

confidence: 91%

Molecular epidemiology and diagnostics of KRAS mutations in human cancer

Tı́már

Kashofer

2020

Cancer Metastasis Rev

167

101

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“…Better and more holistic approaches have been proposed showing that a “cancer mutation signature” is more predictive for treatment response than the individual mutation status ( 27 ). In KRAS -driven NSCLC, the signature— FOXRED2, KRAS, TOP1, PEX3 , and ABL2 —was more predictive for prognosis than the single mutation status of KRAS ( 28 ). An RNA-sequence-based prognostic model built with four genes ( RHOV, CD109, FRRS1 , and LINC00941 ) was statistically associated with worse OS and metastasis-free survival, and is able to stratify patients bearing KRAS or EGFR mutations versus their wild-type counterparts in OS outcome ( 29 ).…”

Section: The Lung Cancer Genome: Actionable Targets In Nsclc?mentioning

confidence: 99%

Drug Resistance in Non-Small Cell Lung Cancer: A Potential for NOTCH Targeting?

et al. 2018

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Drug resistance is a major cause for therapeutic failure in non-small cell lung cancer (NSCLC) leading to tumor recurrence and disease progression. Cell intrinsic mechanisms of resistance include changes in the expression of drug transporters, activation of pro-survival, and anti-apoptotic pathways, as well as non-intrinsic influences of the tumor microenvironment. It has become evident that tumors are composed of a heterogeneous population of cells with different genetic, epigenetic, and phenotypic characteristics that result in diverse responses to therapy, and underlies the emergence of resistant clones. This tumor heterogeneity is driven by subpopulations of tumor cells termed cancer stem cells (CSCs) that have tumor-initiating capabilities, are highly self-renewing, and retain the ability for multi-lineage differentiation. CSCs have been identified in NSCLC and have been associated with chemo- and radiotherapy resistance. Stem cell pathways are frequently deregulated in cancer and are implicated in recurrence after treatment. Here, we focus on the NOTCH signaling pathway, which has a role in stem cell maintenance in non-squamous non-small lung cancer, and we critically assess the potential for targeting the NOTCH pathway to overcome resistance to chemotherapeutic and targeted agents using both preclinical and clinical evidence.

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“…[ 18 ] Current research suggests that KRAS mutation is the main driver of poor prognosis in patients with NSCLC, and also may be a common cause of cancer recurrence, but unfortunately, no drugs are available that directly address KRAS mutation. [ 19 , 20 ] Mutations leading to the inactivation of Tp53 had also been shown to be frequent in human lung SCCs, and may lead to expansion of mutant stem cell clones. [ 21 ] This would lead to disease progression.…”

Section: Discussionmentioning

confidence: 99%

A case report of tongue metastasis from lung squamous cell carcinoma and literature review

Cheng

Hu²,

Han³

et al. 2017

Medicine

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Rationale:Tongue metastasis from lung cancer is extremely rare, and the prognosis of these patients is rather poor.Patient concers:A 56-year-old man was found a 4-cm cavity lesion in the left upper lobe, which was initially misdiagnosed as tuberculosis.Diagnoses:A case of lung squamous cell carcinoma that metastasized to the base of a patient's tongue.Intervations:We send the biopsy of the lung and the tongue lesions for gene sequencing.Outcomes:He received systemic chemotherapy, but continued to have pain at the base of his tongue and died 7 months later.Lessons:From sequencing data, mutations in KRAS proto-oncogene, GTPase (KRAS), phosphatidylinositol-4,5-bisphosphate 3-kinase catalytic subunit alpha (PIK3CA), and tumor protein p53 (TP53) were found in the tumor biopsy of the patient. All of these were indicators of poor prognosis.

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KRAS driven expression signature has prognostic power superior to mutation status in non‐small cell lung cancer

Cited by 28 publications

References 50 publications

Molecular epidemiology and diagnostics of KRAS mutations in human cancer

Molecular epidemiology and diagnostics of KRAS mutations in human cancer

Drug Resistance in Non-Small Cell Lung Cancer: A Potential for NOTCH Targeting?

A case report of tongue metastasis from lung squamous cell carcinoma and literature review

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