MET signaling in keratinocytes activates EGFR and initiates squamous carcinogenesis

Cataisson, Christophe; Shibuya, Kelly; Ryscavage, Andrew; Klosterman, Mary; Wright, Lisa Nolan; Dubois, Wendy; Liu, Fan; Zhuang, Anne; Rodrigues, Kameron B.; Hoover, Shelley; Dwyer, Jennifer E.; Simpson, Mark; Merlino, Glenn; Yuspa, Stuart H.

doi:10.1126/scisignal.aaf5106

Cited by 30 publications

(31 citation statements)

References 92 publications

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“…Signaling downstream from oncogenic RAS is dependent on an intact EGFR in mouse keratinocytes. 10 Accordingly, in the genetic model, tumor growth was consistently impaired by the absence of EGFR in tumor epithelium ( Fig. 1a).…”

Section: Resultsmentioning

confidence: 91%

“…Both groups were transformed with a constitutively active form of HRAS that is expressed equally in both genotypes (Suppl Fig.1a). Signaling downstream from oncogenic RAS is dependent on an intact EGFR in mouse keratinocytes 10 . Accordingly, in the genetic model, tumor growth was consistently impaired by the absence of EGFR in tumor epithelium (Fig.…”

Section: Resultsmentioning

confidence: 99%

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Cell autonomous or systemic EGFR blockade alters the immune‐environment in squamous cell carcinomas

Mascia

Schloemann

Cataisson

et al. 2016

Intl Journal of Cancer

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Targeting mutations and amplifications in the EGFR has been successful precision therapy for cancers of the lung, oral cavity and gastrointestinal track. However, a systemic immune reaction manifested by dose-limiting inflammation in the skin and gut has been a consistent adverse effect. To address the possibility that intra-tumoral immune changes contribute to the anti-cancer activity of EGFR inhibition, squamous cancers were produced by syngeneic orthografts of either EGFR null or wildtype mouse primary keratinocytes transduced with an oncogenic H-ras retrovirus. Flow cytometric, RNA and Bioplex immunoassay analyses of the tumor immune milieu were performed. Cancers forming from keratinocytes genetically depleted of EGFR were smaller than wildtype cancers and had fewer infiltrating FoxP3 Treg cells, lower Foxp3 RNA and a lower percentage of CD4 PD1 positive cells indicating a tumor cell autonomous regulation of its microenvironment. Hosts bearing wildtype cancers treated with gefitinib for one week showed a trend for smaller tumors. In this short term pharmacological model, there was also a trend to reduced FoxP3 cells and FoxP3 RNA in the tumors of treated mice as well as a substantial increase in the ratio of IL-1A/IL-1RA transcripts. These results suggest that relatively brief systemic inhibition of EGFR signaling alters the immune environment of the targeted cancer. Together these data imply that an EGFR dependent Treg function supports the growth of squamous cancers and is a target for the therapeutic activity of EGFR inhibition.

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Section: Resultsmentioning

confidence: 91%

Section: Resultsmentioning

confidence: 99%

Cell autonomous or systemic EGFR blockade alters the immune‐environment in squamous cell carcinomas

Mascia

Schloemann

Cataisson

et al. 2016

Intl Journal of Cancer

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“…We did not reproduce spontaneous breast or thyroid cancers, but the systematic pathologic study found lymphocytic thyroiditis in 14 of 23 transgenic mice when, in patients, chronic lymphocytic thyroiditis is associated with a 2-fold increased risk of papillary thyroid cancer (39). In addition, one of the transgenic mice developed a skin squamous cell carcinoma of the ear, as observed in mice transgenic for HGF with a strong activation of the MET pathway (40). We reproduced experimentally the occurrence of skin carcinomas in our transgenic mice, and reduced significantly the number of cancers by concomitant administration of a MET inhibitor demonstrating that MET activation is sufficient for increasing the susceptibility to skin cancer.…”

Section: Discussionmentioning

confidence: 99%

A Constitutional Activating MET Mutation Makes the Genetic Link between Malignancies and Chronic Inflammatory Diseases

Bouchtaoui

Cruzeiro

Lebœuf

et al. 2019

Clinical Cancer Research

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Purpose: The genesis of all cancers results from an accumulation of mutations, constitutional and/or acquired when induced by external mutagenic factors. High-speed technologies for genome sequencing have completely changed the study of disease genetics, but with limited knowledge of the functional value of most genetic changes. Experimental Design: Here, we proposed an innovative individual approach by studying tissue samples from a young woman with an unusual association of breast cancer, polycythemia vera, and rheumatoid arthritis. We performed genomic analyses for copy number variations and point mutations on laser-microdissected tumor cells from the breast cancer, and on CD34 þ cells sorted from bone marrow aspiration, to identify gene abnormalities common to these two types of cell populations. Results: Using ONCOSCAN technology, we identified a constitutional pR988C, c2962C>T mutation of MET. Using CRISPR-Cas9 technology, we established pR988C MET-mutated transgenic mice, which reproduced the autoimmune diseases and myeloproliferation found in our index-case; one of the transgenic mice spontaneously developed a skin squamous cell carcinoma. We also showed that additional mutagenic factors were required to induce cancers, including skin squamous cell carcinoma and thyroid cancer. Using an anti-MET drug, cabozantinib, we demonstrated for the first time the functional role of this mutation in the maintenance of myeloproliferation and rheumatoid arthritis, and in cancer genesis. Conclusions: Our study opens a considerable field of application in the domain of constitutional genetics, to establish genetic links between cancers and other very different severe diseases.

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“…We observed that directly targeting MET, EGFR, or ERBB2 was sufficient to impact cSCC cell viability (Figure 3c). MET and EGFR/ERBB2 signaling pathways can contribute to driving cSCC development, and a subset of cSCCs respond to EGFR inhibitors (Cataisson et al, 2016;Harwood et al, 2016;Mellerio et al, 2016). Suppression of USP8 could provide a means to simultaneously interfere with multiple therapeutically relevant receptors, which could overcome resistance because of receptor redundancy or cross-talk.…”

Section: Usp8mentioning

confidence: 99%

The Identification of Potential Therapeutic Targets for Cutaneous Squamous Cell Carcinoma

McHugh

Fernandes

Chinner

et al. 2020

Journal of Investigative Dermatology

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We performed a small interfering RNA screen to identify targets for cutaneous squamous cell carcinoma (cSCC) therapy in the ubiquitin/ubiquitin-like system. We provide evidence for selective anti-cSCC activity of knockdown of the E3 ubiquitin ligase MARCH4, the ATPase p97/VCP, the deubiquitinating enzyme USP8, the cullin-RING ligase (CRL) 4 substrate receptor CDT2/DTL, and components of the anaphase-promoting complex/ cyclosome (APC/C). Specifically attenuating CRL4 CDT2 by CDT2 knockdown can be more potent in killing cSCC cells than targeting CRLs or CRL4s in general by RBX1 or DDB1 depletion. Suppression of the APC/C or forced APC/C activation by targeting its repressor EMI1 are both potential therapeutic approaches. We observed that cSCC cells can be selectively killed by small-molecule inhibitors of USP8 (DUBs-IN-3/compound 22c) and the NEDD8 E1 activating enzyme/CRLs (MLN4924/pevonedistat). A substantial proportion of cSCC cell lines are very highly MLN4924-sensitive. Pathways that respond to defects in proteostasis are involved in the anti-cSCC activity of p97 suppression. Targeting USP8 can reduce the expression of growth factor receptors that participate in cSCC development. EMI1 and CDT2 depletion can selectively cause DNA re-replication and DNA damage in cSCC cells.

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MET signaling in keratinocytes activates EGFR and initiates squamous carcinogenesis

Cited by 30 publications

References 92 publications

Cell autonomous or systemic EGFR blockade alters the immune‐environment in squamous cell carcinomas

Cell autonomous or systemic EGFR blockade alters the immune‐environment in squamous cell carcinomas

A Constitutional Activating MET Mutation Makes the Genetic Link between Malignancies and Chronic Inflammatory Diseases

The Identification of Potential Therapeutic Targets for Cutaneous Squamous Cell Carcinoma

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