Matthew A. Coelho scite author profile

SummaryThe immunosuppressive protein PD-L1 is upregulated in many cancers and contributes to evasion of the host immune system. The relative importance of the tumor microenvironment and cancer cell-intrinsic signaling in the regulation of PD-L1 expression remains unclear. We report that oncogenic RAS signaling can upregulate tumor cell PD-L1 expression through a mechanism involving increases in PD-L1 mRNA stability via modulation of the AU-rich element-binding protein tristetraprolin (TTP). TTP negatively regulates PD-L1 expression through AU-rich elements in the 3′ UTR of PD-L1 mRNA. MEK signaling downstream of RAS leads to phosphorylation and inhibition of TTP by the kinase MK2. In human lung and colorectal tumors, RAS pathway activation is associated with elevated PD-L1 expression. In vivo, restoration of TTP expression enhances anti-tumor immunity dependent on degradation of PD-L1 mRNA. We demonstrate that RAS can drive cell-intrinsic PD-L1 expression, thus presenting therapeutic opportunities to reverse the innately immunoresistant phenotype of RAS mutant cancers.

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High-content CRISPR screening

Bock

Datlinger

Chardon

et al. 2022

Nat Rev Methods Primers

330

209

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There is a need in molecular biology and biomedical research for open-ended, hypothesis-generating research, in order to discover previously unknown molecular mechanisms. Genetic screening provides a powerful approach for identifying genes, pathways and mechanisms involved in a given phenotype or biological process. This is illustrated by the many successes of forward genetics in cell lines 1 and in model organisms such as flies 2,3 , worms 4 , yeast 5 , plants 6 and fish 7 , and pioneering work in RNA interference (RNAi) screens 8,9 .CRISPR screens exploit the efficiency and flexibility of CRISPR-Cas genome editing 10 . They have become a popular and productive tool for biological discovery in a broad range of applications 11,12 . In a typical pooled CRISPR screen (FIg. 1), a CRISPR guide RNA (gRNA) library is introduced in bulk into cells, such that individual cells receive different gRNAs and are perturbed according to the gRNA received by the cell. These gRNAs are usually delivered by lentiviral transduction and are integrated into the DNA of the target cells, making it possible to efficiently determine the induced perturbations based on the gRNA sequence.

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An Immunogenic Model of KRAS-Mutant Lung Cancer Enables Evaluation of Targeted Therapy and Immunotherapy Combinations

Boumelha

Trécesson

Law

et al. 2022

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Mutations in oncogenes such as KRAS and EGFR cause a high proportion of lung cancers. Drugs targeting these proteins cause tumor regression but ultimately fail to elicit cures. As a result, there is an intense interest in how to best combine targeted therapies with other treatments, such as immunotherapies. However, preclinical systems for studying the interaction of lung tumors with the host immune system are inadequate, in part due to the low tumor mutational burden in genetically engineered mouse models. Here we set out to develop mouse models of mutant KRAS-driven lung cancer with an elevated tumor mutational burden by expressing the human DNA cytosine deaminase, APOBEC3B, to mimic the mutational signature seen in human lung cancer. This failed to substantially increase clonal tumor mutational burden and autochthonous tumors remained refractory to immunotherapy. However, establishing clonal cell lines from these tumors enabled the generation of an immunogenic syngeneic transplantation model of KRAS-mutant lung adenocarcinoma that was sensitive to immunotherapy. Unexpectedly, anti-tumor immune responses were not directed against neoantigens but instead targeted derepressed endogenous retroviral antigens. The ability of KRASG12C inhibitors to cause regression of KRASG12C-expressing tumors was markedly potentiated by the adaptive immune system, highlighting the importance of using immunocompetent models for evaluating targeted therapies. Overall, this model provides a unique opportunity for the study of combinations of targeted and immunotherapies in immune-hot lung cancer.

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BE-FLARE: a fluorescent reporter of base editing activity reveals editing characteristics of APOBEC3A and APOBEC3B

Coelho

Pane

et al. 2018

BMC Biol

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BackgroundBase Editing is a precise genome editing method that uses a deaminase-Cas9 fusion protein to mutate cytidine to thymidine in target DNA in situ without the generation of a double-strand break. However, the efficient enrichment of genetically modified cells using this technique is limited by the ability to detect such events.ResultsWe have developed a Base Editing FLuorescent Activity REporter (BE-FLARE), which allows for the enrichment of cells that have undergone editing of target loci based on a fluorescence shift from BFP to GFP. We used BE-FLARE to evaluate the editing efficiency of APOBEC3A and APOBEC3B family members as alternatives deaminase domains to the rat APOBEC1 domain used in base editor 3 (BE3). We identified human APOBEC3A and APOBEC3B as highly efficient cytidine deaminases for base editing applications with unique properties.ConclusionsUsing BE-FLARE to report on the efficiency and precision of editing events, we outline workflows for the accelerated generation of genetically engineered cell models and the discovery of alternative base editors.Electronic supplementary materialThe online version of this article (10.1186/s12915-018-0617-1) contains supplementary material, which is available to authorized users.

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Base editing screens map mutations affecting interferon-γ signaling in cancer

Coelho¹,

Cooper²,

Strauß³

et al. 2023

Cancer Cell

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Matthew A. Coelho

Oncogenic RAS Signaling Promotes Tumor Immunoresistance by Stabilizing PD-L1 mRNA

High-content CRISPR screening

An Immunogenic Model of KRAS-Mutant Lung Cancer Enables Evaluation of Targeted Therapy and Immunotherapy Combinations

BE-FLARE: a fluorescent reporter of base editing activity reveals editing characteristics of APOBEC3A and APOBEC3B

Base editing screens map mutations affecting interferon-γ signaling in cancer

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