Immune cell infiltration pattern in non-small cell lung cancer PDX models is a model immanent feature and correlates with a distinct molecular and phenotypic make-up

Oswald Eva; Bug Daniel; Grote AnneLashuk KanstantsinBouteldja NassimLenhard DorotheeLoehr AnneBehnke AnkeKnauff VolkerEdinger AnnaKlingner KerstinGaedicke SimoneNiedermann GabrieleMerhof DoritFeuerhake FriedrichSchueler Julia

首页> 外文期刊>journal for immunotherapy of cancer >Immune cell infiltration pattern in non-small cell lung cancer PDX models is a model immanent feature and correlates with a distinct molecular and phenotypic make-up

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Immune cell infiltration pattern in non-small cell lung cancer PDX models is a model immanent feature and correlates with a distinct molecular and phenotypic make-up

机译：Immune cell infiltration pattern in non-small cell lung cancer PDX models is a model immanent feature and correlates with a distinct molecular and phenotypic make-up

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Background The field of cancer immunology is rapidly moving towards innovative therapeutic strategies, resulting in the need for robust and predictive preclinical platforms reflecting the immunological response to cancer. Well characterized preclinical models are essential for the development of predictive biomarkers in the oncology as well as the immune-oncology space. In the current study, gold standard preclinical models are being refined and combined with novel image analysis tools to meet those requirements. Methods A panel of 14 non-small cell lung cancer patient-derived xenograft models (NSCLC PDX) was propagated in humanized NOD/Shi-scid/IL-2Rnull mice. The models were comprehensively characterized for relevant phenotypic and molecular features, including flow cytometry, immunohistochemistry, histology, whole exome sequencing and cytokine secretion. Results Models reflecting hot (>5% tumor-infiltrating lymphocytes/TILs) as opposed to cold tumors (<5% TILs) significantly differed regarding their cytokine profiles, molecular genetic aberrations, stroma content, and programmed cell death ligand-1 status. Treatment experiments including anti cytotoxic T-lymphocyte-associated protein 4, anti-programmed cell death 1 or the combination thereof across all 14 models in the single mouse trial format showed distinctive tumor growth response and spatial immune cell patterns as monitored by computerized analysis of digitized whole-slide images. Image analysis provided for the first time qualitative evaluation of the extent to which PDX models retain the histological features from their original human donors. Conclusions Deep phenotyping of PDX models in a humanized setting by combinations of computational pathology, immunohistochemistry, flow cytometry and proteomics enables the exhaustive analysis of innovative preclinical models and paves the way towards the development of translational biomarkers for immuno-oncology drugs.

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《journal for immunotherapy of cancer》 |2022年第4期|共15页
作者
Oswald Eva; Bug Daniel; Grote AnneLashuk KanstantsinBouteldja NassimLenhard DorotheeLoehr AnneBehnke AnkeKnauff VolkerEdinger AnnaKlingner KerstinGaedicke SimoneNiedermann GabrieleMerhof DoritFeuerhake FriedrichSchueler Julia;
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Charles River Labs Inc;

Rhein Westfal TH Aachen;

Hannover Med SchUniv FreiburgGerman Canc Consortium;

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原文格式 PDF
正文语种英语
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lung neoplasms; tumor microenvironment; biomarkers; tumor; immunohistochemistry; TUMOR XENOGRAFTS; HUMANIZED MICE; BEAD ARRAY; EXPRESSION; PLATFORM;

Immune cell infiltration pattern in non-small cell lung cancer PDX models is a model immanent feature and correlates with a distinct molecular and phenotypic make-up

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