Norman Thomas scite author profile

Summary Lung cancer, the leading cause of cancer mortality, exhibits heterogeneity that enables adaptability, limits therapeutic success, and remains incompletely understood. Single-cell RNA sequencing (scRNA-seq) of metastatic lung cancer was performed using 49 clinical biopsies obtained from 30 patients before and during targeted therapy. Over 20,000 cancer and tumor microenvironment (TME) single-cell profiles exposed a rich and dynamic tumor ecosystem. scRNA-seq of cancer cells illuminated targetable oncogenes beyond those detected clinically. Cancer cells surviving therapy as residual disease (RD) expressed an alveolar-regenerative cell signature suggesting a therapy-induced primitive cell-state transition, whereas those present at on-therapy progressive disease (PD) upregulated kynurenine, plasminogen, and gap-junction pathways. Active T-lymphocytes and decreased macrophages were present at RD and immunosuppressive cell states characterized PD. Biological features revealed by scRNA-seq were biomarkers of clinical outcomes in independent cohorts. This study highlights how therapy-induced adaptation of the multi-cellular ecosystem of metastatic cancer shapes clinical outcomes.

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Tumor vessel normalization after aerobic exercise enhances chemotherapeutic efficacy

Schadler

et al. 2016

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Targeted therapies aimed at tumor vasculature are utilized in combination with chemotherapy to improve drug delivery and efficacy after tumor vascular normalization. Tumor vessels are highly disorganized with disrupted blood flow impeding drug delivery to cancer cells. Although pharmacologic anti-angiogenic therapy can remodel and normalize tumor vessels, there is a limited window of efficacy and these drugs are associated with severe side effects necessitating alternatives for vascular normalization. Recently, moderate aerobic exercise has been shown to induce vascular normalization in mouse models. Here, we provide a mechanistic explanation for the tumor vascular normalization induced by exercise. Shear stress, the mechanical stimuli exerted on endothelial cells by blood flow, modulates vascular integrity. Increasing vascular shear stress through aerobic exercise can alter and remodel blood vessels in normal tissues. Our data in mouse models indicate that activation of calcineurin-NFAT-TSP1 signaling in endothelial cells plays a critical role in exercise-induced shear stress mediated tumor vessel remodeling. We show that moderate aerobic exercise with chemotherapy caused a significantly greater decrease in tumor growth than chemotherapy alone through improved chemotherapy delivery after tumor vascular normalization. Our work suggests that the vascular normalizing effects of aerobic exercise can be an effective chemotherapy adjuvant.

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RETRACTED: CD44 Expression Denotes a Subpopulation of Gastric Cancer Cells in Which Hedgehog Signaling Promotes Chemotherapy Resistance

Yoon¹,

Park²,

Schmidt

et al. 2014

172

169

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Purpose Gastric cancers (GC) may harbor a small subset of cells with cancer stem cell (CSC) properties including chemotherapy (CT) resistance. The Hedgehog (HH) pathway is a key developmental pathway that can be subverted by CSCs during tumorigenesis. Here we examine the role of HH signaling in CD44(+) GC cells. Experimental Design GC cell lines, tumor xenografts, and patient tumors were examined. Results GC cell lines AGS, MKN-45, and NCI-N87 grown as spheroids or sorted for CD44(+) were found to have upregulation of HH pathway proteins. HH inhibition using Smo shRNA or vismodegib (VIS) decreased spheroid formation and colony formation. CD44(+) cells, compared to unselected cells, were also resistant to 5-fluorouracil and cisplatin CT, and this resistance was reversed in vitro and in xenografts with Smo shRNA or VIS. CD44(+) cells also had significantly more migration, invasion, and anchorage-independent growth, and these properties could all be blocked with HH inhibition. Clinical tumor samples from a phase II trial for advanced GC of CT with or without VIS were analyzed for CD44 expression. In the CT alone group, high CD44 expression was associated with decreased survival, while in the CT plus VIS group, high CD44 expression was associated with improved survival. Conclusions HH signaling maintains CSC phenotypes and malignant transformation phenotypes in CD44(+) GC cells, and HH inhibition can block CT resistance in CD44(+) cells. GC is a heterogeneous disease, and the strategy of combining CT with HH inhibition may only be effective in the subset with high CD44 levels.

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Norman Thomas

Therapy-Induced Evolution of Human Lung Cancer Revealed by Single-Cell RNA Sequencing

Tumor vessel normalization after aerobic exercise enhances chemotherapeutic efficacy

RETRACTED: CD44 Expression Denotes a Subpopulation of Gastric Cancer Cells in Which Hedgehog Signaling Promotes Chemotherapy Resistance

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