Kerri Wolf-Dennen scite author profile

Bladder cancer (BC), a heterogeneous disease characterized by high recurrence rates, is diagnosed and monitored by cystoscopy. Accurate clinical staging based on biopsy remains a challenge, and additional, objective diagnostic tools are needed urgently. We used exosomal DNA (exoDNA) as an analyte to examine cancer-associated mutations and compared the diagnostic utility of exoDNA from urine and serum of individuals with BC. In contrast to urine exosomes from healthy individuals, urine exosomes from individuals with BC contained significant amounts of DNA. Whole-exome sequencing of DNA from matched urine and serum exosomes, bladder tumors, and normal tissue (peripheral blood mononuclear cells) identified exonic and 3 0 UTR variants in frequently mutated genes in BC, detectable in urine exoDNA and matched tumor samples. Further analyses identified somatic variants in driver genes, unique to urine exoDNA, possibly because of the inherent intra-tumoral heterogeneity of BC, which is not fully represented in random small biopsies. Multiple variants were also found in untranslated portions of the genome, such as micro-RNA (miRNA)-binding regions of the KRAS gene. Gene network analyses revealed that exoDNA is associated with cancer, inflammation, and immunity in BC exosomes. Our findings show utility of exoDNA as an objective, non-invasive strategy to identify novel biomarkers and targets for BC.

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Exosomal communication by metastatic osteosarcoma cells contributes to the modulation of alveolar macrophages to an M2 tumor-promoting phenotype

Wolf-Dennen

Gordon

Kleinerman

2019

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Osteosarcoma (OS) metastasizes to the lung and there is a link between tumor-promoting M2 macrophage content and poorer patient survival. Conversely, high M1 content correlates with improved survival. M2 macrophages are immunosuppressive, contribute to tumor progression and metastasis, and can be induced by various stimuli in the tumor microenvironment, including exosomes (Exo). Exo are small 40–150 nm vesicles that are involved in inter-cellular communication, and contribute to tumor progression, increased tumor survival and immune evasion. Because of the link between M2 content and inferior patient survival, we evaluated the effect of Exo from non-metastatic K7 OS cells and the metastatic subline K7M3 on macrophage phenotype and function. Incubating MHS mouse alveolar macrophage cells with K7M3 Exo induced mRNA expression of IL10, TGFB2, IL1rα, and CCL22, (markers of M2 macrophages), and decreased phagocytosis, efferocytosis and macrophage-mediated tumor cell killing. In contrast, Exo from non-metastatic K7 or 3T3 normal fibroblast cells did not inhibit phagocytosis, efferocytosis or macrophage-mediated tumor cell killing. Our data suggest that the Exo from metastatic OS cells can modulate cellular signaling of tumor associated macrophages, thereby promoting the M2 phenotype and inhibiting their phagocytic and cytotoxic abilities. Identifying the factors within Exo from metastatic OS cells and the mechanisms responsible for Exo communication between metastatic OS cells and macrophages could reveal new therapeutic targets and opportunities to improve the treatment of patients with metastatic disease in the lung.

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Kerri Wolf-Dennen

Exosomal communication by metastatic osteosarcoma cells modulates alveolar macrophages to an M2 tumor-promoting phenotype and inhibits tumoricidal functions

Exosomes: Dynamic Mediators of Extracellular Communication in the Tumor Microenvironment

Unique somatic variants in DNA from urine exosomes of individuals with bladder cancer

Exosomal communication by metastatic osteosarcoma cells contributes to the modulation of alveolar macrophages to an M2 tumor-promoting phenotype

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