Mona Jodari scite author profile

Cancer metastasis accounts for the majority of cancer-related deaths owing to poor response to anticancer therapies. Molecular understanding of metastasis-associated drug resistance remains elusive due to the scarcity of available tumor tissue. Isolation of circulating tumor cells (CTCs) from the peripheral blood of patients has emerged as a valid alternative source of tumor tissue that can be subjected to molecular characterization. However, issues with low purity and sensitivity have impeded adoption to clinical practice. Here we report a novel method to capture and molecularly characterize CTCs isolated from castrate-resistant prostate cancer patients (CRPC) receiving taxane chemotherapy. We have developed a geometrically enhanced differential immunocapture (GEDI) microfluidic device that combines an anti-prostate specific membrane antigen (PSMA) antibody with a 3D geometry that captures CTCs while minimizing nonspecific leukocyte adhesion. Enumeration of GEDI-captured CTCs (defined as intact, nucleated PSMA+/CD45− cells) revealed a median of 54 cells per ml identified in CRPC patients versus 3 in healthy donors. Direct comparison with the commercially available CellSearch® revealed a 2–400 fold higher sensitivity achieved with the GEDI device. Confocal microscopy of patient-derived GEDI-captured CTCs identified the TMPRSS2:ERG fusion protein, while sequencing identified specific androgen receptor point mutation (T868A) in blood samples spiked with only 50 PC C4-2 cells. On-chip treatment of patient-derived CTCs with docetaxel and paclitaxel allowed monitoring of drug-target engagement by means of microtubule bundling. CTCs isolated from docetaxel-resistant CRPC patients did not show any evidence of drug activity. These measurements constitute the first functional assays of drug-target engagement in living circulating tumor cells and therefore have the potential to enable longitudinal monitoring of target response and inform the development of new anticancer agents.

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MicroRNA‐494 within an oncogenic microRNA megacluster regulates G ₁ /S transition in liver tumorigenesis through suppression of mutated in colorectal cancer

Lim

et al. 2013

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Hepatocellular carcinoma (HCC) is associated with poor survival for patients and few effective treatment options, raising the need for novel therapeutic strategies. MicroRNAs (miRNAs) play important roles in tumor development and show deregulated patterns of expression in HCC. Because of the liver’s unique affinity for small nucleic acids, miRNA based therapy has been proposed in the treatment of liver disease. There is thus an urgent need to identify and characterize aberrantly expressed miRNAs in HCC. In our study, we profiled miRNA expression changes in de novo liver tumors driven by MYC and/or RAS, two canonical oncogenes activated in a majority of human HCC. We identified an upregulated miRNA megacluster comprised of 53 miRNAs on mouse chromosome 12qF1 (human homolog 14q32). This miRNA megacluster is upregulated in all three transgenic liver models and in a subset of human HCCs. An unbiased functional analysis of all miRNAs within this cluster was performed. Conclusion We found that miR-494 is overexpressed in human HCC, and aids in transformation by regulating the G1/S cell cycle transition through targeting of the Mutated in Colorectal Cancer (MCC) tumor suppressor. miR-494 inhibition in human HCC cell lines decreases cellular transformation and anti-miR-494 treatment of primary MYC-driven liver tumor formation significantly diminishes tumor size. Our findings identify a new therapeutic target, miR-494, for the treatment of HCC.

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Mona Jodari

Functional Characterization of Circulating Tumor Cells with a Prostate-Cancer-Specific Microfluidic Device

MicroRNA‐494 within an oncogenic microRNA megacluster regulates G ₁ /S transition in liver tumorigenesis through suppression of mutated in colorectal cancer

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Mona Jodari

Functional Characterization of Circulating Tumor Cells with a Prostate-Cancer-Specific Microfluidic Device

MicroRNA‐494 within an oncogenic microRNA megacluster regulates G 1 /S transition in liver tumorigenesis through suppression of mutated in colorectal cancer

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Resources

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MicroRNA‐494 within an oncogenic microRNA megacluster regulates G ₁ /S transition in liver tumorigenesis through suppression of mutated in colorectal cancer