2,057 research outputs found
Traditional Chinese medicine herbal mixture LQ arrests FUCCI-expressing HeLa cells in Gâ/Gâ phase in 2D plastic, 2.5D Matrigel, and 3D Gelfoam culture visualized with FUCCI imaging.
We used the fluorescence ubiquitination-based cell cycle indicator (FUCCI) to monitor cell cycle arrest after treatment of FUCCI-expressing HeLa cells (FUCCI-HeLa) with a traditional Chinese medicine (TCM) herbal mixture LQ, previously shown to have anti-tumor and anti-metastatic activity in mouse models. Paclitaxel was used as the positive control. In 2D monolayer culture, the untreated control had approximately 45% of the cells in S/Gâ/M phase. In contrast, the LQ-treated cells (9 mg/ml) were mostly in the Gâ/Gâ (>90%) after 72 hours. After treatment with paclitaxel (0.01 ÎŒm), for 72 hours, 95% of the cells were in S/Gâ/M. In 2.5D Matrigel culture, the colonies in the untreated control group had 40% of the cells in S/Gâ/M. LQ arrested the cells in Gâ/Gâ after 72 hours. Paclitaxel arrested almost all the cells in S/Gâ/M after 72 hours. In 3D Gelfoam culture, the untreated control culture had approximately 45% of cells in Gâ/M. In contrast, the LQ-treated cells were mostly in Gâ/Gâ phase (>80%) after 72 hours treatment. Paclitaxel resulted in 90% of the cells arrested in S/Gâ/M after 72 hours. The present report suggests the non-toxic LQ has potential to maintain cancers in a quiescent state for long periods of time
Targeting the insulin growth factor-1 receptor with fluorescent antibodies enables high resolution imaging of human pancreatic cancer in orthotopic mouse models.
The goal of the present study was to determine whether insulin-like growth factor-1 receptor (IGF-1R) antibodies, conjugated with bright fluorophores, could enable visualization of pancreatic cancer in orthotopic nude mouse models. IGF-1R antibody (clone 24-31) was conjugated with 550 nm or 650 nm fluorophores. Western blotting confirmed the expression of IGF-1R in Panc-1, BxPC3, and MIAPaCa-2 human pancreatic cancer cell lines. Labeling with fluorophore-conjugated IGF-1R antibody demonstrated fluorescent foci on the membrane of the pancreatic cancer cells. Subcutaneous Panc-1, BxPC-3, and MIA PaCa-2 tumors became fluorescent after intravenous administration of fluorescent IGF-1R antibodies. Orthotopically-transplanted BxPC-3 tumors became fluorescent with the conjugated IGF-1R antibodies, and were easily visible with intravital imaging. Gross and microscopic ex vivo imaging of resected pancreatic tumor and normal pancreas confirmed that fluorescence indeed came from the membrane of cancer cells, and it was stronger from the tumor than the normal tissue. The present study demonstrates that fluorophore-conjugated IGF-1R antibodies can visualize pancreatic cancer and it can be used with various imaging devices such as endoscopy and laparoscopy for diagnosis and fluorescence-guided surgery
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