Citation Details

Journal Article

Bioware; Medicine; PC-3M-luc

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Journal Article

Bioware; PC-3M-luc; hVEGF-luc-PC3M

Background: Preclinical cancer studies increasingly utilize non-invasive imaging modalities. In the current study we have monitored tumor growth and vascular changes using two in vivo imaging tools: surface bioluminescence (BLI) and ultrasound biomicroscopy (UBM). BLI permits visualization of tumor location in the context of the whole body, including metastases localization. UBM imaging then permits high resolution 3D volumetric tumor measurements as well as blood flow estimates down to 200 microns/s. Measurements obtained from these complementary modalities were analyzed and compared to conventional, biochemical markers. Methods: Human prostate cancer cells expressing Firefly Luciferase constitutively (PC-3M-luc-C6) or under the control of hVEGF promoter (hVEGF-luc/PC3M) were implanted into male nude mice via an intradermal or subcutaneous injection. Tumor-bearing mice were subsequently imaged every week for nine weeks starting at week 2, by UBM to measure tumor burden using 3D volumetric analysis, or to estimate blood flow using speckle-variance flow processing. Surface bioluminescence was also acquired 10 minutes post i.p. injection of D-luciferin. In a longitudinal drug intervention study anti-hVEGF antibody (Bevacizumab, 200 ug) was injected i.p. into nude mice with subcutaneous xenografts of PC-3M-luc-C6 or hVEGF-luc/PC-3M twice per week for three weeks, starting at 14 days post-xenograft. UBM and surface BLI imaging were conducted every week. In order to study the correlation between VEGF expression in hVEGF-luc/PC3M xenografts (estimated by BLI) to tumor hypoxia level, mice were injected with pimonidazole hydrochloride (60 mg/kg i.v.) after three weeks of treatment and tumors were harvested for immunostaining analysis. Results: Surface BLI outputs (photons/s) from subcutaneous PC-3M-luc-C6 xenografts were highly correlated to tumor volumes measured using 3D UBM for small tumors (<100 mm3, r=0.92, n=8), yet poorly correlated to tumors of large size (>100 mm3, r=0.079, n=8). BLI signals in subcutaneous hVEGF-luc/PC3M xenografts showed an inverse trend to tumor blood flow. PC-3M-luc-C6 tumors treated with Bevacizumab showed growth inhibition by day 28 as demonstrated by 3D UBM (control vs treated = 67.27 vs 48.54 mm3). Moreover, control xenografts showed increased average BLI output over time, whereas treated tumors showed variation in BLI output. Necrosis, hypoxia and blood flow estimates were also investigated. Conclusions: Surface bioluminescence imaging demonstrated high correlations to accurate 3D UBM volumetric measurements of small tumor volumes, suggesting its usefulness in tracking early tumor growth quantitatively in drug intervention studies. A complementary imaging modality, like ultrasound biomicroscopy, is recommended to monitor tumor burden in advanced stages.

Journal Article

Bioware; SKOV3-luc-D3 cells

Peritoneal dissemination is a common feature of human ovarian carcinoma. While this can be mimicked in preclinical models by intraperitoneal injection of human ovarian tumor cells into immunocompromised mice, the resulting tumor burden is difficult to monitor and quantify. Intraperitoneal tumor growth is typically evaluated indirectly by measured changes in mouse abdominal girth and body weight or, directly, by macroscopic and histological examination at the endpoint of the study. In order to establish a model system that allows continuous and accurate assessment of ovarian cancer growth and spread over time we transfected SKOV-3 cells with the firefly luciferase gene. The resulting cell line, SKOV3-luc-D3, expresses stable levels of luciferase in vitro and emits a strong luminescent signal when exposed to luciferin. Xenograft tumors established with this cell line can be tracked and quantified non-invasively by bioluminescent imaging using a highly sensitive, cooled CCD camera (IVIS(R) Imaging System, Xenogen Corp). In addition to providing a direct measure of primary tumor burden and growth, the SKOV3-luc-D3 cell line also allows for real-time evaluation of tumor response to various therapeutic agents, as well as enhanced detection of distal metastases.

Journal Article

Bioware; Xen29

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Journal Article

bone marrow cells; Cancer; cell labeling; in vitro; in vivo imaging; Olympus IV-100; tail vein injection; VivoTag 750

Mucosal damage is a common side effect of many cancer treatments, especially radiotherapy and intensive chemotherapy, which often induce bone marrow (BM) suppression. We observed that acetic acid- (AA-) induced mucosal damage in the colon of mice was worsened by simultaneous treatment with irradiation or 5-FU. However, irradiation 14 days prior to the AA treatment augmented the recovery from mucosal damage, suggesting that the recovery from BM suppression had an advantageous effect on the mucosal repair. In addition, BM transplantation also augmented the recovery from AA-induced mucosal damage. We further confirmed that transplanted BM-derived cells, particularly F4/80+Gr1+ “inflammatory” monocytes (Subset 1), accumulated in the damaged mucosal area in the early healing phase, and both of Subset 1 and F4/80+Gr1^- “resident” monocytes (Subset 2) accumulated in this area in later phases. Our results suggest that monocytes/macrophages contribute to the mucosal recovery and regeneration following mucosal damage by anticancer drug therapy.