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Fox Chase Cancer Center

12 ARTICLES PUBLISHED IN JoVE

Biology

Dendra2 Photoswitching through the Mammary Imaging Window

Bojana Gligorijevic^1,2, Dmitriy Kedrin¹, Jeffrey E Segall¹, John Condeelis^1,2, Jacco van Rheenen^1,2,3

¹Department of Anatomy and Structural Biology, Albert Einstein College of Medicine - Yeshiva University, ²Gruss Lipper Biophotonics Center, Albert Einstein College of Medicine - Yeshiva University, ³Hubrecht Institute-KNAW and University Medical Center Utrecht

Intravital photoswitching and tracking of Dendra2-labeled tumor cells through the Mammary Imaging Window is a technique which allows us to image the metastatic behavior of tumor cells in chosen tumor microenvironments over a timescale of days.

Biology

In vivo Imaging and Therapeutic Treatments in an Orthotopic Mouse Model of Ovarian Cancer

Alexis B. Cordero¹, Youngjoo Kwon¹, Xiang Hua², Andrew K. Godwin¹

¹Department of Medical Oncology, Women's Cancer Program, ²Transgenic Mouse Facility, Fox Chase Cancer Center

Orthotopic animal models of ovarian cancer replicate better human disease and therefore enhance our understanding of cancer progression and tumor response to therapy. A mouse model receives an intrabursal injection of luciferase-expressing ovarian tumor cells. Treatment is administered via oral gavage. Tumor growth is monitored by in vivo imaging system.

Immunology and Infection

An Orthotopic Model of Serous Ovarian Cancer in Immunocompetent Mice for in vivo Tumor Imaging and Monitoring of Tumor Immune Responses

Selene Nunez-Cruz¹, Denise C. Connolly², Nathalie Scholler¹

¹Penn Ovarian Cancer Research Center, Center for Research on Reproduction and Womans Health, Department of Obstetrics and Gynecology, University of Pennsylvania-School of Medicine, ²Women's Cancer Program, Fox Chase Cancer Center

To study in vivo tumor growth and tumor microenvironment, we used a syngeneic and orthotopic mouse model of ovarian cancer in immunocompetent animals. We transduced a mouse tumor cell line (MOV1) with Katushka fluorescent protein (MOV1^KAT) and here we show its orthotopic implantation in ovary and in vivo imaging.

Neuroscience

Live-cell Imaging of Sensory Organ Precursor Cells in Intact Drosophila Pupae

Diana Zitserman¹, Fabrice Roegiers¹

¹Epigenetics and Progenitor Cells Keystone, Fox Chase Cancer Center

In this video, we describe a method for live cell imaging of asymmetrically dividing sensory organ progenitor cells and epidermal cells in intact Drosophila pupae

Medicine

An in vivo Assay to Test Blood Vessel Permeability

Maria Radu¹, Jonathan Chernoff¹

¹Fox Chase Cancer Center

We are presenting an in vivo assay to test blood vessel permeability. This assay is based on intravenous injection of a dye and subsequent visualization of its diffusion into interstitial spaces.

Medicine

Carotid Artery Infusions for Pharmacokinetic and Pharmacodynamic Analysis of Taxanes in Mice

Joely D. Jacobs¹, Elizabeth A. Hopper-Borge¹

¹Program in Developmental Therapeutics, Fox Chase Cancer Center

This method was developed with the goal of delivering a steady drug solution via the carotid artery, to assess the pharmacokinetics of novel drugs in mouse models.

Biochemistry

Detection of Heterodimerization of Protein Isoforms Using an in Situ Proximity Ligation Assay

Sofiia Karchugina¹, Jonathan Chernoff¹

¹Fox Chase Cancer Center

Here, we show how to use a Proximity Ligation Assay (PLA) to visualize MST1/MST2 heterodimerization in fixed cells with high sensitivity.

Cancer Research

Flow Cytometric Analysis of Mitochondrial Reactive Oxygen Species in Murine Hematopoietic Stem and Progenitor Cells and MLL-AF9 Driven Leukemia

Daniela Di Marcantonio¹, Stephen M. Sykes¹

¹Blood Cell Development and Function Program, Fox Chase Cancer Center

We describe a method for using multiparameter flow cytometry to detect mitochondrial reactive oxygen species (ROS) in murine healthy hematopoietic stem and progenitor cells (HSPCs) and leukemia cells from a mouse model of acute myeloid leukemia (AML) driven by MLL-AF9.

Biology

Time-Resolved Fluorescence Imaging and Analysis of Cancer Cell Invasion in the 3D Spheroid Model

Louisiane Perrin¹, Theodore Tucker¹, Bojana Gligorijevic^1,2

¹Bioengineering Department, Temple University, ²Cancer Biology Program, Fox Chase Cancer Center

Presented here is a protocol for the fabrication of a spheroid imaging device. This device enables dynamic or longitudinal fluorescence imaging of cancer cell spheroids. The protocol also offers a simple image processing procedure for the analysis of cancer cell invasion.

Cancer Research

Modeling Oral-Esophageal Squamous Cell Carcinoma in 3D Organoids

Samuel Flashner^*1, Cecilia Martin^*1,2, Norihiro Matsuura¹, Masataka Shimonosono¹, Yasuto Tomita¹, Masaki Morimoto¹, Ogoegbunam Okolo¹, Victoria X. Yu^1,3, Anuraag S. Parikh^1,3, Andres J. P. Klein-Szanto⁴, Kelley Yan^1,2, Joel T. Gabre^1,5, Chao Lu^1,6, Fatemeh Momen-Heravi^1,7, Anil K. Rustgi^1,5, Hiroshi Nakagawa^1,2,5

¹Herbert Irving Comprehensive Cancer Center, Columbia University, ²Organoid and Cell Culture Core, Columbia University Digestive and Liver Diseases Research Center, Columbia University, ³Department of Otolaryngology, Head and Neck Surgery, Columbia University, ⁴Histopathology Facility, Fox Chase Cancer Center, ⁵Division of Digestive and Liver Diseases, Department of Medicine, Columbia University, ⁶Department of Genetics and Development, Columbia University, ⁷Section of Oral, Diagnostic and Rehabilitation Sciences, College of Dental Medicine, Columbia University

This protocol describes the key steps to generate and characterize murine oral-esophageal 3D organoids that represent normal, preneoplastic, and squamous cell carcinoma lesions induced via chemical carcinogenesis.

Cancer Research

Tracking Tumor Cell Dissemination from Lung Metastases Using Photoconversion

Madeline Friedman-DeLuca^1,2, Prachiben P. Patel^1,2, Burcu Karadal-Ferrena^1,2, Nicole D. Barth^1,2, Camille L. Duran^1,2, Xianjun Ye^1,2,3, Michael Papanicolaou^2,4, John S. Condeelis^2,3,4,5,6,7, Maja H. Oktay^1,2,3,5,6,7, Lucia Borriello^*1,2,8, David Entenberg^*1,2,3,5,6

¹Department of Pathology, Albert Einstein College of Medicine/Montefiore Medical Center, ²Cancer Dormancy and Tumor Microenvironment Institute, Albert Einstein College of Medicine/Montefiore Medical Center, ³Gruss-Lipper Biophotonics Center, Albert Einstein College of Medicine/Montefiore Medical Center, ⁴Department of Cell Biology, Albert Einstein College of Medicine/Montefiore Medical Center, ⁵Montefiore Einstein Cancer Center, Albert Einstein College of Medicine/Montefiore Medical Center, ⁶Integrated Imaging Program for Cancer Research, Albert Einstein College of Medicine/Montefiore Medical Center, ⁷Department of Surgery, Albert Einstein College of Medicine/Montefiore Medical Center, ⁸Department of Cancer and Cellular Biology, Lewis Katz School of Medicine, Fox Chase Cancer Center

We present a method for studying tumor cell redissemination from lung metastases involving a surgical protocol for the selective photoconversion of lung metastases, followed by the identification of redisseminated tumor cells in tertiary organs.

Cancer Research

A Simple, Rapid, and Effective Method for Tumor Xenotransplantation Analysis in Transparent Zebrafish Embryos

Monika Verma¹, Michele Rhodes¹, Susan Shinton¹, David L. Wiest¹

¹Nuclear Dynamics and Cancer Program, Fox Chase Cancer Center

We describe a protocol for xenotransplantation into the yolk of transparent zebrafish embryos that is optimized by a simple, rapid staging method. Post-injection analyses include survival and assessing the disease burden of xenotransplanted cells by flow cytometry.