Spying on Cancer: Molecular Imaging in Vivo with Genetically Encoded Reporters

Overview

Journal Cancer Cell

Publisher Cell Press

Specialty Oncology

Date 2005 Jan 18

PMID 15652745

Citations 103

Authors

Shimon Gross

David Piwnica-Worms

Affiliations

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Abstract

Genetically encoded imaging reporters introduced into cells and transgenic animals enable noninvasive, longitudinal studies of dynamic biological processes in vivo. The most common reporters include firefly luciferase (bioluminescence imaging), green fluorescence protein (fluorescence imaging), herpes simplex virus-1 thymidine kinase (positron emission tomography), and variants with enhanced spectral and kinetic properties. When cloned into promoter/enhancer sequences or engineered into fusion proteins, imaging reporters allow transcriptional regulation, signal transduction, protein-protein interactions, oncogenic transformation, cell trafficking, and targeted drug action to be spatiotemporally resolved in vivo. Spying on cancer with genetically encoded imaging reporters provides insight into cancer-specific molecular machinery within the context of the whole animal.

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