Contrast-enhanced in vivo imaging of breast and prostate cancer cells by MRI.
Rodriguez O, Fricke S, Chien C, Dettin L, Vanmeter J, Shapiro E, Dai HN, Casimiro M, Ileva L, Dagata J, Johnson MD, Lisanti MP, Koretsky A, Albanese C.
Lombardi Cancer Center, Department of Oncology, Georgetown University Medical Center, Washington, DC, USA
The development of effective cancer therapies has been hampered, in part, by
the inability to noninvasively follow tumor progression from the initial
cancerous lesion through to metastasis. We have previously shown that
superparamagnetic iron oxide particles can be used as magnetic resonance
imaging contrast agents to label embryonic, mesenchymal and hematopoietic
stem cells in vivo. Improving the capacity to non-invasively image cancer
progression is an appealing method that could be useful for assessing the
efficacy of anticancer therapies. We have established that human prostate
(LNCaP, DU145, PC3), rodent prostate (TRAMPC1, YPEN-1), human breast
(MDA-MB-231) and mouse mammary (Myc/VEGF) cancer cell lines were readily
labeled by fluorescent superparamagnetic sub-micron particles of iron
oxide (MPIOs). The MPIOs were essentially inert with respect to cell
proliferation and tumor formation. Fluorescence stereomicroscopy and
three dimensional magnetic resonance imaging (MRI) determined that
subcutaneous, intramuscular or orthotopically implanted labeled cancer cells
could be imaged, in vivo, despite in some cases being undetectable by
manual palpation. The MPIO-labeled cancer cells could also be imaged, in
vivo, at least 6 weeks after implantation. The fluorescent MPIOs further
allowed for the ex vivo identification of tumors cells from histological
sections. This study demonstrates the feasibility of using fluorescent
MPIOs in prostate and breast cancer cell lines as both a negative contrast
agent for in vivo MRI as well as a fluorescent tumor marker for optical
imaging in vivo and ex vivo.
PMID: 16340310 [PubMed - indexed for MEDLINE]