Sunkuk Kwon scite author profile

Targeted fluorescent molecular imaging probes may provide an optimal means of detecting disease. Stable, organic fluorophores can be repeatedly excited in vivo by propagated light and consequentially can provide large signal-to-noise ratios (SNRs) for image detection of target tissues. In the literature, many small animal imaging studies are performed with a red excitable dye, Cy5.5, conjugated to the targeting component. We report the comparison of the in vivo fluorescent imaging performance of a near-IR (NIR) and a red-excitable dye. Epidermal growth factor (EGF) was conjugated with Cy5.5 [excitation/emission (ex/em), 660710 nm] or IRDye 800CW (ex/em: 785830 nm) for imaging EGF receptor (EGFr) positive (MDA-MB-468) and/or negative (MDA-MB-435) human breast cancer cell lines in subcutaneous xenograft models. The conjugates were injected intravenously at 1-nmol-dye equivalent with and without anti-EGFr monoclonal antibody C225, preadministered 24 h prior as a competitive ligand to EGFr. Our images show that while both agents target EGFr, the EGF-IRDye 800CW evidenced a significantly reduced background and enhanced the tumor-to-background ratio (TBR) compared to the EGF-Cy5.5. Immunohistochemistry shows that EGF causes activation of the EGFr signaling pathway, suggesting that prior to use as a targeting, diagnostic agent, potential deleterious effects should be considered.

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Dual-Labeled Trastuzumab-Based Imaging Agent for the Detection of Human Epidermal Growth Factor Receptor 2 Overexpression in Breast Cancer

Sampath¹,

Kwon²,

Shi³

et al. 2007

Journal of Nuclear Medicine

174

149

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Human Lymphatic Architecture and Dynamic Transport Imaged Using Near-infrared Fluorescence

Rasmussen

Tan

Marshall

et al. 2010

Translational Oncology

115

134

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RASA1 maintains the lymphatic vasculature in a quiescent functional state in mice

Lapinski¹,

Kwon²,

Lubeck³

et al. 2012

J. Clin. Invest.

113

116

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RASA1 (also known as p120 RasGAP) is a Ras GTPase-activating protein that functions as a regulator of blood vessel growth in adult mice and humans. In humans, RASA1 mutations cause capillary malformation-arteriovenous malformation (CM-AVM); whether it also functions as a regulator of the lymphatic vasculature is unknown. We investigated this issue using mice in which Rasa1 could be inducibly deleted by administration of tamoxifen. Systemic loss of RASA1 resulted in a lymphatic vessel disorder characterized by extensive lymphatic vessel hyperplasia and leakage and early lethality caused by chylothorax (lymphatic fluid accumulation in the pleural cavity). Lymphatic vessel hyperplasia was a consequence of increased proliferation of lymphatic endothelial cells (LECs) and was also observed in mice in which induced deletion of Rasa1 was restricted to LECs. RASA1-deficient LECs showed evidence of constitutive activation of Ras in situ. Furthermore, in isolated RASA1-deficient LECs, activation of the Ras signaling pathway was prolonged and cellular proliferation was enhanced after ligand binding to different growth factor receptors, including VEGFR-3. Blockade of VEGFR-3 was sufficient to inhibit the development of lymphatic vessel hyperplasia after loss of RASA1 in vivo. These findings reveal a role for RASA1 as a physiological negative regulator of LEC growth that maintains the lymphatic vasculature in a quiescent functional state through its ability to inhibit Ras signal transduction initiated through LEC-expressed growth factor receptors such as VEGFR-3.

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Noninvasive Quantitative Imaging of Lymph Function in Mice

Kwon

Sevick‐Muraca

2007

Lymphatic Research and Biology

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Sunkuk Kwon

Comparison of visible and near-infrared wavelength-excitable fluorescent dyes for molecular imaging of cancer

Dual-Labeled Trastuzumab-Based Imaging Agent for the Detection of Human Epidermal Growth Factor Receptor 2 Overexpression in Breast Cancer

Human Lymphatic Architecture and Dynamic Transport Imaged Using Near-infrared Fluorescence

RASA1 maintains the lymphatic vasculature in a quiescent functional state in mice

Noninvasive Quantitative Imaging of Lymph Function in Mice

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