Yingping Hou scite author profile

Targeting drugs to receptors involved in tumor angiogenesis is a novel and promising approach to improve cancer treatment. In this study, we evaluated the antitumor activity of paclitaxel (PTX) conjugated with a bicyclic peptide E[c(RGDyK)](2) (RGD) in a metastatic breast cancer cell line (MDA-MB-435). The cyclic RGD peptide selectively binds to alpha(v) integrin receptors that are highly expressed in metastatic cancer cells. PTX, an antimicrotubule agent, is a potent antitumor agent commonly used in the treatment of advanced metastatic breast cancer. The in vitro results showed that RGD peptide inhibited cell cycle proliferation by arresting cells in G(0)/G(1)-phase. The PTX-RGD conjugate inhibited cell proliferation with activity comparable to that observed for paclitaxel, both of which were mediated by an arrest of G(2)/M-phase of the cell cycle followed by apoptosis. Although the PTX-RGD conjugate showed slightly decreased integrin binding affinity than the unconjugated peptide, it indicated integrin specific accumulation in vivo. (125)I-Labeled PTX-RGD showed highest tumor uptake at 2 h postinjection (2.72 +/-0.16%ID/g) and best tumor/background contrast after 4 h postinjection. Our results demonstrate the potential of tumor-targeted delivery of paclitaxel based on the specific recognition of cell adhesion molecule alpha(v)beta(3) integrin to reduce toxicity and enhance selective killing of cancer cells.

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MicroPET imaging of brain tumor angiogenesis with 18F-labeled PEGylated RGD peptide

Chen

Park

Hou

et al. 2004

Eur J Nucl Med Mol Imaging

172

149

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We have previously labeled cyclic RGD peptide c(RGDyK) with fluorine-18 through conjugation labeling via a prosthetic 4-[18F]fluorobenzoyl moiety and applied this [18F]FB-RGD radiotracer for alphav-integrin expression imaging in different preclinical tumor models with good tumor-to-background contrast. However, the unfavorable hepatobiliary excretion and rapid tumor washout rate of this tracer limit its potential clinical applications. The aims of this study were to modify the [18F]FB-RGD tracer by inserting a heterobifunctional poly(ethylene glycol) (PEG, M.W. =3,400) between the 18F radiolabel and the RGD moiety and to test this [18F]FB-PEG-RGD tracer for brain tumor targeting and in vivo kinetics. [18F]FB-PEG-RGD was prepared by coupling the RGD-PEG conjugate with N-succinimidyl 4-[18F]fluorobenzoate ([18F]SFB) under slightly basic conditions (pH=8.5). The radiochemical yield was about 20-30% based on the active ester [18F]SFB, and specific activity was over 100 GBq/micromol. This tracer had fast blood clearance, rapid and high tumor uptake in the subcutaneous U87MG glioblastoma model (5.2+/-0.5%ID/g at 30 min p.i.). Moderately rapid tumor washout was observed, with the activity accumulation decreased to 2.2+/-0.4%ID/g at 4 h p.i. MicroPET and autoradiography imaging showed a very high tumor-to-background ratio and limited activity accumulation in the liver, kidneys and intestinal tracts. U87MG tumor implanted into the mouse forebrain was well visualized with [18F]FB-PEG-RGD. Although uptake in the orthotopic tumor was significantly lower (P<0.01) than in the subcutaneous tumor, the maximum tumor-to-brain ratio still reached 5.0+/-0.6 due to low normal brain background. The results of H&E staining post mortem agreed with the anatomical information obtained from non-invasive microPET imaging. In conclusion, PEGylation suitably modifies the physiological behavior of the RGD peptide. [18F]FB-PEG-RGD gave improved tumor retention and in vivo kinetics compared with [18F]FB-RGD.

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Integrin αβ3-Targeted Imaging of Lung Cancer

et al. 2005

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A series of radiolabeled cyclic arginine-glycine-aspartic acid (RGD) peptide ligands for cell adhesion molecule integrin alpha v beta 3-targeted tumor angiogenesis targeting are being developed in our laboratory. In this study, this effort continues by applying a positron emitter 64Cu-labeled PEGylated dimeric RGD peptide radiotracer 64Cu-DOTA-PEG-E[c(RGDyK)]2 for lung cancer imaging. The PEGylated RGD peptide indicated integrin alpha v beta 3 avidity, but the PEGylation reduced the receptor binding affinity of this ligand compared to the unmodified RGD dimer. The radiotracer revealed rapid blood clearance and predominant renal clearance route. The minimum nonspecific activity accumulation in normal lung tissue and heart rendered high-quality orthotopic lung cancer tumor images, enabling clear demarcation of both the primary tumor at the upper lobe of the left lung, as well as metastases in the mediastinum, contralateral lung, and diaphragm. As a comparison, fluorodeoxyglucose (FDG) scans on the same mice were only able to identify the primary tumor, with the metastatic lesions masked by intense cardiac uptake and high lung background. 64Cu-DOTA-PEG-E[c(RGDyK)]2 is an excellent position emission tomography (PET) tracer for integrin-positive tumor imaging. Further studies to improve the receptor binding affinity of the tracer and subsequently to increase the magnitude of tumor uptake without comprising the favorable in vivo kinetics are currently in progress.

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Yingping Hou

MicroPET imaging of breast cancer ?-integrin expression with Cu-labeled dimeric RGD peptides

Synthesis and Biological Evaluation of Dimeric RGD Peptide−Paclitaxel Conjugate as a Model for Integrin-Targeted Drug Delivery

MicroPET imaging of brain tumor angiogenesis with 18F-labeled PEGylated RGD peptide

Integrin αβ3-Targeted Imaging of Lung Cancer

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