Tumor-penetrating peptide enhances transcytosis of silicasome-based chemotherapy for pancreatic cancer
Xiangsheng Liu, … , Andre E. Nel, Huan Meng
Xiangsheng Liu, … , Andre E. Nel, Huan Meng
Published April 17, 2017
Citation Information: J Clin Invest. 2017;127(5):2007-2018. https://doi.org/10.1172/JCI92284.
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Research Article Oncology

Tumor-penetrating peptide enhances transcytosis of silicasome-based chemotherapy for pancreatic cancer

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is almost uniformly fatal; however, some improvement in overall survival has been achieved with the introduction of nanocarriers that deliver irinotecan or paclitaxel. Although it is generally assumed that nanocarriers rely principally on abnormal leaky vasculature for tumor access, a transcytosis transport pathway that is regulated by neuropilin-1 (NRP-1) has recently been reported. NRP-1–mediated transport can be triggered by the cyclic tumor-penetrating peptide iRGD. In a KRAS-induced orthotopic PDAC model, coadministration of iRGD enhanced the uptake of an irinotecan-loaded silicasome carrier that comprises lipid bilayer–coated mesoporous silica nanoparticles (MSNPs); this uptake resulted in enhanced survival and markedly reduced metastasis. Further, ultrastructural imaging of the treated tumors revealed that iRGD coadministration induced a vesicular transport pathway that carried Au-labeled silicacomes from the blood vessel lumen to a perinuclear site within cancer cells. iRGD-mediated enhancement of silicasome uptake was also observed in patient-derived xenografts, commensurate with the level of NRP-1 expression on tumor blood vessels. These results demonstrate that iRGD enhances the efficacy of irinotecan-loaded silicasome–based therapy and may be a suitable adjuvant in nanoparticle-based treatments for PDAC.

Authors

Xiangsheng Liu, Paulina Lin, Ian Perrett, Joshua Lin, Yu-Pei Liao, Chong Hyun Chang, Jinhong Jiang, Nanping Wu, Timothy Donahue, Zev Wainberg, Andre E. Nel, Huan Meng

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Figure 6

iRGD-induced silicasome biodistribution in patient-derived xenografts in NSG mice.

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iRGD-induced silicasome biodistribution in patient-derived xenografts in...
(A) A pair of tumors (XWR#8 and XWR#187) with matched stromal abundance but differing levels of NRP-1 expression was selected for a biodistribution study in the absence and presence of iRGD coadministration. Masson’s trichrome staining shows equivalent levels of collagen expression in both tumors. Multicolor IHC staining (green fluorescent antibody for NRP-1, red fluorescent antibody for CD31) was used to determine the relative abundance of NRP-1 expression and the extent of overlap with endothelial cells, using ImageJ software. Data represent mean ± SD. *P < 0.05, 2-tailed Student’s t test. (B) The tumor-bearing animals received i.v. injection of 50 mg/kg NIR-labeled silicasome with or without coadministration of 8 μmol/kg iRGD. Animals were sacrificed after 24 hours (n = 3). Ex vivo assessment of the uptake of silicasomes as determined by NIR fluorescence intensity and Si content. Data represent mean ± SD. *P < 0.05, 2-tailed Student’s t test.