Lipoproteins LDL versus HDL as nanocarriers to target either cancer cells or macrophages
Tarik Hadi, … , Carmen Garrido, Frederic Lirussi
Tarik Hadi, … , Carmen Garrido, Frederic Lirussi
Published November 30, 2020
Citation Information: JCI Insight. 2020;5(24):e140280. https://doi.org/10.1172/jci.insight.140280.
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Research Article Oncology Therapeutics

Lipoproteins LDL versus HDL as nanocarriers to target either cancer cells or macrophages

Abstract

In this work, we have explored natural unmodified low- and high-density lipoproteins (LDL and HDL, respectively) as selective delivery vectors in colorectal cancer therapy. We show in vitro in cultured cells and in vivo (NanoSPECT/CT) in the CT-26 mice colorectal cancer model that LDLs are mainly taken up by cancer cells, while HDLs are preferentially taken up by macrophages. We loaded LDLs with cisplatin and HDLs with the heat shock protein-70 inhibitor AC1LINNC, turning them into a pair of “Trojan horses” delivering drugs selectively to their target cells as demonstrated in vitro in human colorectal cancer cells and macrophages, and in vivo. Coupling of the drugs to lipoproteins and stability was assessed by mass spectometry and raman spectrometry analysis. Cisplatin vectorized in LDLs led to better tumor growth suppression with strongly reduced adverse effects such as renal or liver toxicity. AC1LINNC vectorized into HDLs induced a strong oxidative burst in macrophages and innate anticancer immune response. Cumulative antitumor effect was observed for both drug-loaded lipoproteins. Altogether, our data show that lipoproteins from patient blood can be used as natural nanocarriers allowing cell-specific targeting, paving the way toward more efficient, safer, and personalized use of chemotherapeutic and immunotherapeutic drugs in cancer.

Authors

Tarik Hadi, Christophe Ramseyer, Thomas Gautier, Pierre-Simon Bellaye, Tatiana Lopez, Antonin Schmitt, Sarah Foley, Semen Yesylevskyy, Thibault Minervini, Romain Douhard, Lucile Dondaine, Lil Proukhnitzky, Samir Messaoudi, Maeva Wendremaire, Mathieu Moreau, Fabrice Neiers, Bertrand Collin, Franck Denat, Laurent Lagrost, Carmen Garrido, Frederic Lirussi

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Figure 2

LDL- and HDL-Bodipy biodistribution in tumor-bearing mice.

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LDL- and HDL-Bodipy biodistribution in tumor-bearing mice. (A and B) Fem...
(A and B) Female Balb/c mice (n = 3) were grafted by s.c. injection of 1 × 106 CT-26 colorectal tumor cells. Insets show transverse images. When tumor reached approximately 300 mm3, tumor-bearing mice were given 5 μg 111In-DOTAGA-HDL (A) or 111In-DOTAGA-LDL (8−10 MBq) (B) by i.v. injection. SPECT/CT dual imaging was performed 1, 24, and 72 hours after the injection of the radiolabeled conjugate using a NanoSPECT/CT small animal imaging tomographic γ-camera. CT (55 kVp, 34 mAs) and helical SPECT acquisitions were performed in immediate sequence. Radioactivity was measured with a scintillation γ-counter from tumor and heart. Data were then converted to percentage of injected dose per gram of tissue (%ID/g). SPECT/CT fusion image was obtained using the InVivoScope software. (CG) Radioactivity in tumors (C and D, n = 6), heart (E and F, and n = 3), and blood, liver, and spleen (G and n = 3) was measured was measured with a scintillation γ-counter. Data are presented as mean value ± SEM. *P < 0.05, ***P < 0.001. P values were calculated using 1-way ANOVA.