Molecularly targeted nanocarriers deliver the cytolytic peptide melittin specifically to tumor cells in mice, reducing tumor growth
Neelesh R. Soman, … , Samuel A. Wickline, Paul H. Schlesinger
Neelesh R. Soman, … , Samuel A. Wickline, Paul H. Schlesinger
Published August 10, 2009
Citation Information: J Clin Invest. 2009;119(9):2830-2842. https://doi.org/10.1172/JCI38842.
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Molecularly targeted nanocarriers deliver the cytolytic peptide melittin specifically to tumor cells in mice, reducing tumor growth

Abstract

The in vivo application of cytolytic peptides for cancer therapeutics is hampered by toxicity, nonspecificity, and degradation. We previously developed a specific strategy to synthesize a nanoscale delivery vehicle for cytolytic peptides by incorporating the nonspecific amphipathic cytolytic peptide melittin into the outer lipid monolayer of a perfluorocarbon nanoparticle. Here, we have demonstrated that the favorable pharmacokinetics of this nanocarrier allows accumulation of melittin in murine tumors in vivo and a dramatic reduction in tumor growth without any apparent signs of toxicity. Furthermore, direct assays demonstrated that molecularly targeted nanocarriers selectively delivered melittin to multiple tumor targets, including endothelial and cancer cells, through a hemifusion mechanism. In cells, this hemifusion and transfer process did not disrupt the surface membrane but did trigger apoptosis and in animals caused regression of precancerous dysplastic lesions. Collectively, these data suggest that the ability to restrain the wide-spectrum lytic potential of a potent cytolytic peptide in a nanovehicle, combined with the flexibility of passive or active molecular targeting, represents an innovative molecular design for chemotherapy with broad-spectrum cytolytic peptides for the treatment of cancer at multiple stages.

Authors

Neelesh R. Soman, Steven L. Baldwin, Grace Hu, Jon N. Marsh, Gregory M. Lanza, John E. Heuser, Jeffrey M. Arbeit, Samuel A. Wickline, Paul H. Schlesinger

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Figure 4

Delivery of melittin from integrin αvβ3–targeted nanoparticles to endothelial cells and cancer cells.

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Delivery of melittin from integrin αvβ3–targeted nanoparticles to endoth...
(A and B) A 5-fold reduction in IC50 after specific targeting of melittin-loaded nanoparticles to endothelial cells and melanoma cells. 3-hour cell proliferation was determined by the MTT assay (see Methods). Incorporation of melittin onto nanoparticles produces a 25-fold protection from free peptide (IC50 of 1–2 μM for free melittin and greater than 25 μM for nontargeted nanoparticles). Specific targeting of the nanoparticles to αvβ3 integrins produces a 5-fold enhancement of melittin toxicity; IC50, 6–8 μM. Data are represented as mean ± SD. (C and D) A typical permanganate-fixed transmission picture (left) and platinum replica images (right) of C32 melanoma cells interacting with either nontargeted (C) or αvβ3 integrin–targeted nanoparticles (D). (E) Selected higher magnification platinum replica images of nanoparticles on the plasma membrane and microvilli of C32 melanoma cells. Left 2 panels show nontargeted nanoparticles, and the right 2 panels show αvβ3 integrin–targeted nanoparticles attached to microvilli. Scale bars: 200 nm.