Antitumor Effect of Lonidamine-Polypeptide-Peptide Nanoparticles in Breast Cancer Models.

Biomaterials folded into nanoparticles (NPs) can be utilized as targeted drug delivery systems for cancer therapy. NPs may provide a vehicle for the anticancer drug lonidamine (LND), which inhibits glycolysis but was suspended from use at the clinical trial stage because of its hepatotoxicity due to poor solubility and pharmacokinetic properties. The NPs prepared by coassembly of the anionic polypeptide poly gamma glutamic acid (γ-PGA) and a designed amphiphilic and positively charged peptide (designated as mPoP-NPs) delivered LND to the mitochondria in cell cultures. In this study, we demonstrate that LND-mPoP-NP effective drug concentrations can be increased to reach therapeutically relevant concentrations. The self-assembled NP solution was subjected to snap-freezing and lyophilization and the resultant powder was redissolved in a tenth of the original volume. The NP size and their ability to target the proximity of the mitochondria of breast cancer cells were both maintained in this new formulation, C-LND-mPoP-NPs. Furthermore, these NPs exhibited 40% better cytotoxicity, relative to the nonlyophilized LND-mPoP-NPs and led to tumor growth inhibition with no adverse side effects upon intravenous administration in a xenograft breast cancer murine model.

Ultrasound Effect on Cancerous versus Non-Cancerous Cells.

Previous studies have found that cancer cells whose metastatic potential is low are more vulnerable to mechanical stress-induced trauma to their cytoskeleton compared with benign cells. Because ultrasound induces mechanical stresses on cells and tissues, it is postulated that there may be a way to apply ultrasound to tumors to reduce their ability to metastasize. The difference between low-malignant-potential cancer cells and benign cells could be a result of their different responses to the mechanical stress insonation induced. This hypothesis was tested in vitro and in vivo. Low-malignant-potential cells were found to be more sensitive to insonation, resulting in a significantly higher mortality rate compared with that of benign cells, 89% versus 21%, respectively. This effect can be controlled by varying ultrasound parameters: intensity, duration, and duty cycle. Thus, the results presented in this study suggest the application of ultrasound to discriminate between benign and malignant cells.

Photon activation therapy and brachytherapy.

PURPOSE: In photon activation therapy (PAT), energy deposition at critical sites within a tumor can be increased by complexing the DNA with higher Z atoms, and provoking the emission of Auger electrons after inducing a photoelectric effect. This in vivo study evaluates the hypothesis using X-rays from palladium-103 seeds to excite the L-edge of platinum (Pt) atoms bound to the DNA of cancerous cells. METHODS AND MATERIALS: Pt (II) tetrakis(N-methyl-4-pyridyl) porphyrin chloride was used to locate Pt atoms adjacent to the DNA of the KHJJ murine mammary carcinoma; a 2.3-mCi palladium-103 seed was implanted in the tumor. RESULTS: The tumor periphery received subtherapeutic doses. The rate of tumor growth in mice treated with PAT was slower than in mice treated with brachytherapy only. CONCLUSIONS: The tumor growth delay for PAT-treated mice is attributed to Auger emission from Pt atoms that produced substantial local damage. However, other co-existing mechanisms cannot be ruled out.

Positive cooperativity in the cellular uptake of a boronated porphyrin.

This work was undertaken to assess the kinetics of boronated porphyrin cellular uptake, which has been reported to occur by way of the low-density lipoprotein receptors. Because of current interest in the use of boronated porphyrins in boron neutron capture therapy of tumors, this pathway was investigated for the cellular uptake of a boronated porphyrin (tetrakis-carborane-carboxylate, esters of 2,4-bis (alpha,beta-dihydroxyethyl) deuteroporphyrin IX). Boron uptake occurred even without low-density lipoprotein in the culture medium. Pre-incubation of V-79 Chinese hamster cells for 24 h in medium containing delipidized fetal bovine serum markedly increased the subsequent uptake of boron when compared with cells pre-incubated with medium containing 10% fetal bovine serum. The increased uptake was characterized by greater affinity for boronated porphyrin, compared to cells pre-incubated in 10% fetal bovine serum. Twenty-four hour preincubation of cells with increasing concentrations of LDL added to delipidized medium suppressed the up-regulation of the boron level. In contrast, incubation with added acetylated LDL did not prevent the up-regulation of boron uptake. Positive cooperativity was demonstrated by Hill and Scatchard plots. It is concluded that uptake of boronated porphyrin is characterized by positive cooperativity, that its uptake is markedly enhanced when preincubated in delipidized serum, and that significant uptake occurs even in the absence of low density lipoprotein in the medium. These data suggest a novel way for enhancing uptake of boron (and perhaps other agents) into tissues using carrier porphyrins, by increasing the number and/or affinity of cellular LDL receptors.