Paul Pantano scite author profile

Single-walled carbon nanotubes (CNTs) emit heat when they absorb energy from near-infrared (NIR) light. Tissue is relatively transparent to NIR, which suggests that targeting CNTs to tumor cells, followed by noninvasive exposure to NIR light, will ablate tumors within the range of NIR. In this study, we demonstrate the specific binding of antibody-coupled CNTs to tumor cells in vitro, followed by their highly specific ablation with NIR light. Biotinylated polar lipids were used to prepare stable, biocompatible, noncytotoxic CNT dispersions that were then attached to one of two different neutralite avidin-derivatized mAbs directed against either human CD22 or CD25. CD22 ؉ CD25 ؊ Daudi cells bound only CNTs coupled to the anti-CD22 mAb; CD22 ؊ CD25 ؉ activated peripheral blood mononuclear cells bound only to the CNTs coupled to the anti-CD25 mAb. Most importantly, only the specifically targeted cells were killed after exposure to NIR light.immunoconjugates ͉ lymphoma cells ͉ monoclonal antibodies ͉ nanotechnology ͉ near infrared light

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Monitoring an oxidative stress mechanism at a single human fibroblast

Arbault

Pantano

Jankowski³

et al. 1995

Anal. Chem.

131

140

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Easily oxidizable substances inside human diploid fibroblast cell strains were monitored amperometrically with a platinized carbon-fiber microelectrode. The experiment involved positioning a microelectrode over a single biological cell, forcing the electrode tip into the cell via micromanipulator control, and measuring the transient current corresponding to the complete electrolysis of electroactive species released by the cell. A second series of experiments involved puncturing a hole into the cell with a micropipet and measuring the transient current corresponding to the complete electrolysis of electroactive species emitted by the cell with an electrode positioned above the cell. The selectivity of both amperometric measurements was demonstrated through the use of known hydrogen peroxide scavengers (added catalase or intracellular peroxidase + added o-dianisidine) to the media bathing the cells. The abolition of the amperometric signal under these conditions suggested that hydrogen peroxide was the primary substance detected. The magnitude and the time course of the transient current measured implied that the hydrogen peroxide detected was not only that initially present in the cell before its membrane was pierced but represented mostly an oxidative stress response of the cell to its injury.

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Single-walled carbon nanotube interactions with HeLa cells

et al. 2007

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This work concerns exposing cultured human epithelial-like HeLa cells to single-walled carbon nanotubes (SWNTs) dispersed in cell culture media supplemented with serum. First, the asreceived CoMoCAT SWNT-containing powder was characterized using scanning electron microscopy and thermal gravimetric analyses. Characterizations of the purified dispersions, termed DM-SWNTs, involved atomic force microscopy, inductively coupled plasma -mass spectrometry, and absorption and Raman spectroscopies. Confocal microRaman spectroscopy was used to demonstrate that DM-SWNTs were taken up by HeLa cells in a time-and temperature-dependent fashion. Transmission electron microscopy revealed SWNT-like material in intracellular vacuoles. The morphologies and growth rates of HeLa cells exposed to DM-SWNTs were statistically similar to control cells over the course of 4 d. Finally, flow cytometry was used to show that the fluorescence from MitoSOX™ Red, a selective indicator of superoxide in mitochondria, was statistically similar in both control cells and cells incubated in DM-SWNTs. The combined results indicate that under our sample preparation protocols and assay conditions, CoMoCAT DM-SWNT dispersions are not inherently cytotoxic to HeLa cells. We conclude with recommendations for improving the accuracy and comparability of carbon nanotube (CNT) cytotoxicity reports.

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Ordered Nanowell Arrays

1996

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Ordered arrays of micrometer- and nanometer-sized wells were fabricated by chemically etching an optical imaging fiber's distal face. Well depth was controlled by the etch reaction time. Well packing densities could be increased by tapering the imaging fiber's distal tip. The smallest wells had a 50-nm depth and a 125-nm radius corresponding to a 3 × 10-18-L volume and a packing density of 3.6 × 108 wells/cm2. Ordered nanowell arrays were used as templates to emboss polymeric films with patterned nanometer-sized structures.

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Cytotoxicity Screening of Single-Walled Carbon Nanotubes: Detection and Removal of Cytotoxic Contaminants from Carboxylated Carbon Nanotubes

Wang

Mikoryak²,

Li³

et al. 2011

Mol. Pharmaceutics

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This study compares the cytotoxicity to cultured mammalian cells of nine different single-walled carbon nanotube (SWNT) products synthesized by a variety of methods and obtained from a cross section of vendors. A standard procedure involving sonication and centrifugation in buffered bovine serum albumin was developed to disperse all the SWNTs in a biocompatible solution to facilitate comparisons. The effect of the SWNTs on the proliferative ability of a standard cell line was then assessed. Of the nine different SWNT materials tested, only two were significantly toxic, and both were functionalized by carboxylation from different vendors. This was unexpected because carboxylation makes SWNTs more water soluble, which would presumably correlate with better biocompatibility. However, additional purification work demonstrated that the toxic material in the carboxylated SWNT preparations could be separated from the SWNTs by filtration. The filtrate that contained the toxic activity also contained abundant small carbon fragments that had Raman signatures characteristic of amorphous carbon species, suggesting a correlation between toxicity and oxidized carbon fragments. The removal of a toxic contaminant associated with carboxylated SWNTs is important in the development of carboxylated SWNTs for pharmacological applications.

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Paul Pantano

Thermal ablation of tumor cells with antibody-functionalized single-walled carbon nanotubes

Monitoring an oxidative stress mechanism at a single human fibroblast

Single-walled carbon nanotube interactions with HeLa cells

Ordered Nanowell Arrays

Cytotoxicity Screening of Single-Walled Carbon Nanotubes: Detection and Removal of Cytotoxic Contaminants from Carboxylated Carbon Nanotubes

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