Jordan A. Naumann scite author profile

We describe a customizable approach to cancer therapy in which a gold nanoparticle (Au-NP) delivers a drug that is selectively activated within the cancer cell by the presence of an mRNA unique to the cancer cell. Fundamental to this approach is the observation that the amount of drug released from the Au-NP is proportional to both the presence and abundance of the cancer cell specific mRNA in a cell. As proof-of-principle, we demonstrate both the efficient delivery and selective release of the multi-kinase inhibitor dasatinib from Au-NPs in leukemia cells with resulting efficacy in vitro and in vivo. Furthermore, these Au-NPs reduce toxicity against hematopoietic stem cells and T-cells. This approach has the potential to improve the therapeutic efficacy of a drug and minimize toxicity while being highly customizable with respect to both the cancer cell specific mRNAs targeted and drugs activated.

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SN-38 Conjugated Gold Nanoparticles Activated by Ewing Sarcoma Specific mRNAs Exhibit In Vitro and In Vivo Efficacy

Naumann

Widen²,

Jonart

et al. 2018

Bioconjugate Chem.

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The limited delivery of chemotherapy agents to cancer cells and the nonspecific action of these agents are significant challenges in oncology. We have previously developed a customizable drug delivery and activation system in which a nucleic acid functionalized gold nanoparticle (Au-NP) delivers a drug that is selectively activated within a cancer cell by the presence of an mRNA unique to the cancer cell. The amount of drug released from sequestration to the Au-NP is determined by both the presence and the abundance of the cancer cell specific mRNA in a cell. We have now developed this technology for the potent, but difficult to deliver, topoisomerase I inhibitor SN-38. Herein, we demonstrate both the efficient delivery and selective release of SN-38 from gold nanoparticles in Ewing sarcoma cells with resulting efficacy in vitro and in vivo. These results provide further preclinical validation for this novel cancer therapy and may be extendable to other cancers that exhibit sensitivity to topoisomerase I inhibitors.

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In vitromodel of leukemia cell migration across the blood–cerebrospinal fluid barrier

Naumann

Gordon

2016

Leukemia & Lymphoma

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Efficient Synthetic Approach to Linear Dasatinib–DNA Conjugates by Click Chemistry

Gossai

Naumann

et al. 2016

Bioconjugate Chem.

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Two synthetic approaches to linear dasatinib-DNA conjugates via click chemistry are described. One approach involves the reaction of excess azido dasatinib derivative with 5'-(5-hexynyl) tagged DNAs and the other involves the reaction of excess alkynyl linked dasatinib with 5'-azido tagged DNA. The second approach using alkynyl derived dasatinib and 5'-azido tagged DNA yielded the corresponding dasatinib-DNA conjugates in higher yield (47% versus 10-33% for the first approach). Studies have shown these linear dasatinib-DNA conjugates derived gold nanoparticles exhibit efficacy against leukemia cancer cells with reduced toxicity toward normal cells compared to free dasatinib.

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Jordan A. Naumann

The central nervous system microenvironment influences the leukemia transcriptome and enhances leukemia chemo-resistance

Drug conjugated nanoparticles activated by cancer cell specific mRNA

SN-38 Conjugated Gold Nanoparticles Activated by Ewing Sarcoma Specific mRNAs Exhibit In Vitro and In Vivo Efficacy

In vitromodel of leukemia cell migration across the blood–cerebrospinal fluid barrier

Efficient Synthetic Approach to Linear Dasatinib–DNA Conjugates by Click Chemistry

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