Nick Frazier scite author profile

In the field of nanomedicine, selective delivery to cancer cells is a common goal, where active targeting strategies are often employed to increase tumor accumulation. In this study, tumor hyperthermia was utilized as a means to increase the active delivery of heat shock protein (HSP) targeted N-(2-hydroxypropyl)methacrylamide (HPMA) copolymer-drug conjugates. Following hyperthermia, induced expression of cell surface heat shock protein (HSP) glucose regulated protein 78 kDa (GRP78) was utilized for targeted drug therapy. Conjugates bearing the anticancer agents aminohexylgeldanamycin (AHGDM), docetaxel (DOC), or cisplatin and the GRP78 targeting peptide WDLAWMFRLPVG were synthesized and characterized. Binding to cell surface expressed heat shock protein GRP78 on the surface of human prostate cancer DU145 cells was evaluated. HSP targeted AHGDM and DOC conjugates demonstrated active binding comparable to native targeting peptide. They were then assessed in vitro for the ability to synergistically induce cytotoxicity in combination with moderate hyperthermia (43°C, 30 min.). HSP targeted DOC conjugates exhibited high potency against DU145 cells with an IC50 of 2.4 nM. HSP targeted AHGDM and DOC conjugates demonstrated synergistic effects in combination with hyperthermia with combination index values of 0.65 and 0.45 respectively. Based on these results, HSP targeted DOC conjugates were selected for in vivo evaluation. In DU145 tumor bearing mice, a single treatment of tumor hyperthermia, induced via gold nanorod mediated plasmonic photothermal therapy, and intravenous administration of HSP targeted HPMA copolymer-docetaxel at 10 mg/kg resulted in maintained tumor regression for a period of 30 days. These results demonstrate the potential for tumor hyperthermia to increase the delivery of HSP targeted macromolecular chemotherapeutics.

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Plasmonic photothermal therapy increases the tumor mass penetration of HPMA copolymers

Gormley

Larson

Banisadr

et al. 2013

Journal of Controlled Release

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Effective drug delivery to tumors requires both transport through the vasculature and tumor interstitium. Previously, it was shown that gold nanorod (GNR) mediated plasmonic photothermal therapy (PPTT) is capable of increasing the overall accumulation of N-(2-hydroxypropyl)methacrylamide (HPMA) copolymers in prostate tumors. In the present study, it is demonstrated that PPTT is also capable of increasing the distribution of these conjugates in tumors. Gadolinium labeled HPMA copolymers were administered to mice bearing prostate tumors immediately before treatment of the right tumor with PPTT. The left tumor served as internal, untreated control. Magnetic resonance imaging (MRI) of both tumors showed that PPTT was capable of improving the tumor mass penetration of HPMA copolymers. Thermal enhancement of delivery, roughly 1.5-fold, to both the tumor center and periphery was observed. Confocal microscopy of fluorescently labeled copolymers corroborates these findings in that PPTT is capable of delivering more HPMA copolymers to the tumor’s center and periphery. These results further demonstrate that PPTT is a useful tool to improve the delivery of polymer-drug conjugates.

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Hyperthermia approaches for enhanced delivery of nanomedicines to solid tumors

Frazier

Ghandehari²

2015

Biotech & Bioengineering

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Drug delivery to solid tumors has received much attention in order to reduce harmful side effects and improve the efficacy of treatment. Different strategies have been utilized with nanoparticle drug delivery systems, or nanomedicines, including passive and active targeting strategies, as well as the incorporation of stimuli sensitivity. Additionally, hyperthermia has been used in combination with such systems to further improve accumulation, localization, penetration, and subsequently efficacy. Localized hyperthermia within the solid tumor tissue can be applied through different mechanisms able to trigger vascular and cellular mechanisms for enhanced delivery of nanomedicines. This review covers the use of nanoparticles in drug delivery, the different methods for inducing localized hyperthermia, combination effects of hyperthermia, and successful strategies for improving the delivery of nanomedicines using hyperthermia.

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Gold nanorod-mediated hyperthermia enhances the efficacy of HPMA copolymer-90Y conjugates in treatment of prostate tumors

Buckway

Frazier

Gormley

et al. 2014

Nuclear Medicine and Biology

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Introduction-The treatment of prostate cancer using a radiotherapeutic 90 Y labeled N-(2-hydroxypropyl)methacrylamide (HPMA)copolymer can be enhanced with localized tumor hyperthermia. An 111 In labeled HPMA copolymer system for single photon emission computerized tomography (SPECT) was developed to observe the biodistribution changes associated with hyperthermia. Efficacy studies were conducted in prostate tumor bearing mice using the 90 Y HPMA copolymer with hyperthermia.

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Nick Frazier

Synergistic enhancement of cancer therapy using a combination of heat shock protein targeted HPMA copolymer–drug conjugates and gold nanorod induced hyperthermia

Plasmonic photothermal therapy increases the tumor mass penetration of HPMA copolymers

Hyperthermia approaches for enhanced delivery of nanomedicines to solid tumors

Gold nanorod-mediated hyperthermia enhances the efficacy of HPMA copolymer-90Y conjugates in treatment of prostate tumors

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