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A thermosensitive liposome prepared with a Cu 2+ gradient demonstrates improved pharmacokinetics, drug delivery and antitumor efficacy

A thermosensitive liposome prepared with a Cu 2+ gradient demonstrates improved pharmacokinetics, drug delivery and antitumor efficacy
A thermosensitive liposome prepared with a Cu 2+ gradient demonstrates improved pharmacokinetics, drug delivery and antitumor efficacy

Here we report the development of an enhanced thermosensitive formulation composed of DPPC and Brij78, loaded with doxorubicin (DOX) using a Cu 2+ gradient and post-inserted with an additional amount of Brij78. This optimal formulation (HaT-II: Hyperthermia-activated cytoToxic) displayed significantly improved stability in serum at 37°C, and enhanced drug release rates at 41-42°C, compared to LTSL (lyso-lipid temperature sensitive liposomes, DPPC/MSPC/DSPE-PEG 2000 = 86/10/4, pH gradient drug loading). HaT-II released 100% DOX within 15-40 s at 40-42°C, with only 5% drug leakage at 37°C after 30 min in serum, while LTSL lost 30% of its drug content at 37°C and exhibited ∼ 2-fold decreased release rate constants at 41-42°C under the same conditions. The pharmacokinetics of DOX was significantly improved in non-heated HaT-II treated healthy mice with 2.5-fold increased area under the curve and 2-fold prolonged circulation half life compared to LTSL. This led to 2-fold improved drug delivery to the heated tumor by HaT-II (∼ 20% injected dose/g tissue), relative to LTSL and significantly enhanced antitumor efficacy with complete inhibition of tumor growth after a single dose of HaT-II. Finally, HaT-II exhibited little toxicity in mice, inducing no body weight loss and no abnormality in the blood chemistry (10 mg DOX/kg).

Brij78, Copper gradient for drug loading, Mild hyperthermia, Thermosensitive liposomes, Triggered drug release, Tumor-targeted drug delivery
0168-3659
142-149
Tagami, Tatsuaki
0e56cc6b-7fbe-4b02-8cc9-ef8dd5fee818
May, Jonathan P.
b54a262b-9f32-4435-8866-3b9c495294f3
Ernsting, Mark J.
9e64eeae-7374-44df-a9cd-5e1b26c94e20
Li, Shyh Dar
9a960896-36e7-4eb8-bd39-55580c60e36d
Tagami, Tatsuaki
0e56cc6b-7fbe-4b02-8cc9-ef8dd5fee818
May, Jonathan P.
b54a262b-9f32-4435-8866-3b9c495294f3
Ernsting, Mark J.
9e64eeae-7374-44df-a9cd-5e1b26c94e20
Li, Shyh Dar
9a960896-36e7-4eb8-bd39-55580c60e36d

Tagami, Tatsuaki, May, Jonathan P., Ernsting, Mark J. and Li, Shyh Dar (2012) A thermosensitive liposome prepared with a Cu 2+ gradient demonstrates improved pharmacokinetics, drug delivery and antitumor efficacy. Journal of Controlled Release, 161 (1), 142-149. (doi:10.1016/j.jconrel.2012.03.023).

Record type: Article

Abstract

Here we report the development of an enhanced thermosensitive formulation composed of DPPC and Brij78, loaded with doxorubicin (DOX) using a Cu 2+ gradient and post-inserted with an additional amount of Brij78. This optimal formulation (HaT-II: Hyperthermia-activated cytoToxic) displayed significantly improved stability in serum at 37°C, and enhanced drug release rates at 41-42°C, compared to LTSL (lyso-lipid temperature sensitive liposomes, DPPC/MSPC/DSPE-PEG 2000 = 86/10/4, pH gradient drug loading). HaT-II released 100% DOX within 15-40 s at 40-42°C, with only 5% drug leakage at 37°C after 30 min in serum, while LTSL lost 30% of its drug content at 37°C and exhibited ∼ 2-fold decreased release rate constants at 41-42°C under the same conditions. The pharmacokinetics of DOX was significantly improved in non-heated HaT-II treated healthy mice with 2.5-fold increased area under the curve and 2-fold prolonged circulation half life compared to LTSL. This led to 2-fold improved drug delivery to the heated tumor by HaT-II (∼ 20% injected dose/g tissue), relative to LTSL and significantly enhanced antitumor efficacy with complete inhibition of tumor growth after a single dose of HaT-II. Finally, HaT-II exhibited little toxicity in mice, inducing no body weight loss and no abnormality in the blood chemistry (10 mg DOX/kg).

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More information

Published date: 10 July 2012
Keywords: Brij78, Copper gradient for drug loading, Mild hyperthermia, Thermosensitive liposomes, Triggered drug release, Tumor-targeted drug delivery

Identifiers

Local EPrints ID: 455303
URI: http://eprints.soton.ac.uk/id/eprint/455303
DOI: doi:10.1016/j.jconrel.2012.03.023
ISSN: 0168-3659
PURE UUID: 22c564bd-248b-4146-8a51-881cdaa7a617
ORCID for Jonathan P. May: ORCID iD orcid.org/0000-0003-1651-130X

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Date deposited: 16 Mar 2022 18:04
Last modified: 18 Mar 2024 03:49

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Contributors

Author: Tatsuaki Tagami
Author: Jonathan P. May ORCID iD
Author: Mark J. Ernsting
Author: Shyh Dar Li

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