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Thermosensitive liposomes for the delivery of gemcitabine and oxaliplatin to tumors

Thermosensitive liposomes for the delivery of gemcitabine and oxaliplatin to tumors
Thermosensitive liposomes for the delivery of gemcitabine and oxaliplatin to tumors

The majority of ultrafast temperature sensitive liposome (uTSL) formulations reported in the literature deliver the highly membrane permeable drug, doxorubicin (DOX). Here we report on the study of the uTSL formulation, HaT (Heat activated cytoToxic, composed of the phospholipid DPPC and the surfactant Brij78) loaded with the water-soluble, but poorly membrane permeable anticancer drugs, gemcitabine (GEM) and oxaliplatin (OXA). The HaT formulation displayed ultrafast release of these drugs in response to temperature, whereas attempts with LTSL (Lyso-lipid Temperature Sensitive Liposome, composed of DPPC, MSPC, and DSPE-PEG) were unsuccessful. HaT-GEM and HaT-OXA both released >80% of the encapsulated drug within 2 min at 40-42°C, with <5% drug leakage at 37°C after 30 min in serum. The pharmacokinetic profile of both drugs was improved by formulating with HaT relative to the free drug, with clearance reduced by 50-fold for GEM and 3-fold for OXA. HaT-GEM and HaT-OXA both displayed improved drug uptake in the heated tumor relative to the unheated tumor (by 9-fold and 3-fold, respectively). In particular, HaT-GEM showed 25-fold improved delivery to the heated tumor relative to free GEM and significantly enhanced antitumor efficacy with complete tumor regression after a single dose of HaT-GEM. These data suggest that uTSL technology can also be used to deliver nonmembrane permeable drugs via an intravascular ultrafast release mechanism to great effect.

Brij78, gemcitabine, mild hyperthermia, oxaliplatin, thermosensitive liposomes, triggered drug release, tumor-targeted drug delivery, ultrafast drug release
1543-8384
4499-4508
May, Jonathan P.
b54a262b-9f32-4435-8866-3b9c495294f3
Ernsting, Mark J.
9e64eeae-7374-44df-a9cd-5e1b26c94e20
Undzys, Elijus
226e7879-8bef-4715-9e72-d405e59d6dcb
Li, Shyh Dar
9a960896-36e7-4eb8-bd39-55580c60e36d
May, Jonathan P.
b54a262b-9f32-4435-8866-3b9c495294f3
Ernsting, Mark J.
9e64eeae-7374-44df-a9cd-5e1b26c94e20
Undzys, Elijus
226e7879-8bef-4715-9e72-d405e59d6dcb
Li, Shyh Dar
9a960896-36e7-4eb8-bd39-55580c60e36d

May, Jonathan P., Ernsting, Mark J., Undzys, Elijus and Li, Shyh Dar (2013) Thermosensitive liposomes for the delivery of gemcitabine and oxaliplatin to tumors. Molecular Pharmaceutics, 10 (12), 4499-4508. (doi:10.1021/mp400321e).

Record type: Article

Abstract

The majority of ultrafast temperature sensitive liposome (uTSL) formulations reported in the literature deliver the highly membrane permeable drug, doxorubicin (DOX). Here we report on the study of the uTSL formulation, HaT (Heat activated cytoToxic, composed of the phospholipid DPPC and the surfactant Brij78) loaded with the water-soluble, but poorly membrane permeable anticancer drugs, gemcitabine (GEM) and oxaliplatin (OXA). The HaT formulation displayed ultrafast release of these drugs in response to temperature, whereas attempts with LTSL (Lyso-lipid Temperature Sensitive Liposome, composed of DPPC, MSPC, and DSPE-PEG) were unsuccessful. HaT-GEM and HaT-OXA both released >80% of the encapsulated drug within 2 min at 40-42°C, with <5% drug leakage at 37°C after 30 min in serum. The pharmacokinetic profile of both drugs was improved by formulating with HaT relative to the free drug, with clearance reduced by 50-fold for GEM and 3-fold for OXA. HaT-GEM and HaT-OXA both displayed improved drug uptake in the heated tumor relative to the unheated tumor (by 9-fold and 3-fold, respectively). In particular, HaT-GEM showed 25-fold improved delivery to the heated tumor relative to free GEM and significantly enhanced antitumor efficacy with complete tumor regression after a single dose of HaT-GEM. These data suggest that uTSL technology can also be used to deliver nonmembrane permeable drugs via an intravascular ultrafast release mechanism to great effect.

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More information

Published date: 2 December 2013
Keywords: Brij78, gemcitabine, mild hyperthermia, oxaliplatin, thermosensitive liposomes, triggered drug release, tumor-targeted drug delivery, ultrafast drug release

Identifiers

Local EPrints ID: 455576
URI: http://eprints.soton.ac.uk/id/eprint/455576
DOI: doi:10.1021/mp400321e
ISSN: 1543-8384
PURE UUID: 3336941f-23e3-4582-848c-e189ca86df5a
ORCID for Jonathan P. May: ORCID iD orcid.org/0000-0003-1651-130X

Catalogue record

Date deposited: 28 Mar 2022 16:38
Last modified: 17 Mar 2024 03:53

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Contributors

Author: Jonathan P. May ORCID iD
Author: Mark J. Ernsting
Author: Elijus Undzys
Author: Shyh Dar Li

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