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  • Preparation of intravenous injection nanoformulation of VESylated gemcitabine by co-assembly with TPGS and its anti-tumor activity in pancreatic tumor-bearing mice.

Preparation of intravenous injection nanoformulation of VESylated gemcitabine by co-assembly with TPGS and its anti-tumor activity in pancreatic tumor-bearing mice.

International journal of pharmaceutics (2015-09-28)
Yanyun Xu, Haijing Meng, Fang Du, Wei Lu, Shiyuan Liu, Jin Huang, Jiahui Yu
ABSTRACT

Our recent publication showed that VES-dFdC nanocapsules in pure water could be obtained via the self-assembling of VES-dFdC prodrug synthesized by coupling gemcitabine (dFdC) with vitamin E succinate (VES). To prepare the intravenous injection nanoformulation, we present here a novel strategy to improve the stability and drug concentration of VES-dFdC nanoformulation in PBS or isotonic solution. Particularly, D-α-tocopheryl polyethylene glycol succinate (TPGS), usually used as drug solubilizer and coincidentally contains the same VES moiety as VES-dFdC prodrug and PEG chain, is selected to co-assemble with VES-dFdC prodrug. The zeta potentials of all the TPGS/VES-dFdC co-assemblies were close to 0 mV, and their particle size measured by dynamic light scattering (DLS) decreased from 113 to 36 nm with increasing TPGS/VES-dFdC molar ratios from 0.15 to 1.5. Stable colloidal suspensions were obtained without aggregates in PBS at 4 °C in one month or isotonic solution at 37 °C in one week, and the weight concentration of VES-dFdC prodrug increased from 7 to 17 mg/mL when the molar ratios of TPGS/VES-dFdC ranged from 0.5/1 to 1.5/1. The concentration of VES-dFdC prodrug was high enough to be used as intravenous injection nanoformulation in nude mice. Interestingly, along with the increase of TPGS/VES-dFdC molar ratios from 0.3/1 to 1.5/1, the morphology of TPGS/VES-dFdC co-assemblies changed from loose nanocapsule to compact micelle revealed by transmission electron microscope (TEM). Finally, the co-assembly of TPGS/VES-dFdC (TPGS/VES-dFdC: 1/1) was selected as intravenous injection nanoformulation to evaluate the antitumor activity. Compared with native dFdC, TPGS/VES-dFdC nanoformulation with 0.2mmol/kg of dosage showed similar low toxicity in vivo, but 4.7 times high of tumor inhibition rate in nude mice with pre-established BxPC-3 tumors.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Methanol, NMR reference standard
Sigma-Aldrich
Gemcitabine hydrochloride, ≥98% (HPLC)
Sigma-Aldrich
D-α-Tocopherol succinate, BioXtra, ≥98.0% (HPLC)
Sigma-Aldrich
Triethylamine, for protein sequence analysis, ampule, ≥99.5% (GC)
Sigma-Aldrich
Triethylamine, BioUltra, ≥99.5% (GC)
Sigma-Aldrich
Triethylamine, for amino acid analysis, ≥99.5% (GC)
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N,N-Dimethylformamide, anhydrous, 99.8%
Sigma-Aldrich
Tetrahydrofuran, anhydrous, ≥99.9%, inhibitor-free
Sigma-Aldrich
Triethylamine, purum, ≥99% (GC)
Supelco
Tetrahydrofuran, HPLC grade, ≥99.9%, inhibitor-free
Supelco
D-α-Tocopherol succinate, analytical standard
Sigma-Aldrich
Methanol, anhydrous, 99.8%
Sigma-Aldrich
Tetrahydrofuran, anhydrous, contains 250 ppm BHT as inhibitor, ≥99.9%
Sigma-Aldrich
Triethylamine, ≥99.5%
Sigma-Aldrich
D-α-Tocopherol succinate, semisynthetic, 1210 IU/g
Sigma-Aldrich
N,N-Dimethylformamide, for molecular biology, ≥99%
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Thiazolyl Blue Tetrazolium Bromide, 98%
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Triethylamine, puriss. p.a., ≥99.5% (GC)
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Thiazolyl Blue Tetrazolium Bromide, powder, BioReagent, suitable for cell culture, suitable for insect cell culture, ≥97.5% (HPLC)
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Triethylamine, ≥99.5%
Sigma-Aldrich
Triethylamine, ≥99%
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N,N-Dimethylformamide, ReagentPlus®, ≥99%
Sigma-Aldrich
Methanol, ACS reagent, ≥99.8%
Sigma-Aldrich
Methanol, Absolute - Acetone free
Sigma-Aldrich
Methanol, ACS reagent, ≥99.8%
Sigma-Aldrich
Methanol, ACS spectrophotometric grade, ≥99.9%
Sigma-Aldrich
Methanol, Laboratory Reagent, ≥99.6%
Sigma-Aldrich
Methanol, BioReagent, ≥99.93%
Sigma-Aldrich
N,N-Dimethylformamide, biotech. grade, ≥99.9%
Sigma-Aldrich
Tetrahydrofuran, ACS reagent, ≥99.0%, contains 250 ppm BHT as inhibitor