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Nanocomposite with oxidative stress self-amplifying function and preparation method and application thereof

A technology of nanocomposites and amplifying functions, which can be applied to medical preparations with non-active ingredients, medical preparations containing active ingredients, drug combinations, etc., can solve the problem of reducing the efficiency of artemisinin in killing tumor cells, and achieve High selectivity, increased oxidation state level, good water solubility

Active Publication Date: 2019-09-20
CHINA PHARM UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The content of GSH in tumor cells is 1-15mM, such a high concentration range greatly reduces the efficiency of artemisinin in killing tumor cells

Method used

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  • Nanocomposite with oxidative stress self-amplifying function and preparation method and application thereof
  • Nanocomposite with oxidative stress self-amplifying function and preparation method and application thereof
  • Nanocomposite with oxidative stress self-amplifying function and preparation method and application thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Example 1: Combining image 3 , to synthesize Tf-MSN@AB, the steps are as follows:

[0030] 1. Synthesis of polypeptide-transferrin complex (Pep-Tf).

[0031] Weigh 2 mg of Pep and dissolve it in 4 mL of N,N-dimethylformamide (DMF) solution. Add 5 mM N-hydroxysuccinimide and 1 mM N-ethyl-N'-(3-(dimethylaminopropyl) carbodiimide to the Pep solution, and sonicate for 10 min to activate the carboxyl group. After activation , add 4 mg Tf to the above solution and stir vigorously, make it react in the dark at room temperature for 24h. After the reaction, centrifuge (8500rpm, 10min), discard the organic solution, and rinse three times with DMF, and finally vacuum-dry to obtain Pep-Tf .

[0032] 2. Amino groups on the surface of mesoporous silicon (MSN-NH 2 ).

[0033]Dissolve 300mg of mesoporous silicon powder in 30mL of methanol, and ultrasonically assist the dissolution. After dissolution, 2 mL of N-[3-(trimethoxysilyl)propyl]ethylenediamine was added to the solution,...

Embodiment 2

[0039] Example 2: Characterization of Tf-MSN@AB.

[0040] The prepared Tf-MSN@AB was characterized by Fourier transform infrared spectrometer, the results are as follows Figure 4 As shown, MSN in the figure indicates the purchased mesoporous silicon nanoparticles; MSN-NH 2 represents the amino-modified mesoporous silicon nanoparticles prepared in step 2; MSN-alkyne represents the alkyne-modified mesoporous silicon obtained in step 3; Tf-MSN@AB represents the nanocomposite finally prepared in step 4, by As can be seen in the figure:

[0041] When the surface of mesoporous silicon is not modified, the infrared spectrum of MSN is at 3000-2800cm -1 The absorption peak of -C-H- appears at the place, and the absorption peak of -C-H- is modified by amination in MSN (MSN-NH 2 ) significantly decreased, when adding the alkynylated mesoporous silicon (MSN-alkyne) obtained after the reaction of propargyl bromide and triethylamine, MSN-alkyne was at 2123cm -1 A strong absorption peak...

Embodiment 3

[0047] Example 3: In vitro release experiment of artemisinin and butionine-sulfoximine.

[0048] This example is to explore the in vitro drug release behavior of Tf-MSN@AB prepared in Example 1 in response to cathepsin B under different pH environments. The specific method is:

[0049] The in vitro release profiles of ART and BSO from Tf-MSN@AB were measured by dialysis. Tf-MSN@AB was dissolved in different pH citrate buffers (pH 7.4 and pH 5.0) containing 10% fetal bovine serum (FBS). Different pH groups were further divided into two groups containing cathepsin B and not containing cathepsin B. The prepared solution was placed in a dialysis bag (Mn=30kDa, Millipore), and then the dialysis bag was put into citrate buffer containing the same pH value, and the buffer was stirred at 100 rpm at 37°C. Samples were taken at pre-set time points and replaced with the same volume of release medium.

[0050] Determination of drug release of artemisinin:

[0051] 500 μL of the sample...

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Abstract

The invention discloses a nanocomposite with an oxidative stress self-amplifying function and a preparation method and application thereof. The nanocomposite is characterized in that mesoporous silica is used as a vector to load artemisinin and glutathione remover into ducts, the surface is modified with a cathepsin B responsive functional polypeptide, and transferrin is conjugated to the tail end of the polypeptide. The nanocomposite can actively recognize tumor cells in targeted manner so as to release artemisinin, L-buthionine-sulfoximine and Fe2+ inside lysosomes of the tumor cells; Fe2+ catalyzes artemisinin to produce active oxygen, L-buthionine-sulfoximine eliminates glutathione, and the tumor cells are killed through the generated oxidative stress amplification effect; the nanocomposite has a good anti-tumor application prospect.

Description

technical field [0001] The invention relates to a nanocomposite material, a preparation method and an application, in particular to a nanocomposite with an oxidative stress self-amplification function, a preparation method and an application. Background technique [0002] Chemotherapy, as one of the main means of tumor treatment, plays an important role in the clinical anti-tumor process. Compared with the limitations of surgical treatment and radiotherapy (which can only target the tumor at the treatment site), chemotherapy has more advantages in the treatment of systemic tumors or metastatic tumors in the middle and late stages. Therefore, finding and developing chemotherapeutic drugs with high anti-tumor activity is currently a hot spot in cancer treatment research. [0003] Artemisinin is derived from Artemisia annua L, a plant of Compositae. It is a sesquiterpene lactone compound. It is a first-line drug for clinical treatment of malaria and plays an important role in ...

Claims

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Application Information

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IPC IPC(8): A61K47/68A61K31/366A61K31/198A61P35/00
CPCA61K47/6811A61K31/366A61K31/198A61P35/00A61K2300/00
Inventor 余伯阳田蒋为罗荧萍闫瑾
Owner CHINA PHARM UNIV