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Method for preparing NK by using freeze-dried feeder layer cells

A technology of feeder cells and cells, which is applied in the field of biomedicine, can solve problems such as low amplification efficiency, increased safety risks, and adverse effects, and achieve the effects of high cell viability, high killing effect, and cost reduction

Inactive Publication Date: 2019-04-16
SHANGHAI BIOMED UNION BIOTECHNOLOGY CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0008] The factor method and antibody coating method (publication number: CN105238754B) are difficult to meet the clinical needs in terms of NK amplification quantity, purity and NK cell viability when feeder layer cells are not used, while the feeder layer used in the traditional scheme needs to use mitomyces After inactivation, it needs to be stored in liquid nitrogen, which increases the use cost of the feeder layer and is not conducive to the commercialization of the feeder layer. The slight residue of mitomycin may make NK especially difficult to use in the subsequent use. It has adverse effects on the human body in clinical use; in addition, if NK is first sorted from PBMC (public number: CN103620022B), the operation steps and costs are increased, and the heterologous components in the sorting may be added in the culture system to bring safety risk
Although the dedicated NK medium (publication number: CN104894065B) simplifies the steps of NK amplification, it has no obvious advantages in terms of NK amplification purity and efficiency compared with traditional methods, and the cost of the dedicated NK medium is relatively high
The method of inducing stem cells to differentiate into NK (public number: CN101801374B; public number: CN104711225B) has potential safety risks in the process of stem cell source acquisition and differentiation induction, and the expansion efficiency is not high

Method used

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  • Method for preparing NK by using freeze-dried feeder layer cells
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  • Method for preparing NK by using freeze-dried feeder layer cells

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Experimental program
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Effect test

Embodiment 1

[0066] According to the method of the present invention, the concrete construction K562 engineered cell steps are as follows:

[0067] First, we synthesized five genes, corresponding to: CD64 (FccRI shown in sequence 1), CD86 (B7-2, shown in sequence 2), CD137L (4-1BBL, shown in sequence 3), truncated CD19 (shown in sequence 4) and membrane-anchored protein IL21 (shown in sequence 5); then subcloned to lentiviral vectors, we constructed the five proteins on three lentiviral vectors, the specific plasmid map is as follows figure 1 , 2 and 3 as shown;

[0068] First use the lentiviral vector pLKO-PGK-puro-CMV-CD8a (guide peptide, as shown in sequence 6)-IL-21-CD8a (transmembrane region, as shown in sequence 7) to construct IL21 on K562 cells, add 2ug / ml puromycin screening, and then flow cytometric detection and sorting, to obtain K562-IL21 cells with high expression of IL21; on this basis, the lentiviral vector pLKO-PGK-CD86-P2A-CD64 was used to construct CD86 and CD64 into K...

Embodiment 2

[0089] According to the method of the present invention, the concrete groping optimal trophoblast ratio step is as follows:

[0090] 1. Collect 30ml of peripheral blood.

[0091] 2. Add 15ml of Ficoll lymphocyte separation medium to two 50ml centrifuge tubes respectively (the lymphocyte separation medium is taken out in advance and placed at room temperature).

[0092] 3. Gently add 30ml of whole blood to two 15ml tubes of separation solution (without destroying the interface between the separation solution and blood).

[0093] 4. Put it into a horizontal centrifuge, balance it, centrifuge at 800g for 20min, and adjust the lifting speed to the lowest.

[0094] 5. After centrifugation, draw the upper serum to a new centrifuge tube for inactivation in a water bath at 56°C for 30 minutes, and place it on ice for 20 minutes.

[0095] 6. Carefully aspirate the buffy coat and transfer to a new 50ml centrifuge tube.

[0096] 7. Add more than 2 times the volume of normal saline, mi...

Embodiment 3

[0105] NK cell experiments under the optimal K562 engineered cell feeder layer ratio (blood from three different donors):

[0106] 1. Collect 10ml of peripheral blood from three donors respectively.

[0107] 2. Add 15ml of Ficoll lymphocyte separation medium to a 50ml centrifuge tube (the lymphocyte separation medium is taken out in advance and placed back to room temperature).

[0108] 3. Gently add 30ml of whole blood to 15ml of separation fluid (without destroying the interface between separation fluid and blood).

[0109] 4. Put it into a horizontal centrifuge, balance it, centrifuge at 800g for 20min, and adjust the lifting speed to the lowest.

[0110] 5. After centrifugation, draw the upper serum to a new centrifuge tube for inactivation in a water bath at 56°C for 30 minutes, and place it on ice for 20 minutes.

[0111] 6. Carefully aspirate the buffy coat and transfer to a new 50ml centrifuge tube.

[0112] 7. Add more than 2 times the volume of normal saline, mix ...

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Abstract

The invention provides a method for preparing NK by using freeze-dried feeder layer cells. In the NK preparing method, engineering cells expressing cytokines and membrane proteins are constructed, andthe engineering cells expressing the cytokines and membrane proteins are freeze-dried. According to the method, after freeze-drying of feeder layer cells, the stimulation effect of the engineering cells as feeder layer cells is retained, the costs for cell inactivation and preservation process are also reduced, the costs for laboratories and clinical use are reduced, and the use convenience is improved. Compared with an existing feeder layer using technology, NK cells quantity for clinical treatment can be provided within 12-21 days, the cell viability is high, and the cells have high killingeffect on K562 and A549; The NK medium method has obvious advantages in proliferation ratio and quantity compared with a factor method and a special NK culture medium method; the cell quantity and purity obtained through amplification after stem cells are induced and split up into NK are poor compared with the method.

Description

technical field [0001] The invention belongs to the field of biomedicine, in particular to NK cell culture technology. Background technique [0002] Natural killer cells (NK) are important immune cells in the body, not only related to anti-tumor, anti-viral infection and immune regulation, but also involved in the occurrence of hypersensitivity and autoimmune diseases in some cases, and can recognize Target cells, killing mediators. [0003] Existing NK amplification culture techniques are roughly divided into four types: [0004] 1. Factor method: extract peripheral blood or use a single cell collection machine combined with lymphocyte separation fluid to obtain PBMC (peripheral blood mononuclear cells), then directly culture or sort NK cells in PBMC, and separate them in ordinary lymphocyte culture medium NK expansion using cytokines or co-feeder cells. [0005] 2. Antibody coating method: PBMC or sorted NK cells are expanded and cultured in the antibody-coated culture ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C12N5/0783C12N15/867
Inventor 李彦涛杨娟吴卫成郝瑞栋刘根桃吴国祥
Owner SHANGHAI BIOMED UNION BIOTECHNOLOGY CO LTD
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