Cell culturing method for improving curative effect and lasting effect performance of chimeric antigen receptor T cells
A technology of chimeric antigen receptor and cell culture, which is applied in the field of immunology and cell therapy research, can solve the problem of unresolved CAR-T cell terminal differentiation and exhaustion tendency, low cytokine release ability, and limited CAR-T effect Function and other problems, to achieve good therapeutic effect and maintenance in vivo, long maintenance time in vivo, safe and reliable clinical application
Inactive Publication Date: 2019-08-23
ZHEJIANG UNIV
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Problems solved by technology
Naive T cells and central memory T cells in CAR-T cell preparations show long-term survival in vivo, while CAR-T cells differentiated to terminal stages such as effector memory and effectors cannot last in vivo; at the same time, depletion of CAR-T T cells continuously express high levels of inhibitory receptors such as PD1, TIM3, and LAG3, have low proliferation ability, low cytokine release ability, and are prone to apoptosis, which severely limits the persistent effector function of CAR-T in vivo
However, there is currently no method to solve the terminal differentiation and exhaustion tendency of CAR-T cells during in vitro culture.
Method used
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Embodiment 1
[0030] 1. Isolation of Mononuclear Cells
[0031] (1) Collect 10-20ml of peripheral blood;
[0032] (2) Peripheral blood was diluted with an equal volume of PBS;
[0033] (3) Take a 15ml centrifuge tube, add 5ml of lymphocyte separation solution, and use a pipette gun to slowly add 10ml of the diluted blood sample to the upper layer of the separation reagent along the tube wall to avoid mixing of the separation reagent and the blood sample;
[0034] (4) Set the centrifuge to 400G, set the speed up to 4th gear, and the speed down to 0 gear, and centrifuge at room temperature for 30 minutes;
[0035] (5) After centrifugation, gently aspirate and transfer the mononuclear cell layer at the interface between the serum and the separation reagent to a new centrifuge tube, and wash the cells twice with PBS.
[0036] 2. CD3(+) T cell enrichment and T cell activation
[0037] (1) Count the obtained mononuclear cells, resuspend in RPMI 1640 complete medium, adjust the cell concentrati...
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The invention provides a cell culturing method for improving the curative effect and lasting effect performance of chimeric antigen receptor T cells. By adding a tyrosine kinase inhibitor dasatinib (dasatinib), activation signal transmission of the CAR-T cells is reduced, the terminal differentiation of the CAR-T cells is inhibited, the proportion of naive T cells and central memory T cells in a CAR-T cell product is increased, and the depletion trend of the CAR-T cells is inhibited. The method solves the problems of the terminal differentiation and depletion trend of the CAR-T cells in the in-vitro culture process. The method is simple in culture process, easy to implement, low in cost and safe and reliable in clinic application; the proportion of the naive T cells and the central memoryT cells of the cultured CAR-T cells is high, the depletion trend of the CAR-T cells is avoided, and the good repeatability is achieved; the cultured CAR-T cells show the better curative effect and thebetter in-vivo lasting effect performance and have high application and popularization value.
Description
technical field [0001] The invention belongs to the field of immunology and cell therapy research, and relates to a cell culture method for improving the curative effect and persistence of chimeric antigen receptor T cells. Central memory T cells, a culture method that reduces exhaustion of CAR-T cells. Background technique [0002] Chimeric antigen receptor modified T (chimeric antigen receptor modified T, CAR-T) cell immunotherapy has become the most promising treatment method in immune targeted therapy in recent years. Its working principle is to use genetic engineering technology to recognize a certain The antigen-binding part of the specific single-chain monoclonal antibody of a tumor antigen, the tyrosine activation motif of the T cell receptor and the co-stimulatory molecule are coupled into a chimeric protein in vitro, and T cells are transfected by viral vectors and other methods , so that T cells can specifically recognize tumor cells and transmit signals into the...
Claims
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IPC IPC(8): C12N5/10C12N15/867
CPCC12N5/0636C12N15/86C12N2501/727C12N2510/00C12N2740/15043C12N2800/107
Inventor 黄河张浩徐玉林
Owner ZHEJIANG UNIV
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