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Method for identifying gamma delta T cell killing

A cell-killing technology, applied in the field of cellular immunology, can solve the problems of inconvenient operation and low sensitivity

Inactive Publication Date: 2016-03-23
SHENZHEN HORNETCORN BIOTECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] T lymphocytes are divided into two types according to the expression of T cell antigen receptor (Tcell receptor, TCR): RCRαβ cells and TCRγδ cells, in which γδT cells are a unique group of T lymphocytes that bridge innate immunity and adaptive immunity, γδT It is mainly distributed in the skin and mucosal tissues, accounting for 0.5-5% of the peripheral lymphocyte population. Such a group of cells plays an important role in the body's anti-infection and anti-tumor immunity. Clinical experiments have confirmed the biological role of γδT cells in tumors. Good therapeutic effect and wide application have been obtained in the treatment, but how to perform functional detection on the γδT cells expanded and cultured in vitro? The present invention makes a public statement on this item, and the classic detection method of immune cell killing experiment is to use 51 Cr release method, but due to 51 Cr is a radioactive substance, which is inconvenient to operate and other reasons limit the wide application of this method, while MTT method and lactate dehydrogenase (LDH) release method have low sensitivity and other reasons that also limit their wide application. The present invention uses Calcein-AM and PI double-labeled staining combined with flow cytometry to detect immune cell killing efficiency

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0014] In Example 1, γδT cells were prepared by extracting PBMC from peripheral blood, including the following steps:

[0015] 1. Take peripheral blood from healthy volunteers, anticoagulate with sodium heparin, and perform density gradient separation with human lymphocyte separation medium Ficoll to obtain mononuclear cells. Specific steps: 510g / min, centrifuge for 7 minutes, reduce the speed to 2, after the centrifugation, absorb the upper plasma layer, inactivate at 56 degrees for 30 minutes, 510g / min, centrifuge for 7 minutes, take the upper plasma layer and transfer it to a clean centrifuge tube spare. After the precipitated blood cells are diluted with normal saline, slowly add the Ficoll separation solution and the diluted blood into the centrifuge tube at a ratio of 1:2, transfer to the centrifuge and centrifuge at 680g / min, centrifuge for 20 minutes, adjust the lifting speed to 1, centrifuge After completion, carefully draw the buffy coat, wash twice with normal sali...

Embodiment 2

[0018] In Example 2, the above-mentioned γδT cells were used to detect the killing effect of the suspended tumor cell K562, and the specific steps were as follows:

[0019] Take K562 cells in the logarithmic growth phase as target cells, wash once with PBS, resuspend the cell pellet in PBS, and adjust the cell concentration at (1-2)X10 6 / ml, add live cell staining marker Calcein-AM (Calcein-AM) 0.1uM and incubate for 30 minutes in a 37-degree incubator. After staining, wash the cells twice with PBS, centrifuge at 1000rpm for 5 minutes, and centrifuge for the last time. Serum-free RPMI1640 Resuspend the pellet in the culture medium, adjust the concentration to 4X10 after counting 5 , 2X10 5 , 1X10 5 , plated in a 24-well plate, and added 500ul to each well, so that the cell concentration in each well was 2X10 5 , 1X10 5 , 5X10 4 / ml. Take γδT cells as effector cells, wash once with PBS, resuspend the cells in serum-free RPMI1640 medium, count, and adjust the cell concent...

Embodiment 3

[0021] In Example 3, the above-mentioned γδT cells were used to detect the killing effect of the adherent tumor cell A549, and the specific steps were as follows:

[0022] Take A549 cells in the logarithmic growth phase as target cells, wash once with PBS, resuspend the cell pellet in PBS, and adjust the cell concentration at (1-2)X10 6 / ml, add live cell staining marker Calcein-AM (Calcein-AM) 1uM and incubate for 30 minutes in a 37-degree incubator. After staining, wash the cells twice with PBS, centrifuge at 1000rpm for 5 minutes, centrifuge for the last time, and culture with serum-free RPMI1640 Resuspend the pellet and adjust the concentration to 4X10 after counting 5 , 2X10 5 , 1X10 5 , plated in a 24-well plate, and added 500ul to each well, so that the cell concentration in each well was 2X10 5 , 1X10 5 , 5X10 4 / ml. Take γδT cells as effector cells, wash once with PBS, resuspend the cells in serum-free RPMI1640 medium, count, and adjust the cell concentration at...

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Abstract

The invention discloses a killing method for identifying gamma delta T cells simply and rapidly. The method comprises the following steps: firstly, healthy volunteer peripheral blood is collected, separation is carried out by utilization of a human lymphocyte separating medium, mononuclear cells are obtained, phosphate antigens HMBPP with 10-30ng / ml and rhIL-2 factors with 500-1000 IU / ml are added, PBMC induction into gamma delta T cells is carried out and amplification culture is carried out; secondly, after culture is carried out for 8-10 days, gamma delta T cells are subjected to detection of destruction experiments, the living cell dye calcein-AM is employed to dye tumor cells, the cell density during dyeing is controlled at 10<5>-10<7> / ml; thirdly, the tumor cells after dyeing and the gamma delta T cells are cultured together for a period of time, the cells are collected, propidium iodide is added for dyeing before detection, finally, a flow cytometer is employed to detect cell death amount, and the cell killing rate is obtained. Through the method that the cell killing efficiency can be detected rapidly through a flow cytometer, limitation conditions of traditional 51Cr radioactive substance pollution and low sensitivity of MTT and LDH are overcome.

Description

technical field [0001] The invention belongs to the technical field of cellular immunology, and specifically uses the principle of flow cytometry to detect and identify the killing efficiency of γδT cells by double-labeling Calcein-AM and PI staining. Background of the invention [0002] T lymphocytes are divided into two types according to the expression of T cell antigen receptor (Tcell receptor, TCR): RCRαβ cells and TCRγδ cells, in which γδT cells are a unique group of T lymphocytes that bridge innate immunity and adaptive immunity, γδT It is mainly distributed in the skin and mucosal tissues, accounting for 0.5-5% of the peripheral lymphocyte population. Such a group of cells plays an important role in the body's anti-infection and anti-tumor immunity. Clinical experiments have confirmed the biological role of γδT cells in tumors. Good therapeutic effect and wide application have been obtained in the treatment, but how to detect the function of the γδT cells expanded an...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N15/14
CPCG01N15/14
Inventor 饶秀茸崔博靖付凡马飞王宇环
Owner SHENZHEN HORNETCORN BIOTECH
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