阅读说明：本技术 用于低温条件保持细胞活性的保存液及保存方法 (Preservation solution and preservation method for maintaining cell activity under low-temperature condition ) 是由 刘崇懿 李婷婷 孟宪欣 肖华胜 于 2020-06-10 设计创作，主要内容包括：本发明提供了一类用于低温条件保持细胞活性的保存液及保存方法。保存液的成分为优化的维持细胞低温条件下保持活性的配方组成；保存液pH值为7.2-7.6；保存温度为0-6℃。成分中不含有对细胞产生毒性和造成基因表达改变的成分,安全环保。同时保存方法中无需冻存和复苏等过程,细胞全程处于保持活性状态,简单易用,方便细胞的储存和运输。本发明可有效实现人和动物多种类型的细胞低温存储,低温条件下可保持细胞的活性,经验证可用于人血液细胞、培养细胞、组织样本消化解离细胞的低温保存与运输。保存后的细胞可用于基因检测相关研究或其他细胞保存等相关应用。(The invention provides a preservation solution for maintaining cell activity under low-temperature conditions and a preservation method. The components of the preservation solution are the optimized formula composition for maintaining the activity of the cells under the low-temperature condition; the pH value of the preservation solution is 7.2-7.6; the preservation temperature is 0-6 ℃. The components do not contain components which generate toxicity to cells and cause gene expression change, and the method is safe and environment-friendly. Meanwhile, the preservation method does not need processes such as freezing storage, resuscitation and the like, the cells are in an active state in the whole process, and the method is simple and easy to use and is convenient for storage and transportation of the cells. The invention can effectively realize low-temperature storage of various types of cells of human and animals, can keep the activity of the cells under the low-temperature condition, and can be used for low-temperature storage and transportation of human blood cells, cultured cells and digested and dissociated cells of tissue samples proved by experiments. The preserved cells can be used for gene detection related research or other cell preservation related applications.)

1. A preservation solution for preserving the activity of cells under low temperature conditions, which is characterized by comprising the following components: 2-4 g/L sodium hydroxide, 1-6 g/L potassium hydroxide, 3-5 g/L sodium dihydrogen phosphate, 1-2g/L potassium dihydrogen phosphate, 0.4-0.6g/L sodium bicarbonate, 0.8-1.2g/L potassium chloride, 5-6 g/L4-hydroxyethyl piperazine ethanesulfonic acid, 0.6-1.2 g/L anhydrous magnesium sulfate and/or 0.6-1.2 g/L magnesium chloride, 30-40 g/L lactobionic acid, 15-20 g/L raffinose, 0.5-1 g/L glucose, 6-7 g/L sucrose, 3-4 g/L mannose, 50-60g/L hydroxyethyl starch and/or 50-60g/L dextran 1-2g/L adenosine, 0.8-2 g/L glutathione, 0.2-0.5 g/L vitamin E, 0.2-0.4 g/L allopurinol; the pH value of the preservation solution is 7.2-7.6; the low temperature condition is 0-6 ℃.

2. A method for preserving cells using the preservation solution of claim 1, comprising the steps of: and (4) suspending the separated cells in the preservation solution, and preserving at a low temperature of 0-6 ℃.

3. Use of a preservation solution according to claim 1 or 2 for cryopreservation and transport of cells at 0-6 ℃.

4. The use of claim 3, wherein the cell is derived from an animal or human cell.

Technical Field

The invention relates to the technical field of biology, in particular to a preservation solution for keeping the activity of human or animal cells under a low-temperature condition; the present invention also relates to a preservation method using the preservation solution.

Background

With the gradual progress of related research of gene detection technology and the popularization of clinical application, how to safely and effectively store biological samples becomes a key. The most widely studied cell samples, such as clinical blood cells, cells digested and dissociated by tissue, cultured cells and the like, have a time and space distance from the collection to the laboratory detection, and how to ensure that the cell samples maintain the stability of cell activity and gene expression in the storage and transportation processes will determine whether the experimental results are accurate and effective. Especially, the research hotspot single cell sequencing technology and ATAC-seq (a molecular biology method for researching chromatin accessibility) in the current gene detection field have higher requirements on the preservation of cell samples, for example, the cell activity is required to be generally not less than 80%, thereby avoiding the nucleic acid degradation and the loss of gene information caused by cell death. Also relevant clinical treatments and basic research based on cells, such as CAR-T (chimeric antigen receptor T cell immunotherapy), stem cells, etc., all place great demands on the preservation and transport of cells.

At present, a cell sample is generally frozen at an ultralow temperature, and cells are placed in a freezing medium consisting of a cell culture medium, dimethyl sulfoxide, serum and the like, are subjected to gradient cooling, and are stored at the temperature of minus 80 ℃ or in liquid nitrogen. These steps are complicated and can easily cause cell death. For the cell samples for gene-related detection and research, the freezing process is easy to cause the loss of gene information and the loss of cell populations. In the case of stem cells, the components in the cryopreservation solution and the cryopreservation recovery process are easy to cause the differentiation of the stem cells. It is difficult to maintain the frozen temperature or the appropriate temperature (37 ℃) for normal cell growth for a long period of time during storage and transportation of cell samples. Whereas at 37 ℃ the cells are in a proliferative growth state, which requires, on the one hand, a large amount of culture medium to survive, and on the other hand, the expression of genes is at risk of alteration, for example, causing differentiation of stem cells. Under low temperature conditions, such as 0-4 ℃, the metabolism of the cells is significantly reduced and no longer proliferated, approaching the state of cryopreserved cells. However, under low temperature conditions, ice crystals are easily generated in the solution inside and outside the cell, thereby causing damage to the cell membrane. Therefore, it is necessary to preserve the cells in a suitable preservation solution to maintain the activity of the cells and to maintain the gene expression stably. For example, a preservation solution for organ transplantation can maintain the activity of organs and physiological functions after transplantation. However, the preservation solution and the like used in the conventional organ transplantation are not suitable for the preservation of cells. On one hand, the organ preservation solution containing hormone components such as dexamethasone, insulin, prostaglandin and the like can stimulate preserved cells, so that the cells are affected on the gene level, gene expression is changed, downstream gene detection and research are affected, or stem cell differentiation is affected. On the other hand, the cell sample and the organ have differences of extracellular osmotic pressure, ion permeability and cell types. Therefore, it is highly desirable to design and develop a preservation reagent for cell samples, which can maintain the survival rate of cells under low temperature (0-4 ℃) and solve the problem of preservation and transportation of cell samples without changing the gene expression of cells.

At present, most of the preservation and transportation processes for cells adopt an ultra-low temperature cryopreservation mode, namely an ultra-low temperature cryopreservation mode at minus 80 ℃ and a cryopreservation mode of liquid nitrogen. Sample collection and transport is not easy. Meanwhile, the processes of freezing and recovering are easy to cause cell death and influence on cell gene expression.

The Chinese patent application CN107183012A discloses a freezing liquid of human stem cells and a freezing storage method, which adopts the preservation mode of ultra-low temperature freezing (-80 ℃) and liquid nitrogen. For the preservation mode of cryopreservation, the literature reports that the integrity of transcriptome and heterogeneity of cell groups are reduced when the sample subjected to ultralow temperature cryopreservation is used for single cell sequencing experimental detection. The resuscitation operation easily causes the death of tissue cells, and influences the subsequent experimental detection. And DMSO, an essential component in the freezing liquid of the somatic stem cells of the applicant of the patent, can generate toxicity to the cells under non-freezing conditions (for example, at 0-6 ℃).

Chinese patent application CN201811329711.8 discloses a cell preservation solution and a method for preserving cells using the same. The storage solution component contains a methanol component, and can fix the structural form of the cell, but at this time, the cell is in a dead state, and the activity of the cell cannot be maintained, and degradation of nucleic acid is likely to occur. Meanwhile, the dead cells are in a cell membrane permeable state in a preservation solution, so that intracellular nucleic acid is dissociated to the outside of a system, and gene information is lost. Can not be applied to single cell sequencing experiments and the like.

Meanwhile, some components of the cell freezing medium comprise dimethyl sulfoxide, glycerol and the like, and certain cytotoxicity can be generated under the condition of low temperature or normal temperature. Animal-derived proteins contained in the frozen stock solution affect gene expression of cells, gene detection-related studies, stem cell differentiation, and the like.

Therefore, there is a need to develop a new preservation solution and preservation method for cell cryopreservation to maintain the activity of cells and avoid the change of gene expression of cells.

Disclosure of Invention

The invention aims to solve the technical problems that a cell sample is stored and transported after being collected, the activity of cells is maintained under a low-temperature condition, the steps of cryopreservation, resuscitation and the like are not needed, and components causing cell gene expression change are not added. The invention provides a preservation solution for maintaining cell activity under low-temperature conditions. The preservation solution adopts low temperature preservation (0-6 deg.C), and can reduce cell metabolism rate, maintain cell activity, and reduce cell gene expression change, so as to maintain cells in initial state. However, under the condition of low temperature, water in the solution inside and outside the cell is easy to form ice crystals, which damages the cell membrane. Meanwhile, long-term cryopreservation causes the generation of free radicals of cells, the activation of apoptosis pathways and the like. Therefore, a corresponding low-temperature storage medium is needed to maintain the osmotic pressure inside and outside the cell and the stability of the cell membrane, avoid the generation of ice crystals in the solution, maintain substances required by the basic physiological metabolism of the cell, resist oxidation, resist apoptosis and the like. While the preservation medium must not contain components that are toxic to the cells and that cause alterations in cellular gene expression.

The second technology to be solved by the invention is to provide a preservation method using the preservation solution.

The invention also provides the application of the preservation solution.

In a first aspect of the invention, there is provided a preservation solution for cryopreservation (0-6 ℃) of cells, said preservation solution comprising the following components: 2-4 g/L sodium hydroxide, 1-6 g/L potassium hydroxide, 3-5 g/L sodium dihydrogen phosphate, 1-2g/L potassium dihydrogen phosphate, 0.4-0.6g/L sodium bicarbonate, 0.8-1.2g/L potassium chloride, 5-6 g/L4-hydroxyethyl piperazine ethanesulfonic acid, 0.6-1.2 g/L anhydrous magnesium sulfate and/or 0.6-1.2 g/L magnesium chloride, 30-40 g/L lactobionic acid, 15-20 g/L raffinose, 0.5-1 g/L glucose, 6-7 g/L sucrose, 3-4 g/L mannose, 50-60g/L hydroxyethyl starch and/or 50-60g/L dextran 1-2g/L adenosine, 0.8-2 g/L glutathione, 0.2-0.5 g/L vitamin E, 0.2-0.4 g/L allopurinol; the pH value of the preservation solution is 7.2-7.6.

Any one or more of sodium hydroxide, potassium hydroxide, sodium dihydrogen phosphate, potassium dihydrogen phosphate, sodium bicarbonate, potassium chloride and 4-hydroxyethyl piperazine ethanesulfonic acid is used as an ionic buffer solution component which can maintain the salt ion concentration of the osmotic pressure of cells and the pH stability of the physiological environment, and the pH range of the solution is kept between 7.2 and 7.6.

The anhydrous magnesium sulfate and/or magnesium chloride preservative solution provides Mg2+ to help maintain the stability of cell membranes.

Any one or more of lactobionic acid, raffinose, glucose, sucrose and mannose can provide energy for cells, improve the stability of cell membrane phospholipid bilayers, maintain the osmotic pressure inside and outside the cells and prevent the cells from swelling.

The hydroxyethyl starch and/or glucan can prevent the solution inside and outside the cell from generating ice crystal components under the condition of low-temperature preservation, thereby preventing the cell membrane from being damaged and the cell from being killed due to the freezing of the solution. While helping to maintain stability of the cell membrane.

Any one or more of adenosine, glutathione, vitamin E and allopurinol provides nutrition supplement for cell anabolism, maintains normal physiological metabolism of cells, has the functions of oxidation resistance and apoptosis resistance, can effectively remove free radicals generated in the cell metabolism process, maintains the redox environment in the cells, effectively prevents apoptosis of the cells in the low-temperature storage process, and thus avoids degradation of nucleic acid in the cells in the storage process.

In a second aspect of the present invention, the present invention also provides a method for preserving cells with the preservation solution, comprising the following steps: and (4) suspending the separated cells in the preservation solution, and preserving at a low temperature of 0-6 ℃.

In a third aspect of the invention, the invention provides the use of the preservation solution for cryopreservation and transport of cells at 0-6 ℃. The cells are derived from animal (mouse and rat, etc.) or human cells.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a component composition of a cell sample preservation solution and a sample preservation method, which are used for maintaining the activity of cells under a low-temperature condition and simultaneously introducing no component for changing the gene expression of the cells. Different from the traditional ultra-low temperature cryopreservation (-80 ℃), the preservation solution and the preservation method thereof can effectively realize the low-temperature storage (0-6 ℃) of human and animal cells, can maintain the activity of the cells under the low-temperature condition, and can be used for the preservation and transportation of the cells. The method has simple operation steps, does not need gradient cooling, ultralow temperature cryopreservation and recovery processes, does not contain dimethyl sulfoxide (DMSO) which generates toxicity to cells and animal-derived protein which easily causes cell gene expression change in the components of the preservation solution, and can be used for related experiments such as gene detection and research.

The invention respectively preserves human blood cells, cultured cells, cells digested and dissociated by tissues and the like. According to the preservation solution and the preservation method provided by the invention, the survival rate of the cells can be preserved within 96 hours and is more than 85%. The preservation effect is better than that of the commercial preservation reagent.

The invention provides a cell preservation solution component and an optimized preservation mode, which can maintain the activity of cells and can be used for cryopreservation of various types of cells. Chemical and biological components and operation processes which are easy to influence cell gene expression are not introduced, the components of the preservation solution are safe and environment-friendly, the preservation mode is simple and easy to use, and the preservation and transportation of cell samples are effectively solved. The preserved cells can be used for gene detection research, single cell sequencing, storage and transportation of immune cells and stem cells, and the accuracy of related experimental results is ensured.

Drawings

FIG. 1 shows the survival rate of human Peripheral Blood Mononuclear Cells (PBMC) stored in the storage solution A of example 4, which was measured by a fluorescent cell counter after 24 hours and 72 hours, respectively.

FIG. 2 shows the cell viability of 293t cells and HeLa cells stored in storage solution B of example 5, as measured by a fluorescent cell counter, after 72 hours of storage.

FIG. 3 is a graph showing the cell viability measured by a fluorescence cytometer after the spleen cells of the mouse in example 6 were preserved in preservation solution C and commercial preservation solution HypoThermosol FRS for 24 hours and 96 hours, respectively.

Detailed Description

The following is a more detailed description of the invention, taken in conjunction with the accompanying drawings. The protection of the present invention is not limited to the following examples.