CN211394508U - System for totally-enclosed production of lentiviral vector - Google Patents

Abstract

The utility model discloses a system of totally closed production of lentiviral vector, this system include host cell proliferation culture apparatus, lentiviral vector packing plant, lentiviral vector purification device, and each device uses disposable aseptic consumptive material, effectively avoids cross contamination, realizes the collinear production of multiple product. The utility model discloses can realize host cell, the cell is cultivateed to the lentiviral vector, the cell supernatant, the collinear production of lentiviral vector, the equipment that uses can not contact the material that uses, sample liquid, the pipeline that balanced liquid flowed through all is totally closed, disconnection and connection adopt aseptic tube sealing machine and aseptic tube receiving machine, can effectively avoid polluting and cross contamination in the production process, reduce the environment, equipment, the influence that personnel and other external factors led to the fact the cell product, improve the quality and the stability of product, a defect for solving prior art and result in.

Description

System for totally-enclosed production of lentiviral vector

Technical Field

The utility model relates to a lentiviral vector production field, in particular to a system for totally-enclosed production of lentiviral vectors.

Background

The lentivirus vector is a gene therapy vector developed on the basis of HIV-1 (human immunodeficiency virus type 1), belongs to the family of retroviridae, is an RNA virus, has the capacity of infecting both split cells and non-split cells, and can effectively integrate foreign genes onto a host chromosome so as to achieve persistent expression;

further intensive in recent years research into gene therapy and transgenic animals, lentiviral vectors have been spotlighted as one of the research vectors, which have proven to be very effective in a variety of different applications including cancer gene therapy;

because the lentivirus vector can be applied to in vitro cell modification and is returned to a patient body, the preparation process of the lentivirus vector has very high requirements on the aseptic control of the environment, personnel and equipment, and the conventional production process can easily cause cross contamination to the equipment, the environment and the personnel in the process flow, so that the multi-variety collinear production of products can not be realized; the production characteristics of the product are small batch, high product quality requirement and multi-variety collinear production, so that a set of totally-enclosed production process is developed, and the totally-enclosed production process has profound influence on the quality and effect of the product and the development of the whole gene therapy industry.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a system of totally closed production of lentiviral vector, whole disposable aseptic consumptive material of use, effectively avoid cross contamination, can realize the collinear production of multiple product, the equipment that uses can not contact the material that uses, sample liquid, the pipeline that balanced liquid flows through all is totally closed, disconnection and connection adopt aseptic tube sealing machine and aseptic tube receiving machine, can effectively avoid polluting and cross contamination in the production process, reduce the environment, equipment, the influence that personnel and other external factors led to the fact the cell product, improve the quality and the stability of product, a defect that leads to for solving prior art.

In order to solve the technical problem, the utility model provides a following technical scheme:

a system for totally-enclosed production of lentiviral vectors comprises a host cell proliferation culture device, a lentiviral vector packaging device and a lentiviral vector purification device which are sequentially connected.

The system for totally-enclosed production of the lentiviral vector is characterized in that the host cell proliferation culture device comprises a first collection roller bottle, and a digestion solution culture conveying assembly, a culture medium liquid conveying assembly and a host cell culture assembly which are respectively connected with the first collection roller bottle;

the digestive juice culturing and conveying assembly comprises a digestive juice feed bag, a digestive juice conveying pipeline, a first digestive juice sterile pipe connecting machine, a first digestive juice sterile pipe sealing machine, a digestive juice multilayer cell culture bottle, a second digestive juice sterile pipe connecting machine and a second digestive juice sterile pipe sealing machine which are connected to the digestive juice conveying pipeline, wherein two ends of the digestive juice conveying pipeline are respectively communicated with the digestive juice feed bag and the first collecting roller bottle;

the culture medium liquid conveying assembly comprises a culture medium liquid bag and a culture medium liquid conveying pipeline, two ends of the culture medium liquid conveying pipeline are respectively communicated with the culture medium liquid bag and the first collecting roller bottle, and a culture medium liquid sterile pipe sealing machine and a culture medium liquid sterile pipe connecting machine are sequentially installed on the culture medium liquid conveying pipeline from the culture medium liquid bag to the direction of communication of the first collecting roller bottle;

the host cell culture assembly comprises a host cell conveying pipeline, a first host cell multilayer cell culture bottle and a second host cell multilayer cell culture bottle, two ends of the host cell conveying pipeline are respectively communicated with the first host cell multilayer cell culture bottle and the first collecting roller bottle, a host cell sterile pipe connecting machine is installed on the host cell conveying pipeline, a host cell conveying branch pipe connected with the second host cell multilayer cell culture bottle is installed on the host cell conveying pipeline between the host cell sterile pipe connecting machine and the first host cell multilayer cell culture bottle, and a host cell sterile pipe sealing machine is connected with the joint of the host cell conveying branch pipe and the host cell conveying pipeline.

The system for the totally-enclosed production of the lentiviral vector comprises a second collection roller bottle and a transfection reagent material liquid bag, wherein the transfection reagent material liquid bag is provided with a transfection reagent material liquid conveying pipeline communicated with the second collection roller bottle, the transfection reagent material liquid conveying pipeline is formed by sequentially mounting a transfection reagent sterile tube sealing machine and a transfection reagent sterile tube connecting machine on the transfection reagent material liquid bag in the direction of the second collection roller bottle, the second collection roller bottle is provided with a supernatant conveying pipeline communicated with the first multilayer cell culture bottle of the host cells or the second multilayer cell culture bottle of the host cells, and the supernatant conveying pipeline is formed by sequentially mounting a supernatant sterile tube sealing machine on the second collection roller bottle in the direction of the first multilayer cell culture bottle of the host cells or the second multilayer cell culture bottle of the host cells, The supernatant fluid is connected to a tube machine in an aseptic mode.

The system for the totally-enclosed production of the lentiviral vector comprises a lentiviral vector conveying pipeline, and a viral supernatant liquid bag, a lentiviral vector first sterile tube connecting machine, a lentiviral vector first sterile tube sealing machine, a bag filter, a lentiviral vector second sterile tube connecting machine, a lentiviral vector second sterile tube sealing machine, a clarified sample liquid bag, a hollow fiber column, an ultrafiltration sample liquid bag, a lentiviral vector third sterile tube connecting machine, a lentiviral vector third sterile tube sealing machine, a chromatography column and a purification liquid bag which are sequentially arranged on the lentiviral vector conveying pipeline, and a supernatant extracting pipeline communicated with the first host cell multilayer cell culture bottle or the second host cell multilayer cell culture bottle is arranged on the virus supernatant feed liquid bag, and a supernatant sterile pipe connecting machine is arranged on the supernatant extracting pipeline.

According to the technical scheme provided by the utility model, the system for totally-enclosed production of the lentiviral vector has the following technical effects:

the whole process uses disposable aseptic consumables, cross contamination is effectively avoided, collinear production of various products can be realized, used equipment cannot contact used materials, pipelines through which sample liquid and balance liquid flow are totally closed, an aseptic tube sealing machine and an aseptic tube connecting machine are adopted for disconnection and connection, contamination and cross contamination can be effectively avoided in the production process, the influence of environment, equipment, personnel and other external factors on cell products is reduced, and the quality and the stability of the products are improved.

Drawings

FIG. 1 is a flow chart of a method of the present invention for the closed production of lentiviral vectors;

FIG. 2 is a schematic structural diagram of a host cell proliferation culture apparatus in a system for totally-enclosed production of lentiviral vectors of the present invention;

FIG. 3 is a schematic structural diagram of a lentiviral vector packaging device in a system for totally-enclosed production of lentiviral vectors according to the present invention;

FIG. 4 is a schematic structural diagram of a lentivirus vector purification device in a system for totally-enclosed production of lentivirus vectors according to the present invention.

Wherein the reference numbers are as follows:

a first collection roller bottle 101, a digestion solution feed liquid bag 102, a digestion solution conveying pipeline 103, a first digestion solution sterile tube connecting machine 104, a digestion solution multilayer cell culture bottle 105, a second digestion solution sterile tube connecting machine 106, a culture base liquid bag 107, a culture medium feed liquid conveying pipeline 108, a culture base liquid sterile tube connecting machine 109, a host cell conveying pipeline 110, a first host cell multilayer cell culture bottle 111, a second host cell multilayer cell culture bottle 112, a host cell sterile tube connecting machine 113, a host cell conveying branch pipe 114, a first digestion solution sterile tube sealing machine 115, a second digestion solution sterile tube sealing machine 116, a culture medium feed liquid sterile tube sealing machine 117, a host cell sterile tube sealing machine 118, a second collection roller bottle 201, a transfection reagent feed liquid bag 202, a transfection reagent feed liquid conveying pipeline 203, a transfection reagent sterile tube connecting machine 204, a supernatant conveying pipeline 205, a supernatant sterile tube connecting machine 206, a, A transfection reagent sterile tube sealing machine 207, a supernatant sterile tube sealing machine 208, a lentivirus vector conveying pipeline 301, a virus supernatant feed liquid bag 302, a lentivirus vector first sterile tube sealing machine 303, a bag filter 304, a lentivirus vector second sterile tube sealing machine 305, a clarified sample feed liquid bag 306, a hollow fiber column 307, an ultrafiltration sample feed liquid bag 308, a lentivirus vector third sterile tube sealing machine 309, a chromatography column 310, a purified liquid feed liquid bag 311, a clarified pipeline 312, a lentivirus vector first sterile tube sealing machine 313, a lentivirus vector second sterile tube sealing machine 314 and a lentivirus vector third sterile tube sealing machine 315.

Detailed Description

In order to make the technical means, the inventive features, the objectives and the functions of the present invention easy to understand, the present invention will be further described with reference to the following specific drawings.

It should be understood that the structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any structure modification, ratio relationship change or size adjustment should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the function that the present invention can produce and the purpose that the present invention can achieve.

Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be made without substantial technical changes, and the present invention is also regarded as the scope of the present invention.

The utility model discloses a preferred embodiment provides a method and system of totally closed production of lentiviral vector, the purpose is the disposable aseptic consumptive material of whole use, effectively avoid cross contamination, can realize the collinear production of multiple product, the equipment that uses can not contact the material that uses, sample liquid, the pipeline that balanced liquid flowed through all is totally closed, disconnection and connection adopt aseptic tube sealing machine and aseptic tube receiving machine, can effectively avoid polluting and cross contamination in the production process, reduce the environment, equipment, the influence that personnel and other external factors caused the cell product, improve the quality and the stability of product.

As shown in FIG. 1, a method for the whole-closed production of lentiviral vectors comprises the following steps:

step 1: culturing and propagating the lentivirus vector host cells;

step 2: packaging a lentivirus vector host cell, namely transfecting a plasmid containing a lentivirus vector genome sequence into the lentivirus vector host cell through a transfection reagent to prepare and collect a lentivirus vector culture cell supernatant;

and step 3: and (3) purifying the supernatant of the lentiviral vector, namely sequentially clarifying the supernatant of the lentiviral vector, digesting by enzyme digestion, ultrafiltering and purifying by a chromatographic column to obtain the lentiviral vector. In the method for totally-enclosed production of lentiviral vectors provided in this embodiment, the lentiviral vector host cells in step 1 need to be cultured in a multilayer cell culture flask in a closed manner in advance, and the closed culture in advance comprises recovering, culturing, digesting and passaging the host cells under a closed condition.

In the method for totally-enclosed production of lentiviral vectors provided in this example, the host cells of the lentiviral vectors are 293T cells.

In the method for totally-enclosed production of lentiviral vectors provided in this example, calcium chloride is used as the transfection reagent.

In the totally enclosed production method of the lentiviral vector provided in this embodiment, the step 3 is performed by clarifying with a bag filter 304, adding nuclease to perform digestion, and performing ultrafiltration with a hollow fiber column 307.

The method for totally-enclosed production of lentiviral vectors provided in this example comprises the following specific steps:

firstly, culturing and proliferating a host cell 293T cell of a lentivirus vector, and recovering, culturing, digesting and passaging the cell in a fully-closed multilayer cell culture bottle to obtain a culture supernatant;

packaging the obtained culture supernatant, and transfecting a plasmid containing a lentiviral vector genome sequence into a host cell by a transfection reagent to prepare a lentiviral vector packaging cell supernatant;

purifying the lentivirus vector supernatant, collecting the lentivirus supernatant, clarifying the lentivirus supernatant in a liquid storage bag through a clarification pipeline 312 and a bag filter 304, removing cell debris, adding nuclease to perform enzyme digestion to obtain virus clarified liquid, performing ultrafiltration by using a hollow fiber column 307 to obtain concentrated virus liquid, and introducing the virus liquid into a chromatographic column 310 for purification to obtain the lentivirus vector, wherein the chromatographic column 310 is a Capto core700 chromatographic column.

The utility model relates to a system for the totally closed production of lentiviral vector, wherein, including host cell proliferation culture apparatus, lentiviral vector packing plant, lentiviral vector purification device that connect gradually the setting.

As shown in fig. 2, the system for totally-enclosed production of lentiviral vectors provided by the embodiment adopts a host cell proliferation culture device comprising a first collection roller bottle 101, and a digestion liquid culture conveying assembly, a culture medium liquid conveying assembly and a host cell culture assembly which are respectively connected with the first collection roller bottle 101;

the digestive juice culture conveying assembly comprises a digestive juice feed bag 102, a digestive juice conveying pipeline 103, a first sterile digestive juice receiving machine 104, a first sterile digestive juice sealing machine 115, a multilayer digestive juice cell culture bottle 105, a second sterile digestive juice receiving machine 106 and a second sterile digestive juice sealing machine 116 which are connected to the digestive juice conveying pipeline 103, wherein two ends of the digestive juice conveying pipeline 103 are respectively communicated with the digestive juice feed bag 102 and the first collecting roller bottle 101;

the culture medium liquid conveying assembly comprises a culture medium liquid bag 107 and a culture medium liquid conveying pipeline 108, two ends of the culture medium liquid conveying pipeline 108 are respectively communicated with the culture medium liquid bag 107 and the first collecting roller bottle 101, and a culture medium liquid sterile tube sealing machine 117 and a culture medium liquid sterile tube connecting machine 109 are sequentially arranged on the culture medium liquid conveying pipeline 108 from the culture medium liquid bag 107 to the first collecting roller bottle 101;

the host cell culture assembly comprises a host cell conveying pipeline 110, a first host cell multilayer cell culture bottle 111 and a second host cell multilayer cell culture bottle 112, two ends of the host cell conveying pipeline 110 are respectively communicated with the first host cell multilayer cell culture bottle 111 and the first collection roller bottle 101, a host cell sterile pipe connecting machine 113 is installed on the host cell conveying pipeline 110, a host cell conveying branch pipe 114 connected with the second host cell multilayer cell culture bottle 112 is installed on the host cell conveying pipeline 110 between the host cell sterile pipe connecting machine 113 and the first host cell multilayer cell culture bottle 111, and a host cell sterile pipe sealing machine 118 is connected at the connection part of the host cell conveying branch pipe 114 and the host cell conveying pipeline 110;

in specific use, a host cell proliferation culture device is required to be used for culturing the host cells, and the specific operation process is as follows:

introducing digestive juice in a digestive juice feed liquid bag 102 into a digestive juice multilayer cell culture bottle 105 for digestion, introducing the digested cell culture liquid into a first collection roller bottle 101, introducing a culture medium in a culture medium liquid bag 107 into the first collection roller bottle 101, fully and uniformly mixing the cell culture liquid and the culture medium in the first collection roller bottle 101 to prepare culture supernatants which are respectively introduced into a first host cell multilayer cell culture bottle 111 and a second host cell multilayer cell culture bottle 112, then adding plasmids containing lentiviral vector genome sequences and transfection reagents for culture and amplification, wherein the whole process is carried out under a closed condition, and the first digestive juice sterile tube connecting machine 104, the second digestive juice sterile tube connecting machine 106, the culture medium liquid sterile tube connecting machine 109 and the host cell sterile tube connecting machine 113 are respectively connected with a first digestive juice sterile tube sealing machine 115, a second digestive juice sterile tube sealing machine 116, a first digestive juice sterile tube connecting machine 104, a second sterile tube connecting machine 106, a second digestive juice sterile tube connecting machine 109 and a second sterile tube sealing machine 116, The culture medium liquid sterile tube sealing machine 117 and the host cell sterile tube sealing machine 118 are used for sealing the digestive juice conveying pipeline 103, the culture medium liquid conveying pipeline 108 and the host cell conveying pipeline 110 in a matching manner.

As shown in fig. 3, the system for totally-enclosed production of lentiviral vectors provided in this embodiment adopts a lentiviral vector packaging device comprising a second collection roller bottle 201 and a transfection reagent material liquid bag 202, wherein the transfection reagent material liquid bag 202 is provided with a transfection reagent material liquid conveying pipeline 203 communicated with the second collection roller bottle 201, the transfection reagent material liquid conveying pipeline 203 is sequentially provided with a transfection reagent aseptic tube sealing machine 207 and a transfection reagent aseptic tube connecting machine 204 from the transfection reagent material liquid bag 202 to the second collection roller bottle 201, the second collection roller bottle 201 is provided with a supernatant conveying pipeline 205 communicated with the first multilayer cell culture bottle 111 of host cells or the second multilayer cell culture bottle 112 of host cells, and the supernatant conveying pipeline 205 is sequentially provided with a supernatant aseptic tube sealing machine 208 and a supernatant sealing machine 208 from the second collection roller bottle 201 to the first multilayer cell culture bottle 111 of host cells or the second multilayer cell culture bottle 112 of host cells, A supernatant sterile tube connecting machine 207;

in specific use, a lentivirus vector packaging device is used for extracting the generated cell supernatant and adding a transfection reagent, and the specific operation steps are as follows:

optionally selecting one of the first multilayer cell culture bottle 111 and the second multilayer cell culture bottle 112 of the host cell, extracting cell supernatant from the cell supernatant, introducing the cell supernatant into the second collection roller bottle 201, introducing the transfection reagent in the transfection reagent feed solution bag 202 into the second collection roller bottle 201, fully and uniformly mixing the cell supernatant and the transfection reagent in the second collection roller bottle 201, and then introducing the mixture back into the first multilayer cell culture bottle 111 of the host cell or the second multilayer cell culture bottle 112 of the host cell for culture, wherein the whole process is carried out under a closed condition, and the transfection reagent sterile tube connector 204 and the supernatant sterile tube connector 206 are respectively matched with the transfection reagent sterile tube connector 207 and the supernatant sterile tube connector 208 for sealing the transfection reagent feed solution delivery pipeline 203 and the supernatant delivery pipeline 205.

As shown in fig. 4, the system for totally-enclosed production of lentiviral vectors provided in this embodiment adopts a lentiviral vector purification device comprising a lentiviral vector conveying pipeline 301, and a viral supernatant feed liquid bag 302, a lentiviral vector first sterile tube connector 303, a lentiviral vector first sterile tube connector, a bag filter 304, a lentiviral vector second sterile tube connector 305, a lentiviral vector second sterile tube connector, a clarified sample feed liquid bag 306, a hollow fiber column 307, an ultrafiltration sample feed liquid bag 308, a lentiviral vector third sterile tube connector 309, a lentiviral vector third sterile tube connector, a chromatography column 310, and a purified liquid feed liquid bag 311, wherein the viral supernatant feed liquid bag 302 is provided with a supernatant extraction pipeline communicated with the host cell first multilayer cell culture bottle 111 or the host cell second multilayer cell culture bottle 112, a supernatant sterile tube connecting machine 206 is arranged on the supernatant extracting pipeline, and a clarifying pipeline communicated with the lentivirus carrier conveying pipeline is arranged at one end of the liquid inlet of the bag filter;

in specific use, a lentiviral vector purification device is required to be used for purifying the lentiviral vector, and the specific operation process is as follows:

extracting and storing transfected virus supernatant into a virus supernatant feed liquid bag 302, clarifying the virus supernatant in the virus supernatant feed liquid bag 302 through a clarification pipeline 312 before introducing the virus supernatant into a bag filter 304, removing cell debris after entering the bag filter 304, adding nuclease for enzyme digestion to obtain virus clarified liquid, introducing the virus clarified liquid into a clarified sample feed liquid bag 306, introducing the virus clarified liquid in the clarified sample feed liquid bag 306 into a hollow fiber column 307 for ultrafiltration to obtain virus liquid stored in an ultrafiltration sample feed liquid bag 308, introducing the virus liquid into a chromatography column 310 for chromatography, and storing the virus liquid into a purified liquid feed liquid bag 311 to obtain lentiviral vector liquid, wherein the whole process is carried out under a closed condition, and the lentiviral vector first sterile tube joining machine 303, the lentiviral vector second sterile tube joining machine 305 and the lentiviral vector third sterile tube joining machine 309 are respectively connected with a lentiviral vector first sterile tube joining machine 313, a lentiviral vector first sterile tube joining machine 313 and a lentiviral vector sealing machine 309, The lentiviral vector second sterile tube sealing machine 314 and the lentiviral vector third sterile tube sealing machine 315 are used for sealing the lentiviral vector conveying pipeline 301 in a matching manner.

To sum up, the utility model discloses a method and system of totally closed production of lentiviral vector, whole aseptic consumptive material of use once only, effectively avoid cross contamination, can realize the collinear production of multiple product, the equipment that uses can not contact the material that uses, sample liquid, the pipeline that balanced liquid flowed through all is totally closed, disconnection and connection adopt aseptic tube sealing machine and aseptic tube receiving machine, can effectively avoid polluting and cross contamination in the production process, reduce the environment, equipment, the influence that personnel and other external factors caused the cell product, improve the quality and the stability of product.

The above description has been made of specific embodiments of the present invention. It is to be understood that the invention is not limited to the particular embodiments described above, and that devices and structures not described in detail are understood to be implemented in a manner common in the art; various changes or modifications may be made by those skilled in the art within the scope of the appended claims without departing from the spirit of the invention.

Claims (4)

1. A system for the totally-enclosed production of lentiviral vectors is characterized by comprising a host cell proliferation culture device, a lentiviral vector packaging device and a lentiviral vector purification device which are sequentially connected; the host cell proliferation culture device comprises a first collection roller bottle, and a digestion solution culture conveying assembly, a culture medium liquid conveying assembly and a host cell culture assembly which are respectively connected with the first collection roller bottle; the slow virus vector packaging device comprises a second collection roller bottle and a transfection reagent feed liquid bag, wherein a transfection reagent feed liquid conveying pipeline communicated with the second collection roller bottle is arranged on the transfection reagent feed liquid bag; the lentivirus vector purification device comprises a lentivirus vector conveying pipeline, and a virus supernatant liquid material bag, a first lentivirus vector sterile pipe connecting machine, a first lentivirus vector sterile pipe sealing machine, a bag type filter, a second lentivirus vector sterile pipe connecting machine, a second lentivirus vector sterile pipe sealing machine, a clarified sample material liquid bag, a hollow fiber column, an ultrafiltration sample material liquid bag, a third lentivirus vector sterile pipe connecting machine, a third lentivirus vector sterile pipe sealing machine, a chromatography column and a purified liquid material liquid bag which are sequentially arranged on the lentivirus vector conveying pipeline.

2. The system for the whole-plant production of lentiviral vectors of claim 1,

the digestive juice culturing and conveying assembly comprises a digestive juice feed bag, a digestive juice conveying pipeline, a first digestive juice sterile pipe connecting machine, a first digestive juice sterile pipe sealing machine, a digestive juice multilayer cell culture bottle, a second digestive juice sterile pipe connecting machine and a second digestive juice sterile pipe sealing machine which are connected to the digestive juice conveying pipeline, wherein two ends of the digestive juice conveying pipeline are respectively communicated with the digestive juice feed bag and the first collecting roller bottle;

the culture medium liquid conveying assembly comprises a culture medium liquid bag and a culture medium liquid conveying pipeline, two ends of the culture medium liquid conveying pipeline are respectively communicated with the culture medium liquid bag and the first collecting roller bottle, and a culture medium liquid sterile pipe sealing machine and a culture medium liquid sterile pipe connecting machine are sequentially installed on the culture medium liquid conveying pipeline from the culture medium liquid bag to the direction of communication of the first collecting roller bottle;

the host cell culture assembly comprises a host cell conveying pipeline, a first host cell multilayer cell culture bottle and a second host cell multilayer cell culture bottle, two ends of the host cell conveying pipeline are respectively communicated with the first host cell multilayer cell culture bottle and the first collecting roller bottle, a host cell sterile pipe connecting machine is installed on the host cell conveying pipeline, a host cell conveying branch pipe connected with the second host cell multilayer cell culture bottle is installed on the host cell conveying pipeline between the host cell sterile pipe connecting machine and the first host cell multilayer cell culture bottle, and a host cell sterile pipe sealing machine is connected with the joint of the host cell conveying branch pipe and the host cell conveying pipeline.

3. A system for totally-enclosed production of lentiviral vectors according to claim 2, wherein the transfection reagent feed liquid conveying pipeline is sequentially provided with a transfection reagent sterile tube sealing machine and a transfection reagent sterile tube connecting machine in the direction of the second collection roller bottle by the transfection reagent feed liquid bag, the second collection roller bottle is provided with a supernatant conveying pipeline communicated with the first multilayer cell culture bottle of the host cells or the second multilayer cell culture bottle of the host cells, and the supernatant conveying pipeline is sequentially provided with a supernatant sterile tube sealing machine and a supernatant sterile tube connecting machine in the direction of the first multilayer cell culture bottle of the host cells or the second multilayer cell culture bottle of the host cells by the second collection roller bottle.

4. A system for totally-enclosed production of lentiviral vectors as in claim 2 or 3, wherein the viral supernatant feed solution bag is provided with a supernatant extraction pipeline communicated with the first multilayer cell culture bottle of the host cells or the second multilayer cell culture bottle of the host cells, the supernatant extraction pipeline is provided with a supernatant sterile tube connecting machine, and one end of the liquid inlet of the bag filter is provided with a clarification pipeline communicated with the lentiviral vector conveying pipeline.

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