Self-contained disposable tubing set for sterile preparation of cells by culturing, centrifugation, and column chromatography

The invention claimed is: 1. An interconnected assembly of disposable cell separation elements that is configured for sterile processing of a cell population by an automated cell separation apparatus, the elements of the assembly being optionally referred to collectively as a tubing set, wherein the assembly comprises: (a) a first connector configured for sterile connection to a first source of fluid; (b) a second connector configured for sterile connection to a second source of fluid; (c) a third connector configured for sterile connection to a sample container; (d) a rotatable container that contains a processing chamber, wherein the container is configured to rotate about a rotational axis, thereby applying centrifugal force to cells in the processing chamber so as to separate the cells according to a first characteristic; (e) a cell separation column that is configured to separate cells according to a second characteristic; (f) a first output container configured to receive cells separated by the apparatus; (g) a second output container configured to receive cells separated by the apparatus; and (h) a system of flow tubes that interconnect the aforelisted elements (a) to (g); wherein the interconnected assembly is configured so that a user can perform the following steps: (1) installing the assembly on the automated cell separation apparatus; then (2) connecting a source of media or buffer to the first connector; (3) connecting a source of a cell processing reagent to the second connector; (4) connecting a container that contains a sample of blood or bone marrow cells to the third connector; (5) operating the apparatus so as to obtain cells from the sample container, centrifuge cells from the sample in the processing chamber, combine the cells with the cell processing reagent, separate cells from the sample in the cell separation column, deliver a first separated population of cells from the sample into the first output container, and deliver a second population of cells from the sample into a second output container; followed by (6) removing the first and second output containers from the apparatus; and (7) removing the assembly from the apparatus; wherein the interconnected assembly is closed so that a sample of cells connected to the first connector in step (4) can be processed within the assembly by the automated cell separation apparatus in a manner that maintains sterility of the cells throughout step (5). 2. An interconnected assembly according to claim 1 , configured so that cells can be fed into the processing chamber while the rotatable container is being centrifuged. 3. An interconnected assembly according to claim 1 , wherein the processing chamber is configured for culturing the cells. 4. An interconnected assembly according to claim 1 , wherein the rotatable container is configured such that gases can enter and leave the processing chamber while maintaining sterility and without stopping centrifugation. 5. An interconnected assembly according to claim 1 , wherein the processing chamber comprises a plurality of surfaces perpendicular to the rotational axis upon which cells can be cultured. 6. An interconnected assembly according to claim 1 , wherein the rotatable container has a window configured for optical observation of material in the processing chamber during centrifugation. 7. An interconnected assembly according to claim 6 , wherein the window extends radially in the bottom or top of the rotatable container from a position adjacent to the rotation axis to a position near the perimeter of the container. 8. An interconnected assembly according to claim 1 , wherein the processing chamber comprises a surface perpendicular to the axis of rotation that binds hematopoietic cells, thereby configuring the rotatable container to separate cells during centrifugation according to affinity of the cells for the surface. 9. An interconnected assembly according to claim 1 , wherein the rotatable container has a central flow line passing into the processing chamber through and along the rotational axis, whereby the container is configured so that a sample being centrifuged can pass into or out of the processing chamber through the central flow line while being centrifuged. 10. An interconnected assembly according to claim 9 , further comprising an outer flow line that is parallel to and concentric with the central flow line through and along the rotational axis. 11. An interconnected assembly according to claim 1 , wherein the cell separation column is configured to separate cells according to a label that is attached selectively to a subset of cells flowed into the column. 12. An interconnected assembly according to claim 1 , wherein the cell separation column is configured so that cells labeled with a magnetic label will be retained by the column, and cells that are not so labeled will pass through the column. 13. An interconnected assembly according to claim 1 , wherein the cell separation column contains a ferromagnetic matrix that can be rendered magnetic to retain cells labeled with a magnetic particle, and then can be rendered non-magnetic to release cells that have been retained. 14. A method of processing cells using the interconnected assembly of disposable cell separation elements according to claim 1 , comprising: (1) installing the interconnected assembly on the automated cell separation apparatus; then (2) connecting a source of cell culture media or buffer to the first connector; (3) connecting a source of a cell processing reagent to the second connector; (4) connecting a container that contains a sample of blood or bone marrow cells to the third connector; (5) operating the apparatus so as to obtain cells from the sample container, centrifuge cells from the sample in the processing chamber, combine the cells with the cell processing reagent, separate cells from the sample in the cell separation column, deliver a first separated population of cells from the sample into the first output container, and deliver a second population of cells from the sample into a second output container; and subsequently (6) harvesting the first output container containing the first population of cells, and the second output container containing the second population of cells. 15. A commercial product that contains an interconnected assembly according to claim 1 in sterilized form in a package ready for use. 16. The commercial product according to claim 15 , wherein the package indicates that the assembly is disposable or intended for single use. 17. A commercial product that includes an interconnected assembly according to claim 1 , in which the elements are in preassembled form. 18. A commercial product that includes an interconnected assembly according to claim 1 , in which at least some of the elements are provided separately to be assembled before operation of the apparatus. 19. The method of claim 14 , which is a method for preparing a subpopulation of lymphocytes or a population of dendritic cells from a sample of blood or bone marrow cells for reinfusion back into the same patient from which the sample was initially obtained. 20. The method of claim 14 , which is a method for purifying and genetically modifying T lymphocytes.