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Natural killer (NK) cells are innate lymphocytes that kill virally infected or malignant cells. Unlike T cells, NK cells function in an antigen independent manner, responding to anything they perceive as "non-self", including malignant cells. NK cells are an attractive allogeneic immune modulator, as they have a well-known safety profile and lack the potential to cause graft-vs-host disease, a risk associated with CAR-T cell immunotherapy. This makes them an attractive cell type for development of off-the-shelf immunotherapies [1].
Pre-clinical and clinical studies have demonstrated safety and efficacy of allogeneic NK cells against various malignancies—both hematological and solid tumors, without the need for strict HLA-matching. Several clinical trials are currently ongoing which use NK or CAR-NK cells as off-the-shelf allogeneic therapeutics. However, many NK cells are needed in order to infiltrate solid tumors effectively. Generation of sufficient cell numbers for off-the-shelf allogeneic translational, cancer immunotherapy requires efficient scale-up culture conditions. For this, Thermo Fisher Scientific has developed Gibco Cell Therapy Systems (CTS) products across the cell therapy workflow to facilitate the transition from discovery to commercial manufacturing.
Learn more: Natural killer cells
Human peripheral blood mononuclear cells (PBMCs) are a rich source of many immune cell types, including NK cells. Often, PBMCs are isolated from whole peripheral blood or leukapheresis preparation via density gradient separation, but this requires a lengthy, manual process, which can be prone to error and contamination.
Alternatively, the CTS Rotea Counterflow Centrifugation System offers a closed, automatable solution for PBMC isolation.
NK cells can be isolated from the purified PBMC preparation using immunomagnetic beads such as the Invitrogen Dynabeads Untouched Human NK Cells Kit.
Feeder-free NK cell expansion systems are the desirable choice for clinical applications due to their reduced safety risks. However, the historically lower expansion rates of feeder-free culture systems present a challenge to widespread clinical adoption and are a key reason why feeder-based expansion systems are frequently used today, despite the safety and regulatory risks they pose.
Gibco CTS NK-Xpander Medium was designed to proliferate a high yield of functional human NK cells to address the needs of translational and clinical cell therapy researchers with or without the use of feeder cells.
CTS NK-Xpander Medium is available in 5 L bags and 500 mL bottles.
Figure 1. CTS NK-Xpander Medium offers significantly higher fold expansion than all other media systems tested, including a specialty NK culture medium (Supplier 1) (p<0.0001) with average expansion greater than 1,500-fold after 14 days of small-scale culture (n=20 donors).
Thermo Fisher Scientific offers growth factors, cytokines, and other NK cell-related recombinant proteins in the Gibco PeproTech portfolio to effectively maintain and expand human NK cells.
Learn more about how PeproTech and PeproGMP recombinant proteins can support your NK cell therapy applications.
NK cells are often genetically modified to improve NK cell function, persistence, and trafficking to tumor sites. Lentiviral vectors can be used to make genetic modifications such as insertion of chimeric antigen receptors. The Gibco CTS LV-MAX Lentiviral Production System offers a scalable and high-yield lentiviral vector production platform that is based on a suspension culture of HEK 293-derived Viral Production Cells adapted to a special chemically defined, serum-free, and protein-free CTS LV-MAX Production Medium.
As you move your genome editing projects from basic research to clinical settings, high-quality cell therapy ancillary materials and documentation are critical. We now offer our Gibco CTS TrueCut Cas9 Protein for clinical research that requires Cas9 nuclease that is manufactured with stringent specifications.
NK cell therapy culture volumes can often reach final volumes of 10–20 L, which must be concentrated and undergo buffer exchange prior to final product formulation. The Gibco CTS Rotea Counterflow Centrifugation System is a closed, automatable alternative to commonly used manual centrifugation processes and offers exceptional flexibility in cell therapy development and manufacturing to enable scaling from research through commercial manufacturing.
NK cells are traditionally identified by the presence of CD56 and absence of CD3 on their cell surface via flow cytometry. In addition to CD56, NK cells can be further characterized into a variety of subsets through many different cell surface markers including CD16 and the KIR family of receptors. Check out these tools that can be used for NK cell analysis including flow cytometry, functional assays, and immunoassays. For additional characterization information, visit our NK cell overview page
For the most advanced cell analysis, the Attune CytPix Flow Cytometer combines acoustic focusing fluidics for high sensitivity and high throughput with a high-speed camera.
NK cell therapies typically require a cryopreservation step to help ensure that the cellular product is preserved without compromising viability and efficacy. Thermo Scientific CryoMed Controlled-Rate Freezers (CRF) offer precise, repeatable freezing results that protect precious samples from intracellular freezing and are equipped with enhanced data traceability features to support audit requirements and offers customizable freezing profiles while supporting 21 CFR part 11 and GMP needs.
Dr. Dean Lee of Nationwide Children’s Hospital discusses his work with NK cells, including optimization of culture conditions.
Dr. Erica Heipertz introduces CTS NK-Xpander Medium in a feeder-free system.
Dr. Erica Heipertz discusses scale-up of human NK cell populations in various bioreactor systems.
Intended use of the products mentioned on this page vary. For specific intended use statements please refer to the product label.