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Anti-CD56 (X11X184) h(28BBζ) CAR-Jurkat-NFAT-Luc (XS-1122-LX2572)

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All products and services are For Research Use Only and CANNOT be used in the treatment or diagnosis of disease.

The Anti-CD56 (X11X184) h(28BBζ) CAR-Jurkat-NFAT-Luc cell line is a stable cell line derived from anti-CD56 CAR lentivirus transduction using Jurkat-NFAT-luciferase cell as effector cell. This transduced CAR lentiviral vector was constructed to express scFv of an anti-CD56 antibody linked to the CD28-41BB-CD3ζ signaling domains. The CAR-Jurkat cell line constitutively expressing the firefly luciferase gene under the control of NFAT response elements to facilitate subsequent research. And the recombinant cell product targeted CD56 for CAR-T studies in human Relapsed refractory myeloma.

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Specifications

  • Species
  • Human
  • Host Cell Type
  • T lymphocyte
  • Overexpressed Gene
  • NFAT-Luciferase Reporter
  • Size
  • Containing ≥ 2 X 10*6 / vial Frozen cells
  • Culture Condition
  • Suspension
  • Growth Pattern
  • Exponential growth phase
  • Formulation
  • Frozen cells
  • Cell Purity
  • >90%
  • Cell Viability
  • >80%
  • Mycoplasma Testing
  • The cell line has been screened using the luciferase based mycoplasma detection kit to confirm the absence of mycoplasma species.
  • Shipping
  • Dry ice
  • Storage
  • Frozen cells should be stored in a liquid nitrogen tank (-150°C~-190°C).
  • Warnings
  • Avoid multiple freeze/thaw cycles
  • Research Use Only
  • Our recombinant Jurkat cells are for research use only, not for diagnostic or therapeutic use.
  • Quality Control
  • Cultures are screened for the presence of bacteries, yeast, fungi and mycoplasma (DNA amplification). Growth media are also certified based on U.S. Public Health Service Guidelines.
  • Tumorgenicity
  • Positive
  • Oncogenicity
  • Positive (In vitro life-time studies)
  • Sterility Testing
  • Creative Biolabs provides sterility testing in accordance with USP and EP regulations. All of our sterility testing is performed in an isolator or clean room environments. The cell line has been screened using the membrane filtration testing methods to confirm the absence of aerobic, anaerobic and fungi microorganisms.
  • Identity Testing
  • Identity testing is required for newly established cell lines. Isoenzyme analysis is used to confirm the identity of the species of a cell line. Alternative methods for identity testing include DNA fingerprinting, STR analysis and karyology.
  • Virological Safety Testing
  • A broad range of viruses is susceptible to affecting human cell lines. We can provide in vivo/vitro virus saftey assays by utilizing various animal systems. These viruses include: adventitious viruses, bovine viruses, human and simian viruses, porcine viruses, retrovirus and rodent viruses.
  • Genetic Stability Testing
  • We perform cell genetic stability studies under ICH guidelines. We can provide guidance on the appropriate testing program upon your requirements.
  • PROTOCOL
  • 1. Thaw CAR-Jurkat cell samples quickly in a 37°C water bath until all visible ice has melted. Thaw time for a 1 ml sample in a cryovial is 2-3 minutes. Cryovials should be cool to the touch when removed from the water bath.
    2. Dilute cell/medium mixture immediately with CAR-Jurkat cell culture medium. This can be performed in a single step. The dilution medium should be between 20-37°C. A dilution ratio of 1:10 (sample:medium) or greater is recommended.
    3. Plate cells appropriately according to the experimental conditions of assays.
    4. Culture the control lentivirus CAR-Jurkat cells or use immediately.
    Note: Jurkat cells that are used immediately after thawing have the highest level of viability.
  • Application
  • 1. Compound screening;
    2. Antibody screening;
    3. Co-stimulatory and activation domain comparison;
    4. Checkpoint inhibitors screening;
    5. Safety switches and regulators of CAR-Jurkat functions study;
    6. Pre-clinical study in vivo models;
    7. CAR-Jurkat signaling, tumor microenvironment;
    8. Proof of concept studies for clinical trials;

CAR Design

  • Target
  • CD56
  • Target Species
  • Human
  • scFv Clone
  • X11X184
  • scFv Host Spcies
  • Humanized
  • CAR Construction
  • scFv-CD28-41BB-CD3ζ
  • CAR Signaling Cassetes
  • CD28
    CD28 (Cluster of Differentiation 28) is one of the proteins expressed on T cells that provide co-stimulatorysignals required for T cell activation and survival. CD28 is the receptor for CD80 (B7.1) and CD86 (B7.2) proteins which are expressed on antigen-presenting cells(APC). CD28 modulates the primary TCR/CD3ζ signal in a different fashion than the late costimulatory elements OX40 and 4-1BB. CD28 enhances the expression of downstream regulators that impact on T-cell proliferation, death, differentiation, and effector functions. CAR+ T cells containing the CD28 endodomain showed strikingly enhanced sustained T cell activation, growth, survival. And CD28 results in a brightly expressed, stable receptor as the transmembrane domain. Including CD28 costimulatory domains in CARs led to enhanced anti-malignancy efficacy.
    41BB
    CD137 (also known as 4-1BB) is a surface co-stimulatory glycoprotein originally described as present on activated T lymphocytes, which belongs to the tumor necrosis factor (TNF) receptor superfamily. It is expressed mainly on activated CD4+ and CD8+ T cells, and binds to a high-affinity ligand (4-1BBL) expressed on several antigen-presenting cells such as macrophages and activated B cells. On the basis of preclinical observation, this molecule can promote the persistence of antigen-specific and antigennonspecific chimeric antigen receptor T-cells to significantly increases antitumor activity.
    CD3ζ
    CD3ζ, also known as T-cell receptor zeta, which together with T-cell receptor and CD3γ, δ, ε chain, forms the TCR-CD3 complex. ζ was expressed independently from the complex. The zeta chain plays an important role in coupling antigen recognition to several intracellular signal-transduction pathways. CD3-zeta, which contains 3 ITAMs, is the most commonly used endodomain component of CARs. It transmits an activation signal to the T cell after antigen is bound. CD3-zeta may not provide a fully competent activation signal and additional co-stimulatory signaling is needed. For example, chimeric 4-1BB and OX40 can be used with CD3-zeta to transmit a proliferative/survival signal, or all three can be used together.
  • CAR Vector Name
  • pCDCAR1
  • CAR Vector length
  • ~8kb
  • CAR Vector Type
  • Lentiviral vector
  • CAR Generation
  • Third
  • Targeting Diseases
  • Relapsed refractory myeloma

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For research use only. Not intended for any clinical use. No products from Creative Biolabs may be resold, modified for resale or used to manufacture commercial products without prior written approval from Creative Biolabs.

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