For immunochemical detection of TNF-α
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TNF-α Chimeric Mouse-Mouse Monoclonal Antibody (Clone cA2 (Infliximab))

Item No. 37175

Technical Information
Synonyms
  • DIF
  • Differentiation-inducing Factor
  • TNFA
  • TNFSF2
  • Tumor Necrosis Factor-α
Immunogen
Human TNF-α
Clone Designation
cA2 (Infliximab)
200 µg of protein A-affinity purified monoclonal antibody
Storage Buffer
PBS with 0.02% ProClin™ 300
Host
Chimeric Monoclonal Antibody
Isotype
Mouse IgG2aҡ
Applications
ELISA, FC, In vivo
Cross Reactivity
(+) TNF-α, soluble TNF-α(-) TNF-β
Species Reactivity
(+) Human
UniProt Accession №
P01375
Shipping & Storage Information
Storage
-20°C
Shipping
Wet ice in continental US; may vary elsewhere
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    Product Description

    TNF-α is a cytokine and member of the TNF/TNF receptor (TNFR) cytokine superfamily.1 TNF-α is produced as a 233-amino acid transmembrane precursor protein from which mature, soluble TNF-α is formed by proteolysis.2 Soluble TNF-α is a 157-amino acid polypeptide, cleaved from the precursor protein on the extracellular side of the membrane, that forms bell-shaped homotrimers with the C-termini at the base, each containing three receptor interaction sites.3 It is primarily produced by activated macrophages but can also be produced by a variety of other cells, such as T cells, natural killer cells, and osteoblasts.3,4 TNF-α binds to and activates its receptors, TNFR1 and TNFR2, which are associated with intracellular protein complexes that activate caspases to induce cell death, induce p38 MAPK signaling, and initiate NF-κB or AP-1-mediated transcription of immune and inflammatory mediators.5 TNF-α promotes inflammation partly by inducing endothelial cells to express adhesion molecules, COX enzymes, and pro-coagulant factors.4 Exogenous TNF-α induces death of cancer cells in vitro, as well as disrupts tumor vascularization and induces tumor necrosis in vivo, but it has tumor-promoting properties when produced in the cancer microenvironment.1,6 In contrast, it plays a role in resistance to infection, with mice lacking Tnf having an increased susceptibility to certain microbial infections but lacking resistance to leishmania.5 Tnf knockout mice are also resistant to certain types of cancer, including chemically induced skin carcinogenesis.1 TNF-α increases lung metastases in a mouse model of fibrosarcoma, an effect that can be reduced by an anti-TNF-α antibody. Mice overexpressing Tnf develop an arthritis similar to rheumatoid arthritis in humans.7 TNF-α is produced in the inflamed tissues of patients with inflammatory diseases such as rheumatoid arthritis, and neutralizing antibodies to TNF-α reduce the levels of TNF-α in vitro and in mouse models of the disease.4 Cayman’s TNF-α Chimeric Mouse-Mouse Monoclonal Antibody (Clone cA2 (Infliximab)) was produced recombinantly from the original humanized cA2 antibody and can be used for flow cytometry (FC) and in vivo applications.8

    WARNING This product is not for human or veterinary use.

    References & Product Citations
    Product Description References

    1. Balkwill, F. TNF-α in promotion and progression of cancer. Cancer Metastasis Rev. 25(3), 409-416 (2006).

    2. Kriegler, M., Perez, C., DeFray, K., et alA novel form of TNF/cachectin is a cell surface cytotoxic transmembrane protein: Ramifications for the complex physiology of TNF. Cell 53(1), 45-53 (1988).

    3. Tang, P., Hung, M., and Klostergaard, J. Human pro-tumor necrosis factor is a homotrimer. Biochemistry 35(25), 8216-8225 (1996).

    4. Bradley, J.R. TNF-mediated inflammatory disease. J. Pathol. 214(2), 149-160 (2008).

    5. Idriss, H.T., and Naismith, J.H. TNFα and the TNF receptor superfamily: Structure-function relationship(s). Microsc. Res. Tech. 50(3), 184-195 (2000).

    6. Josephs, S.F., Ichim, T.E., Prince, S.M., et alUnleashing endogenous TNF-alpha as a cancer immunotherapeutic. J. Transl. Med. 16(1), 242 (2018).

    7. Li, P., and Schwarz, E.M. The TNF-α transgenic mouse model of inflammatory arthritis. Springer Semin. Immunopathol. 25(1), 19-33 (2003).

    8. Knight, D.M., Trinh, H., Le, J., et alConstruction and initial characterization of a mouse-human chimeric anti-TNF antibody. Mol. Immunol. 30(16), 1443-1453 (1993).