Flow Cytometry: The reagent is designed for analysis of human blood cells using 4 µl reagent / 100 µl of whole blood or 10⁶ cells in a suspension. The content of a vial (0.4 ml) is sufficient for 100 tests.

Reactivity

Human

Immunogen

NKL cell line.

Host

Mouse

Clonality

Monoclonal

Clone ID

1D11

Isotype

IgG1

Light Chains

kappa

Conjugate

FITC

Excitation: 490nm, Emission: 525nm

Purification

This antibody is conjugated with Fluorescein Isothiocyanate (FITC) under optimum conditions. The conjugate is purified by size-exclusion chromatography; removing unconjugated antibody and free fluorochrome.

Predicted MW

42 kDa

Product Form

Liquid

Formulation

Supplied in Phosphate Buffered Saline, pH 7.4, with 15 mM Sodium Azide.

Storage

Shipped at 4°C. Store in the dark at 2-8°C. Do not freeze!

Synonyms

CD314, CD314 antigen, D12S2489E, Killer cell lectin like receptor subfamily K member 1, Killer cell lectin-like receptor subfamily K member 1, KLR, KLRC4 KLRK1 readthrough, KLRK1, NK cell receptor D, NK lectin-like receptor, NKG2 D activating NK receptor, NKG2 D type II integral membrane protein, NKG2-D, NKG2-D type II integral membrane protein, NKG2-D-activating NK receptor, NKG2D_HUMAN, NKLLR, NKR P2, Nkrp2

Isotype Controls

Mouse IgG1 [MOPC-21] (FITC) (A86205)

Disclaimer

This product is for research use only. It is not intended for diagnostic or therapeutic use.

Scientific Validation Data (1)

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Figure 1: Flow Cytometry - Anti-NKG2D Antibody [1D11] (FITC) (A86454)

Surface staining of human peripheral blood with Anti-CD314 Antibody (A86454).

Citations for this Clone (1)

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(2)

Rescue of impaired NK cell activity in hodgkin lymphoma with bispecific antibodies in vitro and in patients.

References: Anti-NKG2D Antibody [1D11] (FITC) (ab35035)

Abstract:

Natural killer (NK) cells represent a key component of the innate immune system against cancer. Nevertheless, malignant diseases arise in immunocompetent individuals despite tumor immunosurveillance. Hodgkin lymphoma (HL) is characterized by CD30(+) tumor cells and a massive infiltration of immune effector cells in affected lymph nodes. The latter obviously fail to eliminate the malignant cell population. Here, we tested for functional NK cell defects in HL and suggest an improvement of NK function by therapeutic means. We demonstrate that peripheral NK cells (pNK) from patients with HL fail to eliminate HL cell lines in ex vivo killing assays. Impaired NK cell function correlated with elevated serum levels of soluble ligands for NK cell receptors NKp30 (BAG6/BAT3) and NKG2D (MICA), factors known to constrict NK cell function. In vitro, NK cell cytotoxicity could be restored by an NKG2D/NKp30-independent bispecific antibody construct (CD30xCD16A). It artificially links the tumor receptor CD30 with the cytotoxicity NK cell receptor CD16A. Moreover, we observed that NK cells from patients treated with this construct were generally activated and displayed a restored cytotoxicity against HL target cells. These data suggest that reversible suppression of NK cell activity contributes to immune evasion in HL and can be antagonized therapeutically.

TRIAL REGISTRATION:

ClinicalTrials.gov NCT01221571.

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