Anti-bovine IL-4 mAb (bIL4-II), biotin

Anti-bovine IL-4 mAb (bIL4-II), biotin

3118-6-250

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Validated for our assays.

Content

Monoclonal antibody bIL4-II, biotinylated. Supplied at 0.5 mg/ml in PBS with 0.02% sodium azide.

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Product specifications

Intended use

This monoclonal antibody enables specific detection of bovine and sheep IL-4 in immunoassays such as ELISpot, FluoroSpot, and ELISA.

Serum/Plasma samples

Recommendation

bIL4-II is recommended as detection mAb in ELISpot, FluoroSpot, and ELISA in combination with capture mAb bIL4-I (product code 3118-3).

Product details

ProductAnti-bovine IL-4 mAb (bIL4-II), biotin
ApplicationELISpot, FluoroSpot, ELISA
AnalyteIL-4
AntibodybIL4-II
ConjugateBiotin
ClonalityMonoclonal
ImmunogenRecombinant bovine IL-4
HostMouse
IsotypeIgG2b
ReactivityCow, Sheep
Specificity

Native and recombinant bovine (cow) IL-4

Cross-reactivity

Cross-reacts with IL-4 from sheep. For more information, please check the Veterinary cross-reactivity guide.

Purification

Purified from in vitro cultures by protein G affinity chromatography.

Biotinylation

Biotinylated through reaction with a N-hydroxysuccinimide ester of biotin.

Concentration0.5 mg/ml
Supplied in

PBS with 0.02% sodium azide. Sterile-filtered (0.2 µm).

Contents

Monoclonal antibody bIL4-II, biotinylated. Supplied at 0.5 mg/ml in PBS with 0.02% sodium azide.

Shipping and Storage

Shipping

Shipped at ambient temperature.

Storage

Store product at 4-8°C or frozen at -20°C or below. Avoid repeated freezing/thawing.

Shelf lifeAt least 18 months from date of receipt.

Find out which analyte combinations we have evaluated in T cell FluoroSpot and which combinations are affected by capture effects or not. 

What is a capture effect?

When capture antibodies with different specificities are coated together, the capture of one cytokine may affect the secretion of other cytokines. This is usually more pronounced when studying T cell responses with polyclonal stimuli compared to antigen-specific responses. Capture effects are seldom a problem and can often be counteracted by the addition of an anti-CD28 antibody.

Depiction of capture effects observed in FluoroSpot

(1) IL-2 secreted by the activated T cell is captured by coated anti-IL-2 capture antibodies. (2) As a result, IL-2-stimulation of the T cell itself (autocrine stimulation) as well as nearby T cells (paracrine stimulation) is impaired, ultimately leading to (3) decreased IFN-γ secretion.

Co-stimulation with anti-CD28

Anti-CD28 mAb provides a co-stimulatory signal to antigen-specific responses by binding to CD28 on T cells. The addition of an anti-CD28 mAb to the cell culture enhances antigen-specific responses and can counteract capture effects. For example, the presence of IL-2 capture antibodies may result in reduced activation of T cells, as capturing of IL-2 decreases the amount of available IL-2 and thereby dampens the IL-2-mediated stimulation of T cells. The addition of anti-CD28 mAb restores IFN-γ responses (depicted in the below images). Further optimization may be necessary, depending on the cells and stimuli used. Too high concentrations of the anti-CD28 mAb may result in an elevation of non-specific cytokine secretion.

Overcoming capture effects using anti-CD28 anitbodies in FluoroSpot

(1) An anti-CD28 antibody can be added to provide a co-stimulatory signal that can restore (2) e.g. IFN-γ responses.

How to investigate capture effects

Our FluoroSpot Plus kits are evaluated for capture effects, and in studies of T cell responses we recommend co-stimulation with anti-CD28. With FluoroSpot Flex, it is possible to combine and build your own kit. For guidance look at our analyte combination table (above). Capture effects can be investigated by quantifying spot numbers in wells coated with single capture antibodies and compared to wells coated with a mixture of the capture antibodies. The compensatory effect of the anti-CD28 mAb may be assessed by comparing cells cultured with and without the anti-CD28 mAb.

Tutorial, Published December 28, 2023

Incubation strategies for success in ELISpot and FluoroSpot
We've made a handy table summarizing incubation times for different analytes to make your research planning for the ELISpot and FluoroSpot assay a little easier.
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IL-4

Analyte description

Interleukin 4 (IL-4) is produced primarily by Th2 cells, mast cells, eosinophils, and basophils. IL-4 was first identified to costimulate B cell growth; the cytokine is essential for B cell secretion of IgE and augments the production of IgG1 in vivo. In addition to regulating B cell growth and immunoglobulin secretion, IL-4 also affects T cells. In vitro, IL-4 promotes T cell growth and can induce cytolytic T cell activity. IL-4 also induces the differentiation of naive CD4 T cells into Th2 cells, which are characterized by their capacity to secrete the cytokines IL-4, IL-5, and IL-10 upon activation, while simultaneously inhibiting the generation of Th1 cells.

Alternative namesInterleukin 4, IL-4, IL4, BCGF-1, BSF-1
Cell typeT cell, Th2, Treg
Gene ID280824, 443327
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