Recombinant Human Interleukin 15 Receptor, Alpha (IL-15Rα)

Referência I-543-100

Tamanho : 100ug

Marca : Leinco Technologies


Recombinant Human Interleukin 15 Receptor, Alpha (IL15Rα)

Product No.: I543

[product_table name="All Top" skus="I543"]

Alternate Names
Interleukin15 Receptor Alpha, IL15RA, MGC104179
Product Type
Recombinant Protein
Expression Host
sf Insect Cells
Species
Human

Background

Interleukin 15 receptor, alpha (IL15RA) is a subunit of the IL15 receptor and specifically binds to IL15. It is expressed in a wide variety of T cells and B cells, as well as, nonlymphoid cells. The receptors of IL15 and IL2 share two subunits, the IL2R beta and IL2R gamma chains (1). This forms the basis of many overlapping biological activities of IL15 and IL2 (2). IL15RA is structurally related to IL2RA but is capable of binding IL15 with high affinity independent of other subunits, which suggests the distinct roles between IL15 and IL2. This receptor is reported to enhance cell proliferation and expression of apoptosis inhibitor BCL2L1/BCL2XL and BCL2 (3). The binding of IL15 to IL15RA antagonizes the TNFalphamediated apoptosis in fibroblasts by competing with TNRF1 for TRAF2 binding (4).

Protein Details

Purity
>95% by SDSPAGE and analyzed by silver stain.
Endotoxin Level
<0.1 EU/µg as determined by the LAL method
Fusion Protein Tag
Fc Fusion Protein
Protein Accession No.
Amino Acid Sequence
itcpppmsve hadiwvksys lysreryicn sgfkrkagts sltecvlnka tnvahwttps lkcikpaass pssnntaatt aaivpgsqlm pskspstgtt eisshesshg tpsqttaknw eltasashqp pgvypqghsd ttiegrdmdp kscdkthtcp pcpapellgg psvflfppkp kdtlmisrtp evtcvvvdvs hedpevkfnw yvdgvevhna ktkpreeqyn styrvvsvlt vlhqdwlngk eykckvsnka lpapiektis kakgqprepq vytlppsrde ltknqvsltc lvkgfypsdi avewesngqp ennykttppv ldsdgsffly skltvdksrw qqgnvfscsv mhealhnhyt qkslslspgk hhhhhh
Nterminal Sequence Analysis
Ile31
State of Matter
Lyophilized
Predicted Molecular Mass
The predicted molecular weight of Recombinant Human IL15 Rα is Mr 42.6 kDa. However, the actual molecular weight as observed by migration on SDSPAGE is Mr 5164 kDa.
Predicted Molecular Mass
42.6
Formulation
This recombinant protein was 0.2 µm filtered and lyophilized from modified Dulbecco’s phosphate buffered saline (1X PBS) pH 7.2 – 7.3 with no calcium, magnesium, or preservatives.
Storage and Stability
This lyophilized protein is stable for six to twelve months when stored desiccated at 20°C to 70°C. After aseptic reconstitution, this protein may be stored at 2°C to 8°C for one month or at 20°C to 70°C in a manual defrost freezer. Avoid Repeated Freeze Thaw Cycles. See Product Insert for exact lot specific storage instructions.
Country of Origin
USA
Shipping
Next Day Ambient
NCBI Gene Bank

Leinco Protein Advisor

Powered by AI: AI is experimental and still learning how to provide the best assistance. It may occasionally generate incorrect or incomplete responses. Please do not rely solely on its recommendations when making purchasing decisions or designing experiments.

Using Recombinant Human Interleukin 15 Receptor, Alpha (IL15Rα) in your research applications is critical for maximizing the biological activity and stability of IL15, particularly in studies focused on immunology, cancer immunotherapy, and cellbased assays. IL15Rα enables the formation of IL15/IL15Rα complexes, which more closely mimic the natural transpresentation mechanism and significantly enhance the potency of IL15 in stimulating immune cells.

Key scientific reasons to use recombinant IL15Rα:

  • Enhanced IL15 Activity: The IL15/IL15Rα complex increases the affinity of IL15 for the IL2Rβγc receptor on effector cells by up to 150fold compared to IL15 alone, resulting in much stronger stimulation of CD8⁺ T cells and NK cells.
  • Improved Stability and Halflife: Recombinant IL15Rα, when complexed with IL15, increases the serum halflife and intracellular stability of IL15, overcoming the rapid clearance and degradation issues associated with free IL15.
  • Augmented Antitumor Efficacy: IL15/IL15Rα complexes and superagonists have demonstrated superior antitumor activity in preclinical models, promoting proliferation and activation of NK, NKT, and memory CD8⁺ T cells, and leading to tumor regression and improved survival.
  • Transpresentation Mechanism: IL15Rα is essential for the transpresentation of IL15, a physiological process where IL15 bound to IL15Rα on one cell is presented to neighboring cells expressing the IL2Rβγc receptor, thereby efficiently activating immune responses.
  • Versatile Research Applications: Recombinant IL15Rα is used in designing superagonists, cellbased vaccines, and fusion proteins for immunotherapy, as well as in basic research to dissect IL15 signaling pathways and immune cell biology.

Typical applications include:

  • Cancer immunotherapy studies (e.g., evaluating antitumor immune responses, developing IL15based therapeutics).
  • Immunological assays (e.g., stimulating and expanding NK and CD8⁺ T cells for functional studies).
  • Cellbased vaccine platforms (e.g., engineering cells to secrete IL15/IL15Rα complexes for enhanced immunogenicity).

In summary, recombinant IL15Rα is indispensable for research aiming to harness or study the full immunostimulatory potential of IL15, especially where robust activation, stability, and physiological relevance are required.

Recombinant Human IL15Rα can be used as a standard for quantification or calibration in ELISA assays, but only in assays specifically designed to detect IL15Rα or IL15/IL15Rα complexes, not for quantifying IL15 alone.

For ELISA assays targeting IL15Rα (the receptor subunit), recombinant IL15Rα is suitable as a standard, provided the assay is validated for this purpose. Such assays typically use antiIL15Rα antibodies for capture and detection, and the recombinant protein standard allows for accurate quantification of IL15Rα concentrations in samples.

For assays measuring IL15/IL15Rα heterodimeric complexes, the standard should be a purified IL15/IL15Rα complex, not the receptor alone. Studies have shown that ELISAs specific for the heterodimer use serial dilutions of purified human IL15/IL15Rα complexes as the reference standard, which closely mimics the physiological form found in serum. Using only recombinant IL15Rα as a standard in these assays would not accurately reflect the analyte being measured.

For IL15 quantification, recombinant IL15 is used as the standard, not IL15Rα. ELISA kits for IL15 are calibrated against recombinant IL15, and the standard curve is generated using this protein.

Key considerations:

  • Use recombinant IL15Rα as a standard only in ELISAs designed to quantify IL15Rα.
  • For heterodimeric IL15/IL15Rα detection, use a purified complex as the standard.
  • For IL15 quantification, use recombinant IL15 as the standard.
  • Always verify that your ELISA protocol is validated for the specific analyte and standard you intend to use.

If your goal is to quantify soluble IL15Rα in biological samples, recombinant IL15Rα is appropriate as a standard. If you wish to quantify IL15/IL15Rα complexes, you must use a standard that reflects the complexed form. Using the wrong standard can lead to inaccurate quantification and misinterpretation of results.

Recombinant Human Interleukin 15 Receptor, Alpha (IL15Rα) has been validated in published research primarily for applications in cancer immunotherapy, immune cell activation assays, and mechanistic studies of cytokine transpresentation.

Key validated applications include:

  • Cancer Immunotherapy Models: IL15Rα, especially as part of IL15/IL15Rα complexes, has been used to enhance the antitumor activity of immune cells such as NK cells and CD8^+^ T cells in both in vitro and in vivo models. These complexes prolong IL15 halflife and boost its biological activity, resulting in improved tumor growth inhibition and increased survival in mouse xenograft models.

  • Transpresentation and Immune Cell Activation: IL15Rα enables the transpresentation of IL15 to neighboring NK cells and CD8^+^ T cells, leading to superior activation, proliferation, and cytotoxicity compared to IL15 alone. This has been validated in protocols using dendritic cells engineered to express IL15Rα, which stimulate NK cell activation and tumor cell killing.

  • Combination Immunotherapy: Recombinant IL15Rα complexes have been tested in combination with immune checkpoint inhibitors (e.g., PD1 antibodies), showing synergistic effects in suppressing tumor growth in preclinical models.

  • Pharmacokinetic Enhancement: Fusion proteins comprising IL15 and the extracellular domain of IL15Rα (sometimes linked to Fc domains) have been validated for their ability to significantly extend the halflife of IL15 in circulation, thereby maximizing its therapeutic potential.

  • Cellular and Molecular Mechanism Studies: IL15Rα has been used to dissect the mechanisms of IL15 transpresentation, receptor shedding, and downstream signaling pathways relevant to immune cell function and antitumor responses.

  • CARNK Cell Engineering: IL15Rα has been incorporated into chimeric antigen receptor (CAR) constructs to enhance NK cell proliferation, cytokine secretion, and cytotoxicity against hematologic malignancies.

Summary Table of Validated Applications

Application AreaExperimental Validation Contexts
Cancer immunotherapyMouse xenograft models, in vitro cytotoxicity assays
Immune cell activationNK cell and CD8^+^ T cell proliferation/activation assays
Transpresentation studiesDCNK coculture, mRNA electroporation
Combination therapyCoadministration with checkpoint inhibitors
Pharmacokinetic enhancementFusion protein halflife studies
CARNK cell engineeringCAR construct functional assays
Mechanistic studiesCytokine signaling, receptor shedding

These applications are supported by multiple peerreviewed studies, demonstrating the utility of recombinant human IL15Rα in both basic and translational immunology research.

To reconstitute and prepare Recombinant Human Interleukin 15 Receptor, Alpha (IL15Rα) protein for cell culture experiments, follow these general steps, which are based on best practices for recombinant protein handling and specific protocols for similar cytokine receptors:

  1. Centrifuge the vial briefly before opening to ensure all lyophilized material is at the bottom.

  2. Reconstitution:

    • Use sterile, endotoxinfree PBS (phosphatebuffered saline) or sterile water for reconstitution, depending on the protein's formulation and your experimental requirements.
    • A typical starting concentration is 100 μg/mL in sterile PBS. If your application requires a different concentration, adjust accordingly by diluting with the same buffer.
  3. Carrier Protein Addition (optional but recommended for stability):

    • Add a carrier protein such as 0.1–1% BSA (bovine serum albumin) or 5% trehalose to the buffer to enhance protein stability, especially if the protein will be stored for more than a few days or at low concentrations.
  4. Mixing:

    • Gently swirl or invert the vial to dissolve the protein completely. Avoid vigorous vortexing, which can denature the protein.
  5. Sterile Filtration (if required for cell culture):

    • If sterility is critical and the protein solution is not already sterile, filter the reconstituted protein through a 0.2 μm sterile filter.
  6. Aliquoting and Storage:

    • Aliquot the reconstituted protein to avoid repeated freezethaw cycles, which can degrade the protein.
    • Store aliquots at 2–8°C for up to one month or at –20°C to –70°C for longterm storage.
    • Avoid multiple freezethaw cycles.
  7. Preparation for Cell Culture:

    • Before use, thaw an aliquot on ice and dilute to the desired working concentration in your cell culture medium, ideally containing serum or additional carrier protein to minimize adsorption to plasticware.

Additional Notes:

  • If using a specific IL15Rα variant (e.g., Fc chimera, sushi domain), confirm the recommended buffer and concentration with the product datasheet, as some constructs may have unique requirements.
  • For experiments involving IL15/IL15Rα complexes, preincubate the receptor with IL15 at the desired molar ratio before adding to cells, as this can enhance biological activity and stability.

Summary Table: Reconstitution Steps

StepDetails
Centrifuge vialBriefly, before opening
ReconstitutionSterile PBS or water, 100 μg/mL typical
Carrier protein0.1–1% BSA or 5% trehalose (optional, for stability)
MixingGentle swirling, avoid vigorous agitation
Sterile filtration0.2 μm filter if needed
Aliquoting/storage2–8°C (1 month), –20°C to –70°C (longterm), avoid freezethaw cycles
Cell culture prepThaw on ice, dilute in medium with serum or carrier protein

These steps will help ensure protein integrity and reproducibility in your cell culture experiments. Always consult the specific product datasheet for any unique instructions.

References & Citations

1. Giri, JG. et al. (1995) EMBO J. 14:3654
2. Anderson, DM. et al. (1995) J. Biol. Chem. 270:29862
3. Wu, TS. et al. (2002) Immunol. 168:705
4. BulfonePaus, S. et al. (1999) FASEB 13:1575

Certificate of Analysis

IMPORTANT Use lot specific datasheet for all technical information pertaining to this recombinant protein.
Disclaimer AlertProducts are for research use only. Not for use in diagnostic or therapeutic procedures.
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