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07-1483
Sigma-AldrichAnti-IκBα Antibody
Detect IκBα using this Anti-IκBα Antibody validated for use in WB, IH(P), ELISA & IP.
More>>Detect IκBα using this Anti-IκBα Antibody validated for use in WB, IH(P), ELISA & IP. Less<<
Anti-IκBα Antibody: SDB (Sicherheitsdatenblätter), Analysenzertifikate und Qualitätszertifikate, Dossiers, Broschüren und andere verfügbare Dokumente.
IKK beta (IκB Kinase, IKKβ, I-Kappa-B kinase-beta) is a member of the IKK complex which is composed of IKK alpha, IKK beta, IKK gamma and IKAP. IκB Kinase (IKK) complex is a critical component in NFκB regulation. In a majority of unstimulated cells, the NFκB transcription factors exist in their inactive form and are retained in the cytoplasm by the bound inhibitory IκB proteins. For NFκB to become activated, it must first disassociate from the inhibitor IκB. This occurs via the serine phosphorylation of IκB on Ser32 and Ser36. Post receptor stimulation, most notably by TNFα, NIK, a serine/threonine kinase, activates and phosphorylates IKKα and IKKβ. Phosphorylation of 2 sites at the activation loop of IKK beta is essential for activation of IKK by TNF and IL1. Once activated, IKK beta autophosphorylates, which in turn decreases IKK activity and prevents prolonged activation of the inflammatory response. Additionally, IKK beta activity can also be regulated by MEKK-1. IKK then binds to and phosphorylates IκBα on the two serine residues. This phosphorylation marks IκB for ubiquination and destruction by the proteosome. This frees the NFκB complex and allows it to translocate to the nucleus.
References
Product Information
Format
Serum
HS Code
3002 15 90
Control
HEK293 cell lysate. Control Peptide: Included with the antibody is 50 μg (1 mg/mL) of IκBα control peptide. The peptide will block the specific interaction of AB3016 with the IκBα subunit. Control peptide should be used at 1.0 μg per 1.0 μL of antiserum used in assay. Optimal concentrations must be determined by the end user.
Presentation
Rabbit polyclonal IgG serum in buffer containing 0.02 M Potassium phosphate with 0.15 M NaCl, pH 7.2 and 0.1% sodium azide.
Detect IκBα using this Anti-IκBα Antibody validated for use in WB, IH(P), ELISA & IP.
Key Applications
Western Blotting
Immunohistochemistry (Paraffin)
ELISA
Immunoprecipitation
Application Notes
Immunohistochemisty (paraffin): Representative testing from a previous lot. Anti-IкBα staining on invasive ductal carcinoma tissue (Breast Cancer) was pretreated with citrate buffer, pH 6.0. A 1:1,000 diluted was used using IHC-Select® detection with HRP-DAB.
ELISA: Recommended
Immunoprecipitation: Recommended
Optimal dilutions must be determined by the end user.
Biological Information
Immunogen
IκBα peptide corresponding to a region near the C-terminus of the human protein, conjugated to KLH.
Epitope
C-terminus
Host
Rabbit
Specificity
Recognizes IκBα, C-terminus. May react non-specifically with other proteins. Control peptide provided will compete only with the specific reaction of antiserum with IκBα.
NFKB1 (MIM 164011) or NFKB2 (MIM 164012) is bound to REL (MIM 164910), RELA (MIM 164014), or RELB (MIM 604758) to form the NFKB complex. The NFKB complex is inhibited by I-kappa-B proteins (NFKBIA or NFKBIB, MIM 604495), which inactivate NF-kappa-B by trapping it in the cytoplasm. Phosphorylation of serine residues on the I-kappa-B proteins by kinases (IKBKA, MIM 600664, orIKBKB, MIM 603258) marks them for destruction via the ubiquitination pathway, thereby allowing activation of the NF-kappa-B complex. Activated NFKB complex translocates into the nucleus and binds DNA at kappa-B-binding motifs such as 5-prime GGGRNNYYCC 3-prime or 5-prime HGGARNYYCC 3-prime (where H is A, C, or T; R is an A or G purine; and Y is a C or T pyrimidine).[supplied by OMIM].
FUNCTION: Inhibits the activity of dimeric NF-kappa-B/REL complexes by trapping REL dimers in the cytoplasm through masking of their nuclear localization signals. On cellular stimulation by immune and proinflammatory responses, becomes phosphorylated promoting ubiquitination and degradation, enabling the dimeric RELA to tranlocate to the nucleus and activate transcription. SUBUNIT: Interacts with RELA; the interaction requires the nuclear import signal. Interacts with NKIRAS1 and NKIRAS2. Part of a 70-90 kDa complex at least consisting of CHUK, IKBKB, NFKBIA, RELA, IKBKAP and MAP3K14. Interacts with HBV protein X. Interacts with RWDD3; the interaction enhances sumoylation. SUBCELLULAR LOCATION: Cytoplasm. Nucleus. Note=Shuttles between the nucleus and the cytoplasm by a nuclear localization signal (NLS) and a CRM1-dependent nuclear export (By similarity). INDUCTION: Induced in adherent monocytes. PTM: Phosphorylated; disables inhibition of NF-kappa-B DNA-binding activity. PTM: Ubiquitinated; subsequent to stimulus-dependent phosphorylation on serines. PTM: Sumoylated; sumoylation requires the presence of the nuclear import signal. DISEASE: Defects in NFKBIA are a cause of autosomal dominant anhidrotic ectodermal dysplasia with immunodeficiency (AD-EDA-ID) [MIM:164008]. Ectodermal dysplasias (EDs) constitute a heterogeneous group of developmental disorders affecting tissues of ectodermal origin. EDs are characterized by abnormal development of two or more ectodermal structures such as hair, teeth, nails and sweat glands, with or without any additional clinical sign. Each combination of clinical features represents a different type of ectodermal dysplasia. SIMILARITY: Belongs to the NF-kappa-B inhibitor family. SIMILARITY: Contains 5 ANK repeats.
Molecular Weight
~36 kDa
Physicochemical Information
Dimensions
Materials Information
Toxicological Information
Safety Information according to GHS
Safety Information
Product Usage Statements
Quality Assurance
Routinely evaluated by Western Blot on HEK293 lysates.
Western Blot Analysis: 1:500 to 1:2,000 dilution of this lot detected IkBalpha on 10 μg of HEK293 lysates.
Usage Statement
Unless otherwise stated in our catalog or other company documentation accompanying the product(s), our products are intended for research use only and are not to be used for any other purpose, which includes but is not limited to, unauthorized commercial uses, in vitro diagnostic uses, ex vivo or in vivo therapeutic uses or any type of consumption or application to humans or animals.
Storage and Shipping Information
Storage Conditions
Both antibody and control are stable for 6 months at -20ºC in undiluted aliquots from date of receipt. Handling Recommendations: Upon first thaw, and prior to removing the cap, centrifuge the vial and gently mix the solution. Aliquot into microcentrifuge tubes and store at -20°C. Avoid repeated freeze/thaw cycles, which may damage IgG and affect product performance.
Glutamine modulates lipopolysaccharide-induced activation of NF-κB via the Akt/mTOR pathway in lung epithelial cells. Hou, YC; Chiu, WC; Yeh, CL; Yeh, SL American journal of physiology. Lung cellular and molecular physiology
302
L174-83
2011
Lung epithelial cells are important barriers in the respiratory system that provoke inflammatory responses through nuclear factor (NF)-κB activation to prevent pathogens from invading the body. Lipopolysaccharide (LPS) is a common pathogen-associated stimulus that activates IκB kinase (IKK) to regulate NF-κB-mediated inflammation through modulating nuclear translocation and phosphorylation of NF-κB. Previously, it was shown that Akt and the mammalian target of rapamycin (mTOR) are involved in the phosphorylation of IKK to activate NF-κB. Herein, we demonstrate that glutamine (GLN) modulated LPS-induced activation of NF-κB through the Akt/mTOR/IKK pathway in BEAS-2B cells. BEAS-2B cells in submerged culture were placed in medium containing different concentrations of GLN (0, 0.5, 1, and 2.5 mM) with 1 μg/ml LPS. Results showed that GLN deprivation induced phosphorylation of Akt/mTOR/IKK signaling, increased levels of NF-κB nuclear translocation and phosphorylated NF-κB, and upregulated NF-κB-dependent transcriptional activity, which was suppressed by GLN administration. Expressions of NF-κB-targeted genes were also reduced by supplemental GLN. GLN administration improved cell viability, whereas 0.5 mM GLN had a greater extent of inhibition on the Akt/mTOR/IKK/NF-κB signaling cascade. The inhibitory effects of GLN on NF-κB activation were also observed in cells cultured under air-liquid interface condition. These results indicate that GLN deprivation increased LPS-induced NF-κB activation and transcriptional activity, which was reversed by GLN administration. The findings provide potential mechanisms of GLN's modulation of LPS-induced NF-κB activation in lung epithelial cells and imply that maintaining a physiological concentration of GLN is essential in preventing LPS-induced lung inflammation.
