Revision 1

#43065Store at -20C

1 Kit

(6 x 20 microliters)

Cell Signaling Technology

Orders: 877-616-CELL (2355) [email protected]

Support: 877-678-TECH (8324)

Web: [email protected] cellsignal.com

3 Trask LaneDanversMassachusetts01923USA
For Research Use Only. Not for Use in Diagnostic Procedures.
Product Includes Product # Quantity Mol. Wt Isotype/Source
HIF-1α (E1V6A) Rabbit mAb 48085 20 µl 120 kDa Rabbit IgG
HIF-1β/ARNT (D28F3) XP® Rabbit mAb 5537 20 µl 87 kDa Rabbit IgG
VHL (E3X9K) Rabbit mAb 81292 20 µl Rabbit IgG
p300 (D8Z4E) Rabbit mAb 86377 20 µl 300 kDa Rabbit IgG
SirT1 (1F3) Mouse mAb 8469 20 µl 120 kDa Mouse IgG1
GSK-3β (D5C5Z) XP® Rabbit mAb 12456 20 µl 46 kDa Rabbit IgG
PKM2 (D78A4) XP® Rabbit mAb 4053 20 µl 60 kDa Rabbit IgG
LDHA (C4B5) Rabbit mAb 3582 20 µl 37 kDa Rabbit IgG
Glut1 (E4S6I) Rabbit mAb 73015 20 µl 45-60 kDa Rabbit IgG

Please visit cellsignal.com for individual component applications, species cross-reactivity, dilutions, protocols, and additional product information.

Description

The Hypoxia Activation IHC Antibody Sampler Kit provides an economical means of detecting select components involved in the regulation of HIF-1α, select components regulated by HIF-1α, and HIF-1β/ARNT protein in formalin-fixed, paraffin-embedded tissue samples.

Storage

Supplied in 10 mM sodium HEPES (pH 7.5), 150 mM NaCl, 100 µg/mL BSA, 50% glycerol, and less than 0.02% sodium azide. Store at –20°C. Do not aliquot the antibodies.

Background

Hypoxia-inducible factor 1 (HIF1) is a heterodimeric transcription factor that plays a critical role in the cellular response to hypoxia (1). The HIF1 complex consists of two subunits, HIF-1α and HIF-1β, which are basic helix-loop-helix proteins of the PAS (Per, ARNT, Sim) family (2). HIF1 regulates the transcription of a broad range of genes that facilitate responses to the hypoxic environment, including genes regulating angiogenesis, erythropoiesis, cell cycle, metabolism, and apoptosis. The widely expressed HIF-1α is typically degraded rapidly in normoxic cells by the ubiquitin/proteasomal pathway. Under normoxic conditions, HIF-1α is proline hydroxylated leading to a conformational change that promotes binding to the von Hippel-Lindau protein (VHL) E3 ligase complex; ubiquitination and proteasomal degradation follows (3,4). Both hypoxic conditions and chemical hydroxylase inhibitors (such as desferrioxamine and cobalt) inhibit HIF-1α degradation and lead to its stabilization. In addition, HIF-1α can be induced in an oxygen-independent manner by various cytokines through the PI3K-AKT-mTOR pathway (5-7). HIF-1β is also known as AhR nuclear translocator (ARNT) due to its ability to partner with the aryl hydrocarbon receptor (AhR) to form a heterodimeric transcription factor complex (8). Together with AhR, HIF-1β plays an important role in xenobiotics metabolism (8). In addition, a chromosomal translocation leading to a TEL-ARNT fusion protein is associated with acute myeloblastic leukemia (9). Studies also found that ARNT/HIF-1β expression levels decrease significantly in pancreatic islets from patients with type 2 diabetes, suggesting that HIF-1β plays an important role in pancreatic β-cell function (10). CBP (CREB-binding protein) and p300 are highly conserved and functionally related transcriptional co-activators that associate with transcriptional regulators and signaling molecules, integrating multiple signal transduction pathways with the transcriptional machinery (11,12). CBP/p300 also contain histone acetyltransferase (HAT) activity, allowing them to acetylate histones and other proteins (12). The Silent Information Regulator (SIR2) family of genes is a highly conserved group of genes that encode nicotinamide adenine dinucleotide (NAD)-dependent protein deacetylases, also known as class III histone deacetylases. The first discovered and best characterized of these genes is Saccharomyces cerevisiae SIR2, which is involved in silencing of mating type loci, telomere maintenance, DNA damage response, and cell aging (13). SirT1, the mammalian ortholog of Sir2, is a nuclear protein implicated in the regulation of many cellular processes, including apoptosis, cellular senescence, endocrine signaling, glucose homeostasis, aging, and longevity. Targets of SirT1 include acetylated p53 (14,15), p300 (16), Ku70 (17), forkhead (FoxO) transcription factors (17,18), PPARγ (19), and the PPARγ coactivator-1α (PGC-1α) protein (20). Glycogen synthase kinase-3 (GSK-3) was initially identified as an enzyme that regulates glycogen synthesis in response to insulin (21). GSK-3 is a ubiquitously expressed serine/threonine protein kinase that phosphorylates and inactivates glycogen synthase. GSK-3 is a critical downstream element of the PI3K/Akt cell survival pathway whose activity can be inhibited by Akt-mediated phosphorylation at Ser21 of GSK-3α and Ser9 of GSK-3β (22,23). Pyruvate kinase is a glycolytic enzyme that catalyzes the conversion of phosphoenolpyruvate to pyruvate. In mammals, the M2 isoform (PKM2) is expressed during embryonic development (24). Lactate dehydrogenase (LDH) catalyzes the interconversion of pyruvate and NADH to lactate and NAD+. The major form of LDH found in muscle cells is the A (LDHA) isozyme (25). Glucose transporter 1 (Glut1, SLC2A1) is a widely expressed transport protein that transports a number of different aldose sugars into cells (26,27).

  1. Sharp, F.R. and Bernaudin, M. (2004) Nat Rev Neurosci 5, 437-48.
  2. Wang, G.L. et al. (1995) Proc Natl Acad Sci U S A 92, 5510-4.
  3. Jaakkola, P. et al. (2001) Science 292, 468-72.
  4. Maxwell, P.H. et al. (1999) Nature 399, 271-5.
  5. Fukuda, R. et al. (2002) J Biol Chem 277, 38205-11.
  6. Jiang, B.H. et al. (2001) Cell Growth Differ 12, 363-9.
  7. Laughner, E. et al. (2001) Mol Cell Biol 21, 3995-4004.
  8. Walisser, J.A. et al. (2004) Proc Natl Acad Sci U S A 101, 16677-82.
  9. Salomon-Nguyen, F. et al. (2000) Proc Natl Acad Sci U S A 97, 6757-62.
  10. Gunton, J.E. et al. (2005) Cell 122, 337-49.
  11. Goodman, R.H. and Smolik, S. (2000) Genes Dev 14, 1553-77.
  12. Chan, H.M. and La Thangue, N.B. (2001) J Cell Sci 114, 2363-73.
  13. Guarente, L. (1999) Nat Genet 23, 281-5.
  14. Vaziri, H. et al. (2001) Cell 107, 149-59.
  15. Luo, J. et al. (2001) Cell 107, 137-48.
  16. Bouras, T. et al. (2005) J Biol Chem 280, 10264-76.
  17. Brunet, A. et al. (2004) Science 303, 2011-5.
  18. Motta, M.C. et al. (2004) Cell 116, 551-63.
  19. Picard, F. et al. (2004) Nature 429, 771-6.
  20. Rodgers, J.T. et al. (2005) Nature 434, 113-8.
  21. Welsh, G.I. et al. (1996) Trends Cell Biol 6, 274-9.
  22. Srivastava, A.K. and Pandey, S.K. (1998) Mol Cell Biochem 182, 135-41.
  23. Cross, D.A. et al. (1995) Nature 378, 785-9.
  24. Christofk, H.R. et al. (2008) Nature 452, 230-3.
  25. Semenza, G.L. et al. (1996) J Biol Chem 271, 32529-37.
  26. Ferrer, C.M. et al. (2014) Mol Cell 54, 820-31.
  27. Deng, D. et al. (2014) Nature 510, 121-5.

Background References

    Trademarks and Patents

    Cell Signaling Technology is a trademark of Cell Signaling Technology, Inc.
    XP is a registered trademark of Cell Signaling Technology, Inc.
    U.S. Patent No. 7,429,487, foreign equivalents, and child patents deriving therefrom.
    All other trademarks are the property of their respective owners. Visit cellsignal.com/trademarks for more information.

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    Orders: 877-616-CELL (2355)[email protected] Support: 877-678-TECH (8324)[email protected] Web: cellsignal.com
    For Research Use Only. Not for Use in Diagnostic Procedures.