Stomatin interacts with GLUT1/SLC2A1, band 3/SLC4A1, and aquaporin-1 in human erythrocyte membrane domains

Biochimica et Biophysica Acta - Biomembranes

Volumn 1828, Issue 3, 2013, Pages 956-966

  Rungaldier, Stefanie ^a   Oberwagner, Walter ^a   Salzer, Ulrich ^a   Csaszar, Edina ^b   Prohaska, Rainer ^a  

^a MEDICAL UNIVERSITY OF VIENNA   (Austria)

^b MFPL   (Austria)

Author keywords

Chemical cross linking; Integral membrane proteins; Lipid rafts; Protein protein interaction

Indexed keywords

ADENOSINE TRIPHOSPHATASE (CALCIUM); AQUAPORIN 1; CD47 ANTIGEN; ERYTHROCYTE BAND 3 PROTEIN; FLOTILLIN 1; FLOTILLIN 2; GLUCOSE TRANSPORTER 1; SCAFFOLD PROTEIN; STOMATIN;

ARTICLE; COMPLEX FORMATION; CONTROLLED STUDY; ERYTHROCYTE MEMBRANE; HUMAN; HUMAN CELL; IMMUNOAFFINITY CHROMATOGRAPHY; MASS SPECTROMETRY; MEMBRANE BINDING; PRIORITY JOURNAL; PROTEIN CROSS LINKING; PROTEIN DETERMINATION; PROTEIN DOMAIN; PROTEIN FUNCTION; PROTEIN PROTEIN INTERACTION; PROTEIN PURIFICATION; PROTEIN TRANSPORT; REGULATORY MECHANISM;

ANION EXCHANGE PROTEIN 1, ERYTHROCYTE; AQUAPORIN 1; BIOPHYSICS; CHROMATOGRAPHY, AFFINITY; CROSS-LINKING REAGENTS; ERYTHROCYTE MEMBRANE; ERYTHROCYTES; GLUCOSE TRANSPORTER TYPE 1; HUMANS; MASS SPECTROMETRY; MEMBRANE PROTEINS; MODELS, BIOLOGICAL; PEPTIDES; PROTEIN BINDING; PROTEIN INTERACTION MAPPING; PROTEIN STRUCTURE, TERTIARY;

EID: 84872104874     PISSN: 00052736     EISSN: 18792642     Source Type: Journal    
DOI: 10.1016/j.bbamem.2012.11.030     Document Type: Article

References (44)

1. C.M. Hiebl-Dirschmied, G.R. Adolf, and R. Prohaska Isolation and partial characterization of the human erythrocyte band 7 integral membrane protein Biochim. Biophys. Acta 1065 1991 195 202
2. C.M. Hiebl-Dirschmied, B. Entler, C. Glotzmann, I. Maurer-Fogy, C. Stratowa, and R. Prohaska Cloning and nucleotide sequence of cDNA encoding human erythrocyte band 7 integral membrane protein Biochim. Biophys. Acta 1090 1991 123 124
3. G.W. Stewart, B.E. Hepworth-Jones, J.N. Keen, B.C. Dash, A.C. Argent, and C.M. Casimir Isolation of cDNA coding for an ubiquitous membrane protein deficient in high Na+, low K + stomatocytic erythrocytes Blood 79 1992 1593 1601
4. U. Salzer, M. Mairhofer, and R. Prohaska Stomatin: a new paradigm of membrane organization emerges Dyn. Cell Biol. 1 2007 20 33
5. J.B. Green, and J.P. Young Slipins: ancient origin, duplication and diversification of the stomatin protein family BMC Evol. Biol. 8 2008 44
6. L. Lapatsina, J. Brand, K. Poole, O. Daumke, and G.R. Lewin Stomatin-domain proteins Eur. J. Cell Biol. 91 2012 240 245
7. M.B. Goodman, G.G. Ernstrom, D.S. Chelur, R. O'Hagan, C.A. Yao, and M. Chalfie MEC-2 regulates C. elegans DEG/ENaC channels needed for mechanosensation Nature 415 2002 1039 1042
8. M.M. Sedensky, J.M. Siefker, J.Y. Koh, D.M. Miller III, and P.G. Morgan A stomatin and a degenerin interact in lipid rafts of the nervous system of Caenorhabditis elegans Am. J. Physiol. Cell Physiol. 287 2004 C468 C474
9. N. Tavernarakis, M. Driscoll, and N.C. Kyrpides The SPFH domain: implicated in regulating targeted protein turnover in stomatins and other membrane-associated proteins Trends Biochem. Sci. 24 1999 425 427
10. M.F. Langhorst, A. Reuter, and C.A. Stuermer Scaffolding microdomains and beyond: the function of reggie/flotillin proteins Cell Mol. Life Sci. 62 2005 2228 2240
11. I.C. Morrow, and R.G. Parton Flotillins and the PHB domain protein family: rafts, worms and anaesthetics Traffic 6 2005 725 740
12. M. Bauer, and L. Pelkmans A new paradigm for membrane-organizing and -shaping scaffolds FEBS Lett. 580 2006 5559 5564
13. U. Salzer, H. Ahorn, and R. Prohaska Identification of the phosphorylation site on human erythrocyte band 7 integral membrane protein: implications for a monotopic protein structure Biochim. Biophys. Acta 1151 1993 149 152
14. L. Snyers, E. Umlauf, and R. Prohaska Oligomeric nature of the integral membrane protein stomatin J. Biol. Chem. 273 1998 17221 17226
15. E. Umlauf, M. Mairhofer, and R. Prohaska Characterization of the stomatin domain involved in homo-oligomerization and lipid raft association J. Biol. Chem. 281 2006 23349 23356
16. L. Snyers, E. Umlauf, and R. Prohaska Cysteine 29 is the major palmitoylation site on stomatin FEBS Lett. 449 1999 101 104
17. L. Snyers, E. Umlauf, and R. Prohaska Association of stomatin with lipid-protein complexes in the plasma membrane and the endocytic compartment Eur. J. Cell Biol. 78 1999 802 812
18. U. Salzer, and R. Prohaska Stomatin, flotillin-1, and flotillin-2 are major integral proteins of erythrocyte lipid rafts Blood 97 2001 1141 1143
19. T.B. Huber, B. Schermer, R.U. Müller, M. Höhne, M. Bartram, A. Calixto, H. Hagmann, C. Reinhardt, F. Koos, K. Kunzelmann, E. Shirokova, D. Krautwurst, C. Harteneck, M. Simons, H. Pavenstädt, D. Kerjaschki, C. Thiele, G. Walz, M. Chalfie, and T. Benzing Podocin and MEC-2 bind cholesterol to regulate the activity of associated ion channels Proc. Natl. Acad. Sci. U. S. A. 103 2006 17079 17086
20. R.G. Parton, M. Hanzal-Bayer, and J.F. Hancock Biogenesis of caveolae: a structural model for caveolin-induced domain formation J. Cell Sci. 119 2006 787 796
21. H. Yokoyama, S. Fujii, and I. Matsui Crystal structure of a core domain of stomatin from Pyrococcus horikoshii illustrates a novel trimeric and coiled-coil fold J. Mol. Biol. 376 2008 868 878
22. J. Brand, E.S. Smith, D. Schwefel, L. Lapatsina, K. Poole, D. Omerbašić, A. Kozlenkov, J. Behlke, G.R. Lewin, and O. Daumke A stomatin dimer modulates the activity of acid-sensing ion channels EMBO J. 31 2012 3635 3646
23. M.P. Price, R.J. Thompson, J.O. Eshcol, J.A. Wemmie, and C.J. Benson Stomatin modulates gating of acid-sensing ion channels J. Biol. Chem. 279 2004 53886 53891
24. L. Lapatsina, J.A. Jira, E.S. Smith, K. Poole, A. Kozlenkov, D. Bilbao, G.R. Lewin, and P.A. Heppenstall Regulation of ASIC channels by a stomatin/STOML3 complex located in a mobile vesicle pool in sensory neurons Open Biol. 2 2012 120096
25. H. Zhan, C.S. Moore, B. Chen, X. Zhou, X.M. Ma, K. Ijichi, M.V. Bennett, X.J. Li, S.J. Crocker, and Z.W. Wang Stomatin inhibits pannexin-1-mediated whole-cell currents by interacting with its carboxyl terminal PLoS One 7 2012 e39489
26. J.Z. Zhang, H. Hayashi, Y. Ebina, R. Prohaska, and F. Ismail-Beigi Association of stomatin (band 7.2b) with Glut1 glucose transporter Arch. Biochem. Biophys. 372 1999 173 178
27. J.Z. Zhang, W. Abbud, R. Prohaska, and F. Ismail-Beigi Overexpression of stomatin depresses GLUT-1 glucose transporter activity Am. J. Physiol. Cell Physiol. 280 2001 C1277 C1283
28. D. Rubin, and F. Ismail-Beigi Distribution of Glut1 in detergent-resistant membranes (DRMs) and non-DRM domains: effect of treatment with azide Am. J. Physiol. Cell Physiol. 285 2003 C377 C383
29. A. Kumar, Y.P. Xiao, P.J. Laipis, B.S. Fletcher, and S.C. Frost Glucose deprivation enhances targeting of GLUT1 to lipid rafts in 3T3-L1 adipocytes Am. J. Physiol. Endocrinol. Metab. 286 2004 E568 E576
30. A. Montel-Hagen, S. Kinet, N. Manel, C. Mongellaz, R. Prohaska, J.L. Battini, J. Delaunay, M. Sitbon, and N. Taylor Erythrocyte Glut1 triggers dehydroascorbic acid uptake in mammals unable to synthesize vitamin C Cell 132 2008 1039 1048
31. J.F. Flatt, H. Guizouarn, N.M. Burton, F. Borgese, R.J. Tomlinson, R.J. Forsyth, S.A. Baldwin, B.E. Levinson, P. Quittet, P. Aguilar-Martinez, J. Delaunay, G.W. Stewart, and L.J. Bruce Stomatin-deficient cryohydrocytosis results from mutations in SLC2A1: a novel form of GLUT1 deficiency syndrome Blood 118 2011 5267 5277
32. A. Carruthers, and R.J. Naftalin Altered GLUT1 substrate selectivity in human erythropoiesis? Cell 137 2009 200 201
33. A. Montel-Hagen, S. Kinet, N. Manel, C. Mongellaz, R. Prohaska, J.L. Battini, J. Delaunay, M. Sitbon, and N. Taylor Species diversity in GLUT expression and function Cell 137 2009 201 202
34. E. Beutler, C. West, and K.G. Blume The removal of leukocytes and platelets from whole blood J. Lab. Clin. Med. 88 1976 328 333
35. A. Shevchenko, M. Wilm, O. Vorm, and M. Mann Mass spectrometric sequencing of proteins silver-stained polyacrylamide gels Anal. Chem. 68 1996 850 858
36. L. Snyers, D. Thinès-Sempoux, and R. Prohaska Colocalization of stomatin (band 7.2b) and actin microfilaments in UAC epithelial cells Eur. J. Cell Biol. 73 1997 281 285
37. D. Mandal, P.K. Moitra, and J. Basu Mapping of a spectrin-binding domain of human erythrocyte membrane protein 4.2 Biochem. J. 364 2002 841 847
38. C. Korsgren, L.L. Peters, and S.E. Lux Protein 4.2 binds to the carboxyl-terminal EF-hands of erythroid alpha-spectrin in a calcium- and calmodulin-dependent manner J. Biol. Chem. 285 2010 4757 4770
39. S. Locovei, L. Bao, and G. Dahl Pannexin 1 in erythrocytes: function without a gap Proc. Natl. Acad. Sci. U. S. A. 103 2006 7655 7659
40. U. Salzer, and R. Prohaska Segregation of lipid raft proteins during calcium-induced vesiculation of erythrocytes Blood 101 2003 3751 3753
41. P. Agre, G.M. Preston, B.L. Smith, J.S. Jung, S. Raina, C. Moon, W.B. Guggino, and S. Nielsen Aquaporin CHIP: the archetypal molecular water channel Am. J. Physiol. 265 1993 F463 F476
42. T. Babuke, and R. Tikkanen Dissecting the molecular function of reggie/flotillin proteins Eur. J. Cell Biol. 86 2007 525 532
43. N. Mohandas, and P.G. Gallagher Red cell membrane: past, present, and future Blood 112 2008 3939 3948
44. L.J. Bruce, R. Beckmann, M.L. Ribeiro, L.L. Peters, J.A. Chasis, J. Delaunay, N. Mohandas, D.J. Anstee, and M.J. Tanner A band 3-based macrocomplex of integral and peripheral proteins in the RBC membrane Blood 101 2003 4180 4188