Abstract
In the last few years this and other laboratories have obtained data suggesting that cytokine-STAT signaling in many different cell-types is likely to be a chaperoned pathway initiated at the level of specialized plasma membrane microdomains called “rafts” (the “raft-STAT signaling hypothesis”)(1, 2). These findings are of broad significance in that all cytokines and growth factors initiate signaling in target cells by interacting with respective cell-surface receptors. The new data suggest that raft microdomains represent the units of function at the cell-surface through which ligand-stimulated STAT signaling is initiated. In this review, we shall briefly summarize recent data relevant to an understanding of the subcellular anatomy of cytokine- and growth factor- activated STAT signaling at the level of the plasma membrane and the role of integral raft proteins such as caveolin-1 (cav-1) in modulating this pathway.
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Sehgal, P. B., Guo, G. G., Shah, M., Kumar, V. and Patel, K. (2002) J Biol Chem 277, 12067–12074
Shah, M., Patel, K., Fried, V.A. and Sehgal P.B. (2002) J Biol Chem 277, 45662–45669
Sarkar, S. Pollack, B.P., Lin, K.T., Kotenko, S.V., Cook, J.R., Lewis, A. and Pestka, S. (2001) J Biol Chem 276, 49034–49042
Ndubuisi, M.I., Guo, G.G., Fried, V.A., Etlinger, J.D. and Sehgal, P.B. (1999) J Biol Chem 274, 25499–25509.
Guo, G.G., Patel, K., Kumar, V., Shah, M., Fried, V.A., Etlinger, J.D. and Sehgal, P.B. (2002) J Interferon Cyt Res 22, 555–563
Conner, S.D. and Schmid S.L. (2003) Nature 422, 37–44
Podar, K., Tai, Y.T., Cole, C. E., Hideshima, T., Sattler, M., Hambin, A., Mitsiades, N., Schlossman, R., Davies, F. E., Morgan, G. J., Munshi, N. C., Chauhan, D. and Anderson, K.C. (2003) J Biol Chem 278, 5794–580.
Park, D.S., Lee, H., Frank, P.G., Razani, B., Nguyen, A.V., Parlow, A.F., Russell, R.G., Hulit, J., Pestell, R.G. and Lisanti, M.P. (2002) Mol Biol Cell 13, 3416–3430
Mathew, R., Huang, J., Shah, M., Gewitz, M. H. and Sehgal, P. B. (2003) FASEB J 17, A409
Zhao, Y.Y., Liu, Y., Stan, R.V., Fan, L., Gu, Y., Dalton, N., Chu, P.H., Peterson, K., Ross, J. Jr. and Chien, K.R. (2002) Proc Natl Acad Sci USA 99, 11375–11380
Sehgal, P.B. (2000) Cell Signaling 12, 525–535
Sehgal, P.B. (2001) Adv. Exp Biol Med 495, 161–168
Yeung, Y.-G., Wang, Y., Einstein, D.B., Lee, P.S.W. and Stanley, E.R. (1998) J Biol Chem 273, 17128–17137
Lackmann, M., Harpur, A.G., Oates, A.C., Mann, R.J., Gabriel, A., Meutermans, W., Alewood, P.F., Kerr, I.M., Stark, G.R. and Wilks, A.F. (1998) Growth Factors 16, 39–51
Sehgal, P.B., Kumar, V., Guo, G. and Murray, W.C. (2003) Arch Biochem Biophys 412, 242–250
Simons, K. and Toomre, D. (2000) Nature Rev 1, 31–41
Galbiati, F., Razani, B. and Lisanti, M.P. (2001) Cell 106, 403–411
Anderson, R. G. W. and Jacobsen, K. A. (2002) Science 296: 1821–1825
Simons, K. and Ehehalt, R. (2002) J Clin Invest 110, 597–603
Compans, R.W. and Choppin, P.W. (1973) Orthomyxoviruses and paramyxoviruses. In Ultrastructure of Animal Viruses and Bacteriophages: An Atlas, Eds. Dalton, A..J. and Haguenau, F. ( Academic Press, New York ) pp. 213–237
Klenk, H.-D. and Choppin, P.W. (1970) Virology 40, 939–947
Klenk, H.-D. and Choppin, P.W. (1970) Proc Natl Acad Sci USA 66, 57–64
Rodriguez-Boulan, E.J. and Sabitini, J.J. (1978) Proc Natl Acad Sci USA 75, 5071–5075
Kurzchalia, T.V., Dupree, P., Parton, R.G., Kellner, R., Virta, H., Lehnert, M. and Simons, K. (1992) J Cell Biol 118, 1003–1014
Rothberg, K.G., Heuser, J.E., Donzell, W.C., Ying, Y.S., Glenney, J.R. and Anderson, R.G.W. (1992) Cell 68, 673–682
Okamoto, T., Schlege, A., Scherer, P.E. and Lisanti, M.P. (1998) J Biol Chem 273, 5419–5422
Razani, B., Schlegel, A. and Lisanti, M.P. (2000) J Cell Sci 113, 2103–2109
Brown, G., Aitken, J., Rixon, H.W. and Sugrue, R.J. (2002) J Gen Virol 83, 611–621
Lisanti, M.P., Scherer, P., Tang, Z.L. and Sargiacomo, M. (1994) Trends Cell Biol 4, 231–235
Li, S., Couet, J. and Lisanti, M.P. (1996) J Biol Chem 271, 29182–29190
Teixeira, A., Chaverot, N., Schroder, C., Strosberg, A.D., Couraud, P.O. and Cazaubon, S. (1999) J Neurochem 72, 120–128
Gustavsson, J., Parpal, S., Karlsson, M., Ramsing, C., Thorn, H., Borg, M., Lindroth, M., Peterson, K.H., Magnusson, K.E. and Stralfors, P. (1999) FASEB J 13, 1961–1971
Muller, G., Jung, C., Wied, S., Welte, S., Jordan, H. and Frick, W (2001). Mol Cell Biol 21, 4553–4567
Galbiati, F., Volonte, D., Engelman, J.A., Watanabe, G., Burk, R., Pestell, R.G. and Lisanti, M.P. (1998) EMBO J 17, 6633–6648
Fra, A.M., Williamson, E., Simons, K., Parton, R.G. (1994) J Biol Chem 269, 30745–30748
Koshelnick, Y., Ehart, M., Hufnagl, P., Heinrich, P.C. and Binder, B.R. (1997) J Biol Chem 272, 28563–28567
Ju, H., Venema, V.J., Liang, H., Harris, M.B., Zou, R. and Venema, R.C. (2000) Biochem J351, 257–264
Takaoka, A., Mitani, Y., Suemori, H., Sato, M., Yokochi, T., Noguchi, S., Tanaka, N. and Taniguchi, T. (2000) Science 288, 2357–2360
Sadir, R., Lambert, A., Lortat-Jacob, H. and Morel, G. (2001) Cytokine 14, 19–26
Marmor, M. D. and Julius, M. (2001) Bloo d. 98, 1489–1497
Cottin, V., Doan, J. E. S. and Riches, D. W. H. (2002) J Immunol 168, 4095–4102
Subramaniam, P. S. and Johnson, H. M. (2002) J Immunol 169, 1959–1969
Heuber, A.O. (2003) Cell Death Differ 10, 7–9
Martens, A.S., Bode, J.G., Henrich, P.C. and Graeve, L. (2000) J Cell Sci 113, 3593–3602
Predescu, S. A., Predescu, D. N. and Palade, G. E. (2001) Mol Biol Cell 12, 1019–1033
Lobie, P. E., Sadir, R., Graichen, R., Mertani, H. C. and Morel, G. (1999) Exp Cell Res 246, 47–55
Johnson, L.R., McCormack, S.A., Yang, C.H., Pfeffer, S.R. and Pfeffer, L.M. (1999)Am. J Physiol276, C419–425
Bild, A. H., Turkson, J. and Jove, R. (2002) EMBO J 21, 3255–3263
Shah, M. and Sehgal, P. B. (2003) FASEB J 17, A1312
Pfeffer, L.M., Landsberger, F.R. and Tamm, I. (1981) J Interferon Res 1, 613–620
Pfeffer, L.M., Wang, E., Landsberger, F.R. and Tamm, I. (1981) Meth Enzymol 79, 461–473
Wang, L., Rayanade, R.J., Garcia, D., Patel, K., Pan, H. and Sehgal, P.B. (1995) J Biol Chem 270, 23159–23165
Rayanade, R.J., Patel, K., Ndubuisi, M., Sharma, S., Omura, S., Etlinger, J.D., Pine, R., and Sehgal, P.B. (1997) J. Biol. Chem. 272, 4659–4662
Rayanade, R.J., Ndubuisi, M.I., Etlinger, J.D. and Sehgal, P.B. (1998) J Immunol 161, 325–334
Razani, B., Altschuler, Y., Zhu, L., Pestell, R.G., Mostov, K.E. and Lisanti, M.P. (2000) Biochem 39, 13916–13924
Fleming, I. and Busse, R. (1999) Cardiovasc Res 43, 532–541
Kone, B. C. (2000) Acta Physiol Scand 168, 27–31
Sato, N., Yamamoto, T., Sekine, Y., Yumioka, T., Junicho, A., Fuse, H. and Matsuda, T. (2003) Biochem Biophys Res Commun 300, 847–852
Schultze, A.E. and Roth, R.A. (1998) J Toxicol Environ Health B Crit Rev 1, 271–346
Bhargava, A. Kumar, A., Yuan, N., Gewitz, M.H., and Mathew, R., (1999) Heart Disease 1, 126–132
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Sehgal, P.B., Shah, M. (2003). Raft-STAT Signaling and Transcytoplasmic Trafficking. In: Sehgal, P.B., Levy, D.E., Hirano, T. (eds) Signal Transducers and Activators of Transcription (STATs). Springer, Dordrecht. https://doi.org/10.1007/978-94-017-3000-6_17
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DOI: https://doi.org/10.1007/978-94-017-3000-6_17
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