NF-kappaB and Apoptosis in Mammary Epithelial Cells (original) (raw)

REFERENCES

1. G. W. Robinson, P. F. Johnson, L. Hennighausen, E. Sterneck (1998). The c/ebp beta transcription factor regulates epithelial cell proliferation and differentiation in the mammary gland. Genes Dev. **12:**1907–1916.
   Google Scholar
2. X. W. Liu, G. W. Robinson, K. U. Wagner, L. Garrett, A. Wynshaw-Boris, L. Hennighausen (1997). Stat5a is mandatory for adult mammary gland development and lactogenesis. Genes Dev. **11:**179–186.
   Google Scholar
3. T. N. Seagroves, S. Krnacik, B. Raught, J. Gay, B. Burgess-Beusse, G. J. Darlington, J. M. Rosen (1998). C/ebp beta, but not c/ebp alpha, is essential for ductal morphogenesis, lobuloalveolar proliferation, and functional differentiation in the mouse mammary gland. Genes Dev. **12:**1917–1928.
   Google Scholar
4. A. Fraser and G. Evan (1996). A license to kill. Cell 85: 781–784.
   Google Scholar
5. E. Bossy-Wetzel, L. Bakiri, and M. Yaniv (1997). Induction of apoptosis by the transcription factor c-jun. EMBO J. **16:**1695–1709.
   Google Scholar
6. H. Steller (1995). Mechanisms and genes of cellular suicide. Science **267:**1445–1449.
   Google Scholar
7. L. J. Miller and J. Marx (1998). Apoptosis: Special review series. Science **281:**1301
   Google Scholar
8. R. Sen and D. Baltimore (1986). Multiple nuclear factors interact with the immunoglobulin enhancer sequences. Cell 46: 705–716.
   Google Scholar
9. T. Collins (1993). Biology of disease—endothelial nuclear factor-kappa-b and the initiation of the atherosclerotic lesion. Lab. Invest. **68:**499–508.
   Google Scholar
10. S. Ghosh, M. J. May, and E. B. Kopp (1998). NF-kappa B and Rel proteins: Evolutionarily conserved mediators of immune responses. Ann. Rev. Immunol. **16:**225–260.
    Google Scholar
11. M. Karin (1998). The NF-kappa B activation pathway: Its regulation and role in inflammation and cell survival. Cancer J. Sci. Amer. **4:**S92–S99.
    Google Scholar
12. S. Gerondakis, R. Grumont, I. Rourke, M. Grossmann (1998). The regulation and roles of Rel/NF-kappa B transcription factors during lymphocyte activation. Current Opin. Immunol. **10:**353–359.
    Google Scholar
13. M. J. May and S. Ghosh (1998). Signal transduction through NF-kappa B. Immunol. Today **19:**80–88.
    Google Scholar
14. C. Kunsch, S. M. Ruben, and C. A. Rosen (1992). Selection of optimal kappa-B/Rel DNA-binding motifs-interaction of both subunits of NF-kappa-B with DNA is required for transcriptional activation. Mol. Cell. Biol. **12:**4412–4421.
    Google Scholar
15. V. Imbert, R. A. Rupec, A. Livolsi, H. L. Pahl, E. B. M. Traenckner, C. MuellerDieckmann, D. Farahifar, B. Rossi, P. Auberger, P. A. Baeuerle, J.-F. Peyron (1996). Tyrosine phosphorylation of I kappa B-alpha activates NF-kappa B without proteolytic degradation of I kappa B-alpha. Cell **86:**787–798.
    Google Scholar
16. M. Naumann and C. Scheidereit (1994). Activation of NF-kappa-B in vivo is regulated by multiple phosphorylations. EMBO J. **13:**4597–4607.
    Google Scholar
17. H. H. Zhong, H. Su Yang, H. Erdjument-Bromage, P. Tempst, and S. Ghosh (1997). The transcriptional activity of nf-kappa b is regulated by the I kappa B-associated PKAC subunit through a cyclic AMP-independent mechanism. Cell **89:**413–424.
    Google Scholar
18. B. Stein, P. C. Cogswell, and A. S. Baldwin (1993). Functional and physical associations between NF-kappa-B and c/ebp family members—a Rel domain-bZIP interaction. Mol. Cell. Biol. **13:**3964–3974.
    Google Scholar
19. B. Stein and A. S. Baldwin (1993). Distinct mechanisms for regulation of the interleukin-8 gene involve synergism and cooperativity between c/ebp and NF-kappa-B. Mol. Cell. Biol. **13:**7191–7198.
    Google Scholar
20. R. I. Scheinman, A. Gualberto, C. M. Jewell, J. A. Cidlowski, and A. S. Baldwin (1995). Characterization of mechanisms involved in transrepression of NF-kappa-B by activated glucocorticoid receptors. Mol. Cell. Biol. **15:**943–953.
    Google Scholar
21. A. A. Beg, W. C. Sha, R. T. Bronson, S. Ghosh, and D. Baltimore (1995). Embryonic lethality and liver degeneration in mice lacking the RelA component of NF-kappa-B. Nature **376:**167–170.
    Google Scholar
22. W. C. Sha, H. C. Liou, E. I. Tuomanen, and D. Baltimore (1995). Targeted disruption of the p50 subunit of NF-kappa-B leads to multifocal defects in immune-response s. Cell 80: 321–330.
    Google Scholar
23. F. Weih, D. Carrasco, S. K. Durham, D. S. Barton, C. A. Rizzo, R. P. Ryseck, S. A. Lira, and R. Bravo (1995). Multiorgan inflammation and hematopoietic abnormalities in mice with a targeted disruption of RelB, a member of the NF-kappa-B/Rel family. Cell **80:**331–340.
    Google Scholar
24. C. Abbadie, N. Kabrun, F. Bouali, J. Smardova, D. Stehelin, B. Vandenbunder, and P. J. Enrietto (1993). High-levels of c-Rel expression are associated with programmed cell-death in the developing avian embryo and in bone-marrow cells in vitro. Cell **75:**899–912.
    Google Scholar
25. P. A. Baeuerle and D. Baltimore (1996) NF-kappa B: Ten years after. Cell **87:**13–20.
    Google Scholar
26. D. J. VanAntwerp, S. J. Martin, I. M. Verma, and D. R. Green (1998). Inhibition of TNF-induced apoptosis by NF-kappa B. Trends Cell Biol. **8:**107–111.
    Google Scholar
27. S. Grimm, M. K. A. Bauer, P. A. Baeuerle, and K. Schulze-Osthoff (1996). Bcl-2 down-regulates the activity of transcription factor NF-kappa B induced upon apoptosis. J. Cell Biol. **134:**13–23.
    Google Scholar
28. D. J. VanAntwerp, S. J. Martin, T. Kafri, D. R. Green, and I. M. Verma (1996). Suppression of TNF-alpha-induced apoptosis by NF-kappa B. Science **274:**787–789.
    Google Scholar
29. C. Y. Wang, M. W. Mayo, and A. S. Baldwin (1996). TNF-and career therapy-induced apoptosis: Potentiation by inhibition of NF-kappa-B. Science **274:**784–787.
    Google Scholar
30. K. Brown, S. Gerstberger, L. Carlson, G. Franzoso, and U. Siebenlist (1995). Control of I-kappa-B-alpha proteolysis by site-specific, signal-induced phosphorylation. Science 267: 1485–1488.
    Google Scholar
31. A. A. Beg and D. Baltimore (1996). An essential role for NF-kappa B in preventing tnf-alpha-induced cell death. Science **274:**782–784.
    Google Scholar
32. D. Wallach (1997). Cell death induction by TNF: A matter of self control. Trends Biochem. Sci. **22:**107–109.
    Google Scholar
33. C. Y. Wang, M. W. Mayo, R. G. Korneluk, D. V. Goeddel, and A. S. Baldwin (1998). NF-kappa B antiapoptosis: Induction of TRAF1 and TRAF2 and c-IAP1 and c-IAP2 to suppress caspase-8 activation. Science **281:**1680–1683.
    Google Scholar
34. M. Wu, M. Arsura, R. E. Bellas, M. J. Fitzgerald, H. Y. Lee, S. L. Schauer, D. H. Sherr, and G. E. Sonenshein (1996). Inhibition of c-myc expression induces apoptosis of WEHI231 murine B cells. Mol. Cell. Biol. **16:**5015–5025.
    Google Scholar
35. H. Y. Wu and G. Lozano (1994). NF-kappa-B activation of p53—a potential mechanism for suppressing cell-growth in response to stress. J. Biol. Chem. **269:**20067–20074.
    Google Scholar
36. R. Strange, F. Li, S. Saurer, A. Burkhardt, and R. R. Friis (1992). Apoptotic cell-death and tissue remodeling during mouse mammary-gland involution. Development **115:**49–58.
    Google Scholar
37. G. R. Merlo, F. Basolo, L. Fiore, L. Duboc, and N. E. Hynes (1995). P53–dependent and p53–independent activation of apoptosis in mammary epithelial-cells reveals a survival function of EGF and insulin. J. Cell Biol. **128:**1185–1196.
    Google Scholar
38. N. Boudreau, Z. Werb, and M. J. Bissell (1996). Suppression of apoptosis by basement membrane requires three-dimensional tissue organization and withdrawal from the cell cycle. Proc. Natl. Acad. Sci. U.S.A. **93:**3509–3513.
    Google Scholar
39. D. Carrasco, F. Weih, and R. Bravo (1994). Developmental expression of the mouse c-Rel protooncogene in hematopoietic organs. Development **120:**2991–3004.
    Google Scholar
40. R. Schmidt-Ullrich, S. Memet, A. Lilienbaum, J. Feuillard, M. Raphael, and A. Israel (1996). NF-kappa B activity in transgenic mice: Developmental regulation and tissue specificity. Development **122:**2117–2128.
    Google Scholar
41. P. B. Bushdid, D. M. Brantley, F. E. Yull, G. L. Blaeuer, L. H. Hoffman, and L. Niswander, L. D. Kerr (1998). Inhibition of NF-kappa B activity results in disruption of the apical ectodermal ridge and aberrant limb morphogenesis. Nature **392:**615–618.
    Google Scholar
42. Y. Kanegae, A. T. Tavares, J. C. I. Belmonte, and I. M. Verma (1998). Role of Rel/NF-kappa B transcription factors during the outgrowth of the vertebrate limb. Nature **392:**611–614.
    Google Scholar
43. C. S. Seitz, Q. Lin, H. Deng, and P. A. Khavari (1998). Alterations in NF-kappa B function in transgenic epithelial tissue demonstrate a growth inhibitory role for NF-kappa B. Proc. Natl. Acad. Sci. U.S.A. **95:**2307–2312.
    Google Scholar
44. M. A. Sovak, R. E. Bellas, D. W. Kim, G. J. Zanieski, A. E. Rogers, A.M. Traish, and G.E. Sonenshein (1997). Aberrant nuclear factor-kappa B/Rel expression and the pathogenesis of breast cancer. J. Clin. Invest. **100:**2952–2960.
    Google Scholar
45. B. Stein, A. S. Baldwin, D. W. Ballard, W. C. Greene, P. Angel, and P. Herrlich (1993). Cross-coupling of the NF-beta-B p65 and fos jun transcription factors produces potentiated biological function. EMBO J. **12:**3879–3891.
    Google Scholar
46. E. Dejardin, G. Bonizzi, A. Bellahcene, V. Castronovo, M. P. Merville, and V. Bours (1995). Highly-expressed p100/p52 (nfkb2) sequesters other NF-kappa-B-related proteins in the cytoplasm of human breast-cancer cells. Oncogene **11:**1835–1841.
    Google Scholar
47. H. Nakshatri, P. Bhat-Nakshatri, D. A. Martin, R. J. Goulet, and G. W. Sledge (1997). Constitutive activation of NF-kappa B during progression of breast cancer to hormone-indepen dent growth. Mol. Cell. Biol. **17:**3629–3639.
    Google Scholar
48. D. Adam, U. Kessler, and M. Kronke (1995). Cross-linking of the p55 tumor-necrosis-factor receptor cytoplasmic domain by a dimeric ligand induces nuclear factor-kappa-B and mediates cell-death. J. Biol. Chem. **270:**17482–17487.
    Google Scholar
49. Z. Z. Cai, M. Korner, N. Tarantino, and S. Chouaib (1997). I kappa B alpha overexpression in human breast carcinoma mcf7 cells inhibits nuclear factor-kappa B activation but not tumor necrosis factor-alpha-induced apoptosis. J. Biol. Chem. 272: 96–101.
    Google Scholar
50. M. C. Raff (1992). Social controls on cell-survival and cell-death. Nature **356:**397–400.
    Google Scholar
51. M. L. Li, X. W. Liu, G. Robinson, U. Bar-Peled, K. U. Wagner, W. S. Young, L. Hennighausen, and P. A. Furth (1997). Mammary-derived signals activate programmed cell death during the first stage of mammary gland involution. Proc. Natl. Acad. Sci. U.S.A. **94:**3425–3430.
    Google Scholar
52. K. Hishikawa, B. S. Oemar, Z. H. Yang, and T. F. Luscher (1997). Pulsatile stretch stimulates superoxide production and activates nuclear factor-kappa B in human coronary smooth muscle. Circulation Res. **81:**797–803.
    Google Scholar
53. M. Scatena, M. Almeida, M. L. Chaisson, N. Fausto, R. F. Nicosia, and C. M. Giachelli (1998). NF-kappa B mediates alpha v beta 3 integrin-induc ed endothelial cell survival. J. Cell Biol. **141:**1083–1093.
    Google Scholar
54. D. Ramarli, M. T. Scupoli, E. Fiorini, O. Poffe, M. Brentegani, A. Villa, G. Cecchini, G. Tridente, and P. C. Marchisio (1998). Thymocyte contact or monoclonal antibody-mediated clustering of alpha 3 beta 1 or alpha 6 beta 4 integrins activate interleukin-6 (IL-6) transcription factors (NF-kappa B and NF-IL6) and IL-6 production in human thymic epithelial cells. Blood **92:**3745–3755.
    Google Scholar
55. J. H. Xu, M. M. Zutter, S. A. Santoro, and R. A. F. Clark (1998). A three-dimensional collagen lattice activates NF-kappa B in human fibroblasts: Role in integrin alpha(2) gene expression and tissue remodeling. J. Cell Biol. **140:**709–719.
    Google Scholar
56. A. Bearz, G. Tell, A. Colombatti, S. Formisano, and C. Pucillo (1998). Fibronectin binding promotes a PKC-dependent modulation of NF-kappa B in human T cells. Biochem. Biophys. Res. Commun. **243:**732–737.
    Google Scholar
57. J. D. Li, W. J. Feng, M. Gallup, J. H. Kim, J. Gum, Y. Kim, and C. Basbaum (1998). Activation of NF-kappa B via a src-dependent ras-mapk-pp90rs k pathway is required for pseudomonas aeruginosa-induce d mucin overproduction in epithelial cells. Proc. Natl. Acad. Sci. U.S.A. **95:**5718–5723.
    Google Scholar
58. D. M. Eicher, T. H. Tan, N. R. Rice, J. J. Oshea, and I. C. S. Kennedy (1994). Expression of v-src in T-cells correlates with nuclear expression of NF-kappa-B. J. Immunol. **152:**2710–2719.
    Google Scholar
59. A. K. Andersson and S. Sandler (1998). Involvement of PI-3 kinase in IL-1 beta induced activation of NF kappa B in beta-cells. Diabetologia **41:**606
    Google Scholar
60. A. P. Soler, C. W. Marano, M. Bryans, R. D. Miller, L. A. Garulacan, S. K. Mauldin, V. Poltoratsky, T. D. Stamato, and I. M. Mullin (1997). Curcumin alters the barrier function of an epithelium undergoing TNF-induced apoptosis by inhibiting PI-3 kinase and NF-kappa B activation. FASEB J. **11:**2987.
    Google Scholar
61. R. Narayanan, K. A. Higgins, J. R. Perez, T. A. Coleman, and C. A. Rosen (1993). Evidence for differential functions of the p50 and p65 subunits of NF-kappa-B with a cell-adhesion model. Mol. Cell. Biol. **13:**3802–3810.
    Google Scholar
62. R. Perona, S. Montaner, L. Saniger, I. SanchezPerez, R. Bravo, and J. C. Lacal (1997). Activation of the nuclear factor-kappa B by rho, cdc42, and rac-1 proteins. Genes Dev. **11:**463–475.
    Google Scholar
63. M. Spiecker, H. B. Peng, and J. K. Liao (1997). Inhibition of endothelial vascular cell adhesion molecule-1 expression by nitric oxide involves the induction and nuclear translocation of I kappa B alpha. J. Biol. Chem. **272:**30969–30974.
    Google Scholar
64. L. Cominacini, U. Garbin, A. F. Pasini, T. Paulon, A. Davoli, M. Campagnola, E. Marchi, A. M. Pastorino, G. Gaviraghi, and V. LoCascio (1997). Lacidipine inhibits the activation of the transcription factor NF-kappa B and the expression of adhesion molecules induced by pro-oxidant signals on endothelial cells. J. Hypertension **15:**1633–1640.
    Google Scholar
65. J. H. Chen, C. Vercamer, Z. L. Li, D. Paulin, B. Vandenbunder, and D. Stehelin (1996). Pea3 transactivates vimentin promoter in mammary epithelial and tumor cells. Oncogene 13: 1667–1675.
    Google Scholar
66. C. Jobin, C. Hellerbrand, L. L. Licato, D. A. Brenner, and R. B. Sartor (1998). Mediation by NF-kappa B of cytokine induced expression of intercellular adhesion molecule 1 (ICAM-1) in an intestinal epithelial cell line, a process blocked by proteasome inhibitors. Gut **42:**779–787.
    Google Scholar
67. I. Kurose, H. Saito, S. Miura, H. Ebinuma, H. Higuchi, N. Watanabe, S. Zeki, T. Nakamura, M. Takaishi, and H. Ishii (1997). Cd18/icam-1–dependent oxidative NF-kappa B activation leading to nitric oxide production in rat kupffer cells cocultured with syngeneic hepatoma cells. J. Clin. Invest. 99: 867–878.
    Google Scholar
68. A. S. Gukoyskaya, I. Y. Gukovsky, S. Periskic, T. Blinman, V. Zaninovich, and S. J. Pandol (1997). Loss of extracellular matrix contacts leads to NF-kb activation, cytokine expression, and production and apoptosis in pancreatic acinar cell. Gastroenterology **112:**A446.
    Google Scholar
69. C. H. Yang, A. Murti, and L. M. Pfeffer (1998). Stat3 complements defects in an interferon-resistant cell line: Evidence for an essential role for Stat3 in interferon signaling and biological activities. Proc. Natl. Acad. Sci. U.S.A. **95:**5568–5572.
    Google Scholar
70. V. A. Fadok, D. R. Voelker, P. A. Campbell, J. J. Cohen, D. L. Bratton, and P. M. Henson (1992). Exposure of phosphatidylserine on the surface of apoptotic lymphocytes triggers specific recognition and removal by macrophages. J. Immunol. **148:**2207–2216.
    Google Scholar
71. N. Boudreau, C. J. Sympson, Z. Werb, and M. J. Bissell (1995). Suppression of ice and apoptosis in mammary epithelial-cells by extracellular-matrix. Science **267:**891–893.
    Google Scholar
72. M. M. Faraldo, M. A. Deugnier, M. Lukashev, J. P. Thiery, and M. A. Glukhova (1998). Perturbation of beta 1–integrin function alters the development of murine mammary gland. EMBO J. **17:**2139–2147.
    Google Scholar
73. R. E. Ellis, J. Y. Yuan, and H. R. Horvitz (1991). Mechanisms and functions of cell-death. Ann. Rev. Cell Biol. **7:**663–698.
    Google Scholar
74. J. A. C. Philp, T. G. Burdon, and C. J. Watson (1996). Differential activation of Stats 3 and 5 during mammary gland development. FEBS Lett. **396:**77–80.
    Google Scholar
75. K. U. Wagner, R. J. Wall, L. St. Onge, P. Gruss, A. Wynshaw-Boris, L. Garrett, M. L. Li, P. A. Furth, and L. Hennighausen (1997). Cre-mediated gene deletion in the mammary gland. Nucleic Acids Res. **25:**4323–4330.
    Google Scholar
76. S. Selbert, D. J. Bentley, D. W. Melton, D. Rannie, P. Lourenco, C. J. Watson, and A. R. Clarke (1998). Efficient blg-cre mediated gene deletion in the mammary gland. Transgenic Res. **7:**387–396.
    Google Scholar

Download references