Abstract
Mutations which disrupt the regulation or expression level of the c-myc gene are among the most common found in human and animal cancers (reviewed in ref. Cole, 1986; Henriksson and Luscher, 1996; Marcu et al., 1992). Ectopic expression studies define numerous biological activities of the c-myc gene, including transformation, immortalization, blockage of cell differentiation and induction of apoptosis (Askew et al., 1991; Cole, 1986; Evan and Littlewood, 1993; Freytag et al., 1990; Henriksson and Luscher, 1996; Marcu et al., 1992). Furthermore, c-myc is required for efficient progression through the cell cycle (Goruppi et al., 1994; Prochownik et al., 1988; Yokoyama and Imamoto, 1987), although recent studies indicate that it is not absolutely essential (Mateyak et al., 1997). This fascinating array of biological activities makes the c-myc gene one of the most intriguing oncogenes and presents the challenging question of how a single gene can manifest so many different effects. The c-Myc protein exhibits sequence-specific DNA binding when dimerized with its partner Max, and DNA binding is mediated through the basic region, which recognizes the core sequence CACGTG (Berberich et al., 1992; Blackwell et al., 1993; Blackwood and Eisenman, 1991; Prendergast and Ziff, 1991; Prendergast et al., 1991), but exhibits somewhat higher affinity for the more extended sequence ACCACGTGGT (Berberich et al., 1992; Blackwell et al., 1993; Halazonetis and Kandil, 1991). There are three closely related Myc family proteins (c-Myc, N-Myc and L-Myc), each with documented oncogenic potential (Birrer et al., 1988; Schwab et al., 1985; Yancopoulos et al., 1985) and similar DNA binding properties (Mukherjee et al., 1992). For simplicity, we will use the term Myc to refer to all three proteins, but delineate any distinct activities where they apply. The goal of this review is to discuss Myc as a transcriptional activator and critically evaluate the evidence for the transactivation of specific target genes as direct downstream effectors. Since excellent comprehensive reviews on Myc have been published recently (Facchini and Penn, 1998; Henriksson and Luscher, 1996), we will focus on the latest observations that offer mechanistic insight into transactivation and oncogenic transformation.
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References
Amin C, Wagner AJ and Hay N. . 1993 Mol. Cell. Biol. 13: 383–390.
Askew DS, Ashmun RA, Simmons BC and Cleveland JL. . 1991 Oncogene 6: 1915–1922.
Barrett J, Birrer MJ, Kato GJ, Dosaka-Akita H and Dang CV. . 1992 Mol. Cell. Biol. 12: 3130–3137.
Bello-Fernandez C, Packham G and Cleveland JL. . 1993 Proc. Natl. Acad. Sci. USA 90: 7804–7808.
Benvenisty N, Leder A, Kuo A and Leder P. . 1992 Genes Dev. 6: 2513–2523.
Berberich S, Hyde-DeRuyscher N, Espenshade P and Cole M. . 1992 Oncogene 7: 775–779.
Birrer MJ, Segal S, Degreve JS, Kaye F, Sausville EA and Minna JD. . 1988 Mol. Cell. Biol. 8: 2668–2673.
Blackwell TK, Huang J, Ma A, Kretzner L, Alt FW, Eisenman RN and Weintraub H. . 1993 Mol. Cell. Biol. 13: 5216–5224.
Blackwood EM and Eisenman RN. . 1991 Science 251: 1211–1217.
Blackwood EM, Luscher B and Eisenman RN. . 1992 Genes Dev. 6: 71–80.
Boyd KE and Farnham PJ. . 1997 Mol. Cell. Biol. 17: 2529–2537.
Boyd KE, Wells J, Gutman J, Bartley SM and Farnham PJ. . 1998 Proc. Natl. Acad. Sci. USA 95: 13887–13892.
Brough DE, Hofmann TJ, Ellwood KB, Townley RA and Cole MD. . 1995 Mol. Cell. Biol. 15: 1536–1544.
Bush A, Dugan K, Mateyak M, Obaya A, Adachi S, Sedivy J and Cole MD. . 1998 Genes Dev. 12: 3797–3802.
Cole MD. . 1986 Ann. Rev. Gen 20: 361–385.
Claassen GF and Hann SR. . 1999 Oncogene 18: 2925–2933.
Colman MS and Ostrowski MC. . 1996 Nucl. Acids Res. 24: 1971–1978.
Dang CV. . 1999 Mol. Cell. Biol. 19: 1–11.
Desbarats L, Gaubatz S and Eilers M. . 1996 Genes Dev. 10: 447–460.
Eilers M, Schirm S and Bishop JM. . 1991 EMBO J. 10: 133–142.
Evan G and Littlewood TD. . 1993 Curr. Opin. Genet. Dev. 3: 44–49.
Evan GI, Wyllie AH, Gilbert CS, Littlewood TD, Land H, Brooks M, Waters CM, Penn LZ and Hancock DC. . 1992 Cell 69: 119–128.
Facchini LM and Penn LZ. . 1998 FASEB J. 12: 633–651.
Freytag SO, Dang CV and Lee WMF. . 1990 Cell Growth Diff. 1: 339–343.
Galaktionov K, Chen X and Beach D. . 1996 Nature 382: 511–517.
Gaubatz S, Meichle A and Eilers M. . 1994 Mol. Cell. Biol. 14: 3853–3862.
Georgakopoulos T and Thireos G. . 1992 EMBO J. 11: 4145–4152.
Goruppi S, Gustincich S, Brancolini C, Lee WMF and Schneider C. . 1994 Oncogene 9: 1537–1544.
Grandori C and Eisenman RN. . 1997 Trends Biochem. Sci. 22: 177–181.
Grandori C, Mac J, Siebelt F, Ayer DE and Eisenman RN. . 1996 EMBO J. 15: 4344–4357.
Grant PA, Duggan L, Cote J, Roberts SM, Brownell JE, Candau R, Ohba R, Owen-Hughes T, Allis CD, Winston F, Berger SL and Workman JL. . 1997 Genes Dev. 11: 1640–1650.
Grant PA, Sterner DE, Duggan LJ, Workman JL and Berger SL. . 1998 Trends Cell Biol. 8: 193–197.
Gu W, Cechova K, Tassi V and Dalla-Favera R. . 1993 Proc. Natl. Acad. Sci. USA 90: 2935–2939.
Halazonetis TD and Kandil AN. . 1991 Proc. Natl. Acad. Sci. USA 88: 6162–6166.
Hassig CA, Fleischer TC, Billin AN, Schreiber SL and Ayer DE. . 1997 Cell 89: 341–347.
Hateboer G, Marc Timmers HT, Rustgi AK, Billaud M., van'T Veer LJ and Bernards R. . 1993 Proc. Natl. Acad. Sci. USA 90: 8489–8493.
Henriksson M and Luscher B. . 1996 Adv. Cancer Res. 68: 109–182.
Jones RM, Branda J, Johnston KA, Polymenis M, Gadd M, Rustigi A, Callahan L and Schmidt EV. . 1996 Mol. Cell. Biol. 16: 4754–4764.
Kamine J, Elangovan B, Subramanian T, Coleman D and Chinnadurai G. . 1996 Virology 216: 357–366.
Kato GJ, Barrett J, Villa-Garcia M and Dang CV. . 1990 Mol. Cell. Biol. 10: 5914–5920.
Kollmar R, Sukow K, Sponagle S and Farnham PJ. . 1994 J. Biol. Chem. 269: 2252–2257.
Kretzner L, Blackwood EM and Eisenman RN. . 1992 Nature 359: 426–429.
Laherty CD, Yang WM, Sun JM, Davie JR, Seto E and Eisenman RN. . 1997 Cell 89: 349–356.
Li LH, Nerlov C, Prendergast G, MacGregor D and Ziff EB. . 1994 EMBO J. 13: 4070–4079.
Littlewood TD, Hancock DC, Danielian PS, Paten MG and Evan GI. . 1995 Nucleic Acids Res. 23: 1686–1690.
Lutterbach B and Hann SR. . 1994 Mol. Cell. Biol. 14: 5510–5522.
Lutz W, Stohr M, Schurmann J, Wenzel A, Lohr A and Schwab M. . 1996 Oncogene 13: 803–812.
Ma J and Ptashne M. . 1987 Cell 51: 113–119.
MacGregor D, Li LH and Ziff EB. . 1996 J. Cell. Physiol. 167: 95–105.
Maheswaran S, Lee H and Sonenshein GE. . 1994 Mol. Cell. Biol. 14: 1147–1152.
Marcu KB, Bossone SA and Patel AJ. . 1992 Ann. Rev. Biochem. 61: 809–860.
Marcus G, Silverman N, Berger S, Horiuchi J and Guarente L. . 1994 EMBO J. 13: 4807–4815.
Martinez E, Kunda TK, Fu J and Roeder RG. . 1998 J. Biol. Chem. 273: 23781–23785.
Mateyak MK, Obaya AJ, Adachi S and Sedivy JM. . 1997 Cell Growth Differ. 8: 1039–1048.
McMahon SB, VanBuskirk HA, Dugan KA, Copeland TD and Cole MD. . 1998 Cell 94: 363–374.
Miltenberger RJ, Sukow KA and Farnham PJ. . 1995 Mol. Cell. Biol. 15: 2527–2535.
Mukherjee B, Morgenbesser SD and DePinho R. . 1992 Genes Dev. 6: 1480–1492.
Ogryzko VV, Kotani T, Zhang X, Schiltz RL, Howard T, Quin J and Nakatani Y. . 1998 Cell 94: 35–44.
Penn LJZ, Brooks MW, Laufer EM, Littlewood TD, Morgenstern JP, Evan GI, Lee WMF and Land H. . 1990 Mol. Cell. Biol. 10: 4961–4966.
Prendergast GC, Lawe D and Ziff EB. . 1991 Cell 65: 395–407.
Prendergast GC and Ziff EB. . 1991 Science 251: 186–189.
Prochownik EV, Kukowska J and Rodgers C. . 1988 Mol. Cell. Biol. 8: 3683–3695.
Reisman D, Elkind NB, Roy B, Beamon J and Rotter V. . 1993 Cell Growth Diff. 4: 57–65.
Resar LMS, Dolde C, Barrett JF and Dang CV. . 1993 Mol. Cell. Biol. 13: 1130–1136.
Saleh A, Schieltz D, Ting N, McMahon SB, Litchfield DW, Yates-III JR, Lees-Miller SP, Cole MD and Brandl CJ. . 1998 J. Biol. Chem. 273: 26559–26570.
Sarid J, Halazonetis TD, Murphy W and Leder P. . 1987 Proc. Natl. Acad. Sci. USA 84: 170–173.
Schwab M, Varmus HE and Bishop JM. . 1985 Nature 316: 160–162.
Sears R, Ohtani K and Nevins DR. . 1997 Mol. Cell. Biol. 17: 5227–5235.
Shim H, Dolde C, Lewis BC, Wu CS, Dang G, Jungmann RA, Dalla-Favera R and Dang CV. . 1997 Proc. Natl. Acad. Sci. USA 94: 6658–6663.
Sirito M, Lin Q, Maity T and Sawadogo M. . 1994 Nucl. Acids Res. 22: 427–433.
Smith ER, Belote JM, Schiltz RL, Yang X-J, Moore PA, Berger SL, Nakatani Y and Allis CD. . 1998a Nucl. Acids Res. 26: 2948–2954.
Smith ER, Eisen A, Gu W, Sattah M, Pannuti A, Zhou J, Cook RG, Lucchesi JC and Allis CD. . 1998b Proc. Natl. Acad. Sci. USA 95: 3561–3565.
Sommer A, Hilfenhaus S, Mankel A, Kremmer E, Seiser C, Loidl P and Lüscher B. . 1997 Curr. Biol. 7: 357–365.
Spotts GD, Patel SV, Xiao Q and Hann SR. . 1997 Mol. Cell. Biol. 17: 1459–1468.
Stone J, De Lange T, Ramsay G, Jakobovits E, Bishop JM, Varmus H and Lee W. . 1987 Mol. Cell. Biol. 7: 1697–1709.
Tavtigian SV, Zabludoff SD and Wold BJ. . 1994 Mol. Biol. Cell 5: 375–388.
Tsuneoka M, Nakano F, Ohgusu H and Mekada E. . 1997 Oncogene 14: 2301–2311.
Wagner AJ, Meyers C, Laimins LA and Hay N. . 1993 Cell Growth Differ. 4: 879–883.
Wang L, Mizzen C, Ying C, Candau R, Barlev N, Brownell J, Allis CD and Berger SL. . 1997 Mol. Cell. Biol. 17: 519–527.
Weihua X, Lindner DJ and Kalvakolanu DV. . 1997 Proc. Natl. Acad. Sci. USA 94: 7227–7232.
Xiao Q, Claassen G, Shi J, Adachi S, Sedivy J and Hann SR. . 1998 Genes Dev. 12: 3803–3808.
Yancopoulos GD, Nisen PD, Tesfaye A, Kohl NE, Goldfarb MP and Alt FW. . 1985 Proc. Natl. Acad. Sci. USA 82: 5455–5459.
Yokoyama K and Imamoto F. . 1987 Proc. Natl. Acad. Sci. USA 84: 7363–7367.
Zhang Y, Iratni R, Erdjument-Bromage H, Tempst P and Reinberg D. . 1997 Cell 89: 357–364.
Zwicker J, Liu N, Engeland K, Lucibello FC and Muller R. . 1996 Science 271: 1595–1596.
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Cole, M., McMahon, S. The Myc oncoprotein: a critical evaluation of transactivation and target gene regulation. Oncogene 18, 2916–2924 (1999). https://doi.org/10.1038/sj.onc.1202748
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