Abstract
Data have been emerging over the past two decades concerning two phenomena in which important biological effects of ionizing radiation arise in cells that in themselves receive no radiation exposure. In the first, radiation-induced genomic instability, biological effects occur in the progeny of the irradiated cell after many generations of cell division. In the second, radiation-induced bystander effects, they arise in cells that receive no radiation exposure as a consequence of damage signals transmitted from neighboring irradiated cells; transmission may be mediated either by direct intercellular communication through gap junctions, or by factors released into the surrounding medium. In both phenomena, the biological effects appear to be associated with an upregulation of oxidative metabolism. The present paper is designed to review the historical background leading to our current knowledge of these two phenomena, and to indicate some future directions for research that will allow us to assess better their importance in the health effects of exposure to ionizing radiation.
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References
Azzam EI, de Toledo SM, Gooding T and Little JB . (1998). Radiat. Res., 150, 497–504.
Azzam EI, de Toledo SM and Little JB . (2001). Proc. Natl. Acad. Sci. USA, 98, 473–478.
Azzam EI, de Toledo SM, Spitz DR and Little JB . (2002). Cancer Res., 62, 5437–5442.
Bacq EM and Alexander P . (1961). Fundamentals of Radiobiology, 2nd edn. Pergamon Press: New York, 555pp.
Bailey SM, Cornforth MN, Kurimasa A, Chen DJ and Goodwin EH . (2001). Science, 293, 2462–2465.
Baverstock K . (2000). Mutat. Res., 454, 89–109.
Belyakov OV, Malcolmson AM, Folkard M, Prise KM and Michael BD . (2001). Br. J. Cancer, 84, 674–679.
Belyakov OV, Prise KM, Trott KR and Michael BD . (1999). Int. J. Radiat. Biol., 75, 985–993.
Bishayee A, Rao DV and Howell RW . (1999). Radiat. Res., 152, 88–97.
Bouffler SD, Blasco MA, Cox R and Smith PJ . (2001a). Int. J. Radiat. Biol., 77, 995–1005.
Bouffler SD, Haines JW, Edwards AA, Harrison JD and Cox R . (2001b). Radiat. Res., 155, 345–352.
Boulton E, Cleary H, Papworth D and Plumb M . (2001). Int. J. Radiat. Biol., 77, 21–29.
Boyce RP and Howard-Flanders P . (1964). Proc. Natl. Acad. Sci. USA, 51, 293–300.
Chang WP, and Little JB . (1991). Int. J. Radiat. Biol., 60, 483–496.
Chang WP and Little JB . (1992). Mutat. Res., 270, 191–199.
Cheng KC and Loeb LA . (1993). Adv. Cancer Res., 60, 121–156.
d'Adda di Fagagna F, Hande MP, Tong WM, Roth D, Lansdorp PM, Wang ZQ and Jackson SP . (2001). Curr. Biol., 11, 1192–1196.
D'Andrea AD and Grompe M . (2003). Nat. Rev. Cancer, 3, 23–43.
Demerec M and Latarjet R . (1946). Cold Spring Harbor Symp. Quant. Biol., 11, 38–50.
Deshpande A, Goodwin EH, Bailey SM, Marrone B and Lehnert B . (1996). Radiat. Res., 152, 552–557.
Dugan LC and Bedford JS . (2003). Radiat. Res., 159, 301–311.
Dutrillaux B . (1997). Radioprotection, 32, C431–C440.
Emerit I . (1998). Free Radicals, Oxidative Stress and Antioxidants. Ozben (ed). Plenum Press: New York, pp. 375–384.
Emerit I, Quastel M, Goldsmith J, Merkin L, Levy A, Cernjavski L, Alaoui-Youssefi A, Pogossian A and Riklis E . (1997). Mutat. Res., 373, 47–54.
Evans HH, Horng MF, Ricanati M, Diaz-Insua M, Jordan R and Schwartz JL . (2001). Radiat. Res., 156, 259–271.
Fabre F . (1983). Cellular Responses to DNA Damage. Alan R. Liss: New York, pp. 379–384.
Faguet GB, Reichard SM and Welter DA . (1984). Cancer Genet. Cytogenet., 12, 73–83.
Fearon ER . (1997). Science, 278, 1043–1050.
Fouladi B, Sabatier L, Miller D, Pottier G and Murnane JP . (2000). Neoplasia, 2, 540–554.
Frank J and Williams JR . (1982). Science, 216, 307–308.
Freeman SM, Abboud CN, Whartenby KA, Packman CH, Koeplin DS, Moolten FL, Abraham GN and . (1993). Cancer Res., 53, 5274–5283.
Gilley D, Tanaka H, Hande M, Kurimasa A, Li GC, Oshimura M and Chen DJ . (2001). Proc. Natl. Acad. Sci. USA, 98, 15084–15088.
Goh KO and Sumner H . (1968). Radiat. Res., 35, 171–181.
Gorgojo L and Little JB . (1989). Int. J. Radiat. Biol., 55, 619–630.
Grosovsky AJ, Parks KK, Giver CR and Nelson SL . (1996). Mol.Cell. Biol., 16, 6252–6262.
Hanawalt PC . (1977). DNA Repair Processes. Nichols WW and Murphy DG (eds). Symposia Specialists: Miami, FL, pp. 1–19.
Hollowell JG and Littlefield GL . (1968). Proc. Soc. Exp. Biol. (NY), 129, 240–244.
Holmberg K, Falt S, Johansson A and Lambert B . (1993). Mutat. Res., 286, 321–330.
Howell RW and Bishayee A . (2002). Micron, 33, 127–132.
Huo L, Nagasawa H and Little JB . (2001). Radiat. Res., 156, 521–525.
Iyer R and Lehnert BE . (2002). Radiat. Res., 157, 3–7.
Iyer R, Lehnert BE and Svensson R . (2000). Cancer Res., 60, 1290–1298.
Jamali M and Trott KR . (1996). Int. J. Radiat. Biol., 70, 705–709.
Johnson PR and Hersey P . (1976). Br. J. Cancer, 33, 370–378.
Kadhim MA, Lorimore SA, Townsend KM, Goodhead DT, Buckle VJ and Wright EG . (1995). Int. J. Radiat. Biol., 67, 287–293.
Kadhim MA, MacDonald DA, Goodhead DT, Lorimore SA, Marsden SJ and Wright EG . (1992). Nature, 355, 738–740.
Kadhim MA, Marsden SJ, Goodhead DT, Malcolmson AM, Folkard M, Prise KM and Michael BD . (2001). Radiat. Res., 155, 122–126.
Kato K, Yoshida J, Mizuno M, Sugita K and Emi N . (1994). Neurol. Med. Chir., 34, 339–344.
Kennedy AR, Cairns J and Little JB . (1984). Nature, 307, 85–86.
Kennedy AR, Fox M, Murphy G and Little JB . (1980). Proc. Natl. Acad. Sci. USA, 77, 7262–7266.
Kennedy AR and Little JB . (1980). Carcinogenesis, 1, 1039–1047.
Kettman J and Skarvall H . (1974). Eur. J. Immunol., 4, 641–645.
Lehnert B, Goodwin EH and Deshpande A . (1997). Cancer Res., 57, 2164–2171.
Li C-Y, Yandell DW and Little JB . (1992). Mol. Carcinogen., 5, 270–277.
Liber HL, LeMotte PK and Little JB . (1983). Mutat. Res., 111, 387–404.
Limoli CL, Hartmann A, Shepard L, Yang C-R, Boothman DA, Bartholomew J and Morgan WF . (1998). Cancer Res., 58, 3712–3718.
Limoli CL, Kaplan MI, Giedzinski E and Morgan WF . (2001). Free Radical Biol. Med., 31, 10–19.
Limoli CL, Ponnaiya B, Corcoran JJ, Giedzinski E, Kaplan MI, Hartmann A and Morgan WF . (2000). Adv. Space Res., 25, 2107–2117.
Little JB . (1971). Int. J. Radiat. Biol., 20, 87–92.
Little JB . (1998). Int. J. Radiat. Biol., 74, 663–671.
Little JB, Gorgojo L and Vetrovs H . (1990). Int. J. Radiat. Oncol. Biol. Phys., 19, 1425–1429.
Little JB, Nagasawa H, Li GC and Chen DJ . (2003). Radiat. Res., 159, 262–267.
Little JB, Nagasawa H, Pfenning T and Vetrovs H . (1997). Radiat. Res., 148, 299–307.
Loeb LA . (2001). Cancer Res., 61, 3230–3239.
Loeb LA, Loeb KR and Anderson JP . (2003). Proc. Natl. Acad. Sci. USA, 100, 776–781.
Lyng FM, Seymour CB and Mothersill C . (2001). Biochem. Soc. Trans., 29, 350–353.
Lyng FM, Seymour CB and Mothersill C . (2002). Radiat. Res., 157, 365–370.
Macdonald D, Boulton E, Pocock D, Goodhead D, Kadhim M and Plumb M . (2001). Int. J. Radiat. Biol., 77, 1023–1031.
Marder BA and Morgan WF . (1993). Mol. Cell. Biol., 13, 6667–6677.
Martin RF and Haseltine WA . (1981). Science, 213, 896–898.
Matasumoto H, Hayashi S, Hatashita M, Ohnishi K, Shioura H, Ohtsubo T, Kitai R, Ohnishi T and Kano E . (2001). Radiat. Res., 155, 387–396.
Mendonca MS, Kurohara W, Antoniono R and Redpath JL . (1989). Radiat. Res., 119, 387–393.
Mesnil M and Yamasaki H . (2000). Cancer Res., 60, 3989–3999.
Morgan WF . (2003). Radiat. Res., 159, 581–596.
Morgan WF, Day JP, Kaplan MI, McGhee EM and Limoli CL . (1996). Radiat. Res., 146, 247–258.
Mothersill C and Seymour C . (1997). Int. J. Radiat. Biol., 71, 421–427.
Mothersill C and Seymour CB . (1998). Radiat. Res., 149, 252–262.
Mothersill C and Seymour C . (2001). Radiat. Res., 155, 759–767.
Nagar A, Smith LE, and Morgan WF . (2003). Cancer Res., 63, 324–328.
Nagasawa H, Cremesti A, Kolesnick R, Fuks Z and Little JB . (2002). Cancer Res., 62, 2531–2534.
Nagasawa H, Huo L and Little JB . (2003). Int. J. Radiat. Biol., 79, 35–41.
Nagasawa H and Little JB . (1992). Cancer Res., 52, 6394–6396.
Nagasawa H and Little JB . (1999). Radiat. Res., 152, 552–557.
Nakanishi M, Tanaka K, Takahashi T, Kyo T, Dohy H, Fujiwara M and Kamada N . (2001). Int. J. Radiat. Biol., 77, 687–694, and (Comments) Int. J. Radiat. Biol. 2002; 78 : 441–445.
Narayanan P, Goodwin E and Lehnert B . (1997). Cancer Res., 57, 3963–3971.
Nias AHW, Gilbert CW, Lajtha LG and Lange CS . (1965). Int. J. Radiat. Biol., 9, 275–290.
Nowell PC . (1976). Science, 194, 23–28.
Okayasu R, Suetomi K, Yu Y, Silver A, Bedford JS, Cox R and Ullrich RL . (2000). Cancer Res., 60, 4342–4345.
Pampfer S and Streffer C . (1989). Int. J. Radiat. Biol., 55, 85–92.
Paquette B and Little JB . (1994). Cancer Res., 54, 3173–317.
Ponnaiya B, Cornforth MN and Ullrich RL . (1997). Radiat. Res., 147, 121–125.
Prise KM, Belyakov OV, Folkard M and Michael BD . (1998). Int. J. Radiat. Biol., 74, 793–798.
Rajewsky K, Roelants GE and Askonas BA . (1972). Eur. J. Immunol., 2, 592–598.
Redpath JL and Gutierrez M . (2001). Int. J. Radiat. Biol., 77, 1081–1085.
Romney CA, Paulauskis JD and Little JB . (2001a). Mutat. Res., 478, 97–106.
Romney CA, Paulauskis JD, Nagasawa H and Little JB . (2001b). Mol. Carcinogen., 32, 118–127.
Sabatier L, Dutrillaux B and Martin MB . (1992). Nature, 357, 548.
Sankaranarayanan K and Chakraborty R . (2001). Radiat. Res., 156, 648–656.
Sawant SG, Randers-Pehrson G, Geard CR, Brenner DJ and Hall EJ . (2001). Radiat. Res., 155, 397–401.
Sawant SG, Zheng W, Hopkins KM, Randers-Pehrson G, Lieberman HB and Hall DJ . (2002). Radiat. Res., 157, 361–364.
Scott D . (1969). Cell Tissue Kinetics, 2, 295–305.
Selvanayagam CS, Davis CM, Cornforth MN and Ullrich RL . (1995). Cancer Res., 55, 3310–3317.
Setlow RB and Carrier WL . (1964). Proc. Nat. Acad. Sci. USA, 51, 226–231.
Seymour CB, Mothersill C and Alper T . (1986). Int. J. Radiat. Biol., 50, 167–179.
Shao C, Furusawa Y, Aoki M, Matsumoto H and Ando K . (2002). Int. J. Radiat. Biol., 78, 837–844.
Sinclair WK . (1964). Radiat. Res., 21, 584–611.
Smythe WR, Hwang HC, Amin KM, Eck SL, Davidson BL, Wilson JM, Kaiser LR and Albelda SM . (1994). Cancer Res., 54, 2055–2159.
Stamato T, Weinstein R, Peters B, Hu J, Doherty B and Giaccia A . (1987). Somatic Cell Mol. Genet., 13, 57–65.
Suzuki K, Yokoyama S, Waseda S, Kodama S and Watanabe M . (2003). Cancer Res., 63, 936–941.
Syljuåsen RG, Krolewski B and Little JB . (2001). Radiat. Res., 155, 215–221.
Terzaghi M and Little JB . (1976). Cancer Res., 36, 1367–1374.
Touraine RL, Ishii-Morita H, Ramsey WJ and Blaese RM . (1998). Gene Ther., 5, 1705–1711.
Trosko JE and Chang CC . (2001). Mutat. Res., 480–481, 219–229.
Trosko JE and Ruch RJ . (1998). Front. Biosci., 3, D208–D236.
Ullrich RL and Davis CM . (1999). Radiat. Res., 152, 170–173.
Vogelstein B and Kinzler KW . (1993). Trends Genet., 9, 138–141.
Watson GE, Lorimore SA, Clutton SM, Kadhim MA and Wright EG . (1997). Int. J. Radiat. Biol., 71, 497–503.
Watson GE, Lorimore SA, MacDonald DA and Wright EG . (2000). Cancer Res., 60, 5608–5611.
Watson GE, Lorimore SA and Wright EG . (1996). Int. J. Radiat. Biol., 69, 175–182.
Watson GE, Pocock DA, Papworth D, Lorimore S and Wright EG . (2001). Int. J. Radiat. Biol., 77, 409–417.
Whitehouse CA and Tawn EJ . (2001). Radiat. Res., 156, 467–475.
Wu JK, Cano WG, Meylaerts SA, Qi P, Vrionis F and Cherington V . (1994). Neurosurgery, 35, 1094–1102.
Wu L-J, Randers-Pehrson G, Xu A, Waldren CA, Geard CR, Yu Z and Hei TK . (1999). Proc. Natl. Acad. Sci. USA, 96, 4959–4964.
Wygoda MR, Wilson MR, Davis MA, Trosko JE, Rehemtulla A and Lawrence TS . (1997). Cancer Res., 57, 1699–1703.
Xue LY, Butler NJ, Makrigiorgos GM, Adelstein SJ and Kassis AI . (2002). Proc. Natl. Acad. Sci. USA, 99, 13765–13770.
Yamasaki H . (1990). Prog. Clin. Biol. Res., 340D, 153–164.
Yamasaki H and Naus CC . (1996). Carcinogenesis, 17, 1199–1213.
Zhou H, Randers-Pehrson G, Waldren CA, Vannais D, Hall EJ and Hei TK . (2000). Proc. Natl. Acad. Sci. USA, 97, 2099–2104.
Zhou H, Suzuki M, Geard CR and Hei TK . (2002). Mutat. Res., 499, 135–141.
Zhou H, Suzuki M, Randers-Pehrson G, Vannais D, Chen G, Trosko JE, Waldren CA and Hei TK . (2001). Proc. Natl. Acad. Sci. USA, 98, 14410–14415.
Zirkle RE and Bloom W . (1953). Science, 117, 487–496.
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This work was supported by Research Grant FG02-98ER62685 from the United States Department of Energy.
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Little, J. Genomic instability and bystander effects: a historical perspective. Oncogene 22, 6978–6987 (2003). https://doi.org/10.1038/sj.onc.1206988
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DOI: https://doi.org/10.1038/sj.onc.1206988
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