Abstract
This paper reviews our present state of knowledge of genetic variation in (offensive) aggression in wild house mice. The basic tools in this research were lines bidirectionally selected for attack latency (fast attacking SAL and slow attacking LAL males), descended from a feral population. Using congenic lines for the nonpseudoautosomal region of the Y chromosome (YNPAR), reciprocal crosses between (parental) SAL and LAL, and crosses between parentals and congenics, an autosomally dependent Y chromosomal effect on aggression has been found. Both the pseudoautosomal (YPAR) region and the YNPAR play a role. As for environmental sources of variation, prenatal and postnatal maternal effects are of minor importance for the development of aggression differences. One of the physiological factors by which genetic effects may be mediated is testosterone (T). Besides quantitative aspects, the timing of T release seems crucial. Two important time frames are discussed: the perinatal and pubertal time periods. Finally, neurochemical and neuroanatomical correlates are considered. Differences in neostriatal dopaminergic activity, and sizes of the intra- and infrapyramidal mossy fiber terminal fields, as well as Y chromosomal effects on the latter two, are discussed.
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References
Adams, D. B. (1980). Motivational systems of agonistic behavior in muroid rodents: a comparative review and neural model.Aggress. Behav. 6:295–346.
Albert, D. J., Jonik, R. H., and Walsh, M. L. (1992). Hormone-dependent aggression in male and female rats — Experiential, hormonal, and neural foundations.Neurosci. Biobehav. Rev. 16:177–192.
Benus, R. F., Bohus, B., Koolhaas, J. M., and van Oortmerssen, G. A. (1991a). Behavioral differences between artificially selected aggressive and non-aggressive mice: Response to apomorphine.Behav. Brain Res. 43:203–208.
Benus, R. F., Bohus, B., Koolhaas, J. M., and van Oortmerssen, G. A. (1991b). Heritable variation for aggression as a reflection of individual coping strategies.Experientia 47:10008–1019.
Bohus, B., Benus, R. F., Fokkema, D. F., Koolhaas, J. M., Nyakas, C., van Oortmerssen, G. A., Prins, A. J. A., de Ruiter, A. J. H., Scheurink, A. J. W., and Steffens, A. B. (1987). Neuroendocrine states and behavioral physiological stress responses. In De Kloet, E. R., Wiegant, V. M., and De Wied D. (eds.),Progress in Brain Research, Vol. 72, Elsevier, Amsterdam, pp. 57–70.
Carlier, M., Roubertoux, P. L., Kottler, M. L., and Degrelle, H. (1990). Y chromosome and aggression in strains of laboratory mice.Behav. Genet. 20:137–157.
Carlier, M., Roubertoux, P. L., and Pastoret, C. (1991). The Y chromosome effect on intermale aggression in mice depends on the maternal environment.Genetics 129:231–236.
Carlier, M., Nosten-Bertrand, M., and Michard-Vanhee, C. (1992). Separating genetic effects from maternal environmental effects. In Goldowitz, D., Wahlsten, D., and Wimer, R. (eds.),Techniques for the Genetic Analysis of Brain and Behavior: Focus on the Mouse, Techniques in the Behavioral and Neural Sciences Vol. 8, Elsevier, Amsterdam, pp. 111–126.
Catlett, R. H. (1961). An Evaluation of methods for measuring fighting behaviour with special reference toMus musculus.Anim. Behav. 9:8–10.
Compaan, J. C. (1993).Ontogeny of Aggression, Ph. D. thesis, University of Groningen, Groningen, The Netherlands.
Denenberg, V. H., Gaulin-Kremer, E., Gandelman, R., and Zarrow, M. X. (1973). The development of standard stimulus animals for mouse (Mus musculus) aggression testing by means of olfactory bulbectomy.Anim. Behav. 21:590–598.
de Ruiter, A. J. H., Koolhaas, J. M., Keijser, J., van Oortmerssen, G. A., and Bohus, B. (1992). Differential testosterone secretory capacity of the testes of aggressive and non-aggressive house mice during ontogeny.Aggress. Behav. 18:149–157.
Fuller, J. L. and Hahn, M. E. (1976). Issues in the genetics of social behavior.Behav. Genet. 6:391–406.
Guillot, P.-V., Roubertoux, P. L. and Crusio, W. E. (1994). Hippocampal mossy fiber distributions and intermale aggression in seven inbred mouse strains.Brain Res. 660:167–169.
Guillot, P.-V., Carlier, M., and Roubertoux, P. L. (1995a). Intermale aggression tested in two different procedures, using four inbred strains of mice and their reciprocal congenics: Y chromosomal implications.Behav. Genet. 25:357–361.
Guillot, P.-V., Sluyter, F., Laghmouch, A., Roubertoux, P. L., and Crusio, W. E. (1996). Hippocampal morphology in the inbred mouse strains NZB and CBA/H and their reciprocal congenics for the non-pseudoautosomal region of the Y chromosome.Behav. Genet. 26:1–6.
Hensbroek, R., Sluyter, F., Guillot, P.-V., van Oortmerssen, G. A., and Crusio, W. E. (1995). Y chromosomal effects on hippocampal mossy fiber distributions in mice selected for aggression.Brain Res. 682:203–206.
MacIntosh Schellinck, H., Monahan E., Brown, R. E., and Maxson, S. C. (1993). A comparison of the contribution of the major histocompatibility complex MHC and Y chromosomes to the discriminability of individual urine odors of mice by Long-Evans Rats.Behav. Genet. 23:257–263.
Maxson, S. C. (1992). Methodological issues in genetic analyses of an agonistic behavior offense in male mice. In Goldowitz, D., Wahlsten, D., and Wimer, R. (eds.),Techniques for the Genetic Analysis of Brain and Behavior: Focus on the Mouse, Techniques in the Behavioral and Neural Sciences, Vol. 8, Elsevier, Amsterdam, pp. 349–373.
Maxson, S. C., Ginsburg, B. E., and Trattner, A. (1979). Interaction of Y-chromosomal and autosomal gene(s) in the development of intermale aggression.Behav. Genet. 9:219–226.
Monahan, E., Yamazaki, K., Beauchamp, G. K., and Maxson, S. C. (1993). Olfactory discrimination of urinary odortypes from congenic strains (DBA/1Bg and DBA1.C57BL10-YBg) of mice differing in their Y chromosomes.Behav. Genet. 23:251–256.
Oakshott, J. G. (1974). Social dominance, aggressiveness and mating success among male house mice (Mus musculus).Oecologia 15:143–158.
O'Keefe, J. and Nadel, L. (1978).The Hippocampus as a Cognitive Map, Clarendon Press, Oxford.
Popova, N. K., and Kulikov, A. V. (1986). Genetic analysis of “spontaneous” intermale aggression in mice.Aggress. Behav. 12:425–431.
Roubertoux, P. L., and Carlier, M. (1988). Differences between CBA/H and NZB mice on intermale aggression. II. Maternal effects.Behav. Genet. 18:175–184.
Roubertoux, P. L., Carlier, M., Degrelle H., Haas-Dupertuis M.-C., Phillips, J., and Moutier R. (1994). Co-segregation of intermale aggression with the pseudoautosomal region of the Y chromosome in mice.Genetics 136:225–230.
Selmanoff, M., Jumonville, J. E., Maxson, S. C., and Ginsburg, B. E., (1975). Evidence for a Y chromosome contribution to an aggressive phenotype in inbred mice.Nature 253:529–530.
Selmanoff, M., Maxson, S. C., and Ginsburg, B. E. (1976). Chromosomal determinants of intermale aggressive behavior in inbred mice.Behav. Genet. 6:53–69.
Selmanoff, M. K., Goldman, B. D., Maxson, S. C., and Ginsburg, B. E., (1977). Correlated effects of the Y chromosome of mice on developmental changes in testosterone levels and intermale aggression.Life Sci. 20:359–366.
Simon, N. G. (1979). The genetics of intermale aggressive behavior in mice.Neurosci. Biobehav. Rev. 3:97–106.
Sluyter, F. (1994).Y Chromosome, Aggression and Coping. A Genetic Study in Artificially Selected Aggressive and Nonaggressive Mice, Ph.D. thesis, University of Groningen, Groningen, The Netherlands.
Sluyter, F., Meijeringh, B. J., and van Oortmerssen, G. A. (1993). Response to hCG of two selection lines for attack latency and their reciprocal hybrids.Behav. Genet. 23:566–567 (abstract).
Sluyter, F., Jamot, L. van Oortmerssen, G. A., and Crusio, W. E. (1994a). Hippocampal mossy fiber distributions in mice selected for aggression.Brain Res. 646:145–148.
Sluyter, F., van Oortmerssen, G. A., and Koolhaas, J. M. (1994b). Studies on wild house mice. VI. Differential effects of the Y chromosome on intermale aggression.Agress. Behav. 20:379–387.
Sluyter, F., Bohus, B., Beldhuis, H. J. A., and van Oortmerssen, G. A. (1995a). Autosomal and Y chromosomal effects on the stereotyped response to apomorphine in wild house mice.Pharmacol. Biochem. Behav. 52(1):17–22.
Sluyter, F., Meijeringh, B. J., van Oortmerssen, G. A., and Koolhaas, J. M. (1995b). Studies on wild house mice. VIII. Postnatal maternal influence on intermale aggression in reciprocal F1s..Behav. Genet. 25:367–370.
Sluyter, F., van Der Vlugt, J. J., van Oortmerssen, G. A., Koolhaas, J. M., Van Der Hoeven, F., and De Boer, P. (1996). Studies on wild house mice. VII. The prenatal maternal environment and aggression.Behav. Genet. 26:513–518.
van der Hoeven, F. A., Schouten, M., and de Boer, P. (1991). Embryo survival in pseudopregnant and in pregnant but genetically semi-sterile recipients after nonsurgical embryo transfer in the mouse.Theriogenology 36:463–475.
van Oortmerssen, G. A. (1984). A behavioral-genetic approach to variation in attack latency, serum testosterone level, and other agonistic parameters.Aggress. Behav., 10:177 (abstract).
van Oortmerssen, G. A., and Bakker, T. C. M. (1981). Artificial selection for short and long attack latencies in wild Mus musculus domesticus.Behav. Genet. 11:115–126.
van Oortmerssen, G. A., and Busser, J. (1989). Studies in wild house mice. III. Disruptive selection on aggression as a possible force in evolution. In Brain, P. F., Mainardi, D., and Parmigiani, S. (eds.),House Mouse Aggression: A Model for Understanding the Evolution of Social Behaviour, Harwood Academic, London, pp. 87–118.
van Oortmerssen, G. A., and Sluyter, F. (1994). Studies on wild house mice. V. Aggression in selection lines for attack latency and their congenics for the Y chromosome.Behav. Genet. 24:73–78.
van Oortmerssen, G. A., Benus, R. F., and Dijk, D. J. (1985). Studies in wild house mice: Genotype-environment interactions for attack latency.Neth. J. Zool. 35:155–169.
van Oortmerssen, G. A., Dijk, D. J., and Schuurman, T. (1987). Studies in wild house mice. II. Testosterone and aggression.Horm. Behav. 21:139–152.
van Oortmerssen, G. A., Benus, R. F., and Sluyter, F. (1992). Studies on wild house mice. IV. On the heredity of testosterone and readiness to attack.Aggress. Behav. 18:143–148.
van Zegeren, K. (1980). Variation in aggressiveness and the regulation of numbers in house mouse populations.Neth. J. Zool. 30:635–770.
Yamazaki, K., Beauchamp, G. K., Matsuzaki, O., Bard, J., Thomas, L., and Boyse, E. A. (1986). Participation of murine X and Y chromosomes in genetically determined chemosensory identity.Proc. Natl. Acad. Sci. USA 83:4438–4440.
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Sluyter, F., van Oortmerssen, G.A., de Ruiter, A.J.H. et al. Aggression in wild house mice: Current state of affairs. Behav Genet 26, 489–496 (1996). https://doi.org/10.1007/BF02359753
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DOI: https://doi.org/10.1007/BF02359753