Abstract
Roman high- and low-avoidance (RHA/Verh and RLA/Verh) rats are selected and bred for extreme divergence in two-way active avoidance acquisition. In addition, compared to RLA/Verh rats, RHA/Verh rats are (behaviorally and physiologically) less anxious or reactive to stressors, show increased novelty (sensation)-seeking behavior as well as a higher preference for rewarding substances, and are usually less efficient in learning tasks not involving shock administration. The present article reviews evidence showing that neonatal handling and/or environmental enrichment leads to enduring effects (their magnitude frequently depending upon the rat line) on those behaviors. For example, it has been found that neonatal handling reduces most of the (behavioral and physiological) signs of emotionality/anxiety in RLA/Verh rats, while environmental enrichment increases their novelty seeking (also the case with RHA/Verh rats), saccharin and ethanol intake, and sensitivity to amphetamine. Finally, initial results (currently being further elaborated upon) support a preventive action of both environmental treatments on age-related impairments in learning a spatial, water maze task as well as on hippocampal neuronal atrophy.
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REFERENCES
Abel, E. (1995). Further evidence for the dissociation of locomotor activity and head-dipping in rats. Physiol. Behav. 57:529–532.
Aubry, J. M., Bartanusz, V., Driscoll, P., Schulz, P., Steimer, T.,and Kiss, J. Z. (1995). Corticotropin-releasing factor(CRF) and vasopressin (VP) mRNA levels in Roman high-and low-avoidance (RHA-RLA) rats; Response to open field exposure. Neuroendocrinology 61:89–97.
Bancroft, I. D., and Stevens, A. (1996). Theory and Practice of Histological Techniques, Curchill-Livingstone, HongKong.
Bättig, K. (1983). Spontaneous tunnel maze locomotion in rats.In Zbinden, G., et al. (eds.), Application of Behavioral Pharmacology in Toxicology, Raven Press, New York,pp. 15–26.
Bliss, T. V. P., and Collingridge, G. L. (1993). A synaptic model of memory: long-term potentiation in the hippocampus.Nature 361:31–39.
Brush, F. R. (1991). Genetic determinants of individual differences in avoidance learning: Behavioral and endocrine characteristics. Experientia 47:1008–1019.
Castanon, N., and Mormède, P. (1994). Psychobiogenetics: Adapted tools for the study of the coupling between behavioral and neuroendocrine traits of emotional reactivity.Psychoneuroendocrinology 19:257–282.
Castanon, N., Dulluc, J., Le Moal, M., and Mormède, P. (1994). Maturation of the behavioral and neuroendocrine differences between the Roman rat lines. Physiol. Behav. 55:775–782.
Castanon, N., Pérez-Diaz, F., and Mormède, P. (1995). Genetic analysis of the relationships between behavioral and neuroendocrine traits in Roman High and Low avoidance rat lines. Behav. Genet. 25:371–384.
Chaouloff, F., Castanon, N., and Mormède, P. (1994). Paradoxical differences in animal models of anxiety among the Roman rat lines. Neurosci. Lett. 182:217–221.
Cooper, R. M., and Zubek, J. P. (1958). Effects of enriched and restricted early environments on the learning ability of bright and dull rats. Can J. Psychol. 12:159–164.
Corda, M. G., Lecca, D., Piras, G., Di Chiara, G., and Giorgi, O. (1997). Biochemical parameters of dopaminergic and GABAergic neurotransmission in the CNS of Roman high-avoidance and Roman low-avoidance rats. Behav. Genet. 27:527–536.
Daly, M. (1973). Early stimulation of rodents: A critical review of present interpretations. Br. J. Psychol. 64:435–460.
D'Angio, M., Serrano, A., Driscoll, P., and Scatton, B. (1988).Stressful environmental stimuli increase extracellular DOPAC levels in the prefrontal cortex of hypoemotional (Roman high-avoidance) but not hyperemotional (Roman low-avoidance) rats. An in vivo voltametric study. Brain Res. 451:237–247.
Dawson, G. R., and Tricklebank, M. D. (1995). Use of the elevated plus maze in the search for novel anxiolytic agents. Trends Pharmacol. Sci. 16:33–36.
Dellu, F., Piazza, P. V., Mayo, W., Le Moal, M., and Simon, H. (1996).Novelty-seeking in rats. Biobehavioral characteristics and possible relationship with the sensation-seeking trait in man. Neuropsychobiology 34:136–145.
Denenberg, V. H. (1975). Effects of exposure to stressors in early life upon later behavioural and biological processes.In Levi, L. (ed.), Society, Stress, and Disease: Childhood and Adolescence, Vol. 2, Oxford University Press, New York, pp. 269–281.
Denenberg, V. H., Woodcock, J. M., and Rosenberg, K. M. (1968). Long-term effects of preweaning and postweaning free-environment experience on rats problem-solving behavior.J. Comp. Physiol. Psychol. 66:533–535.
Diamond, M. C. (1988). Enriching Heredity, Free Press, New York.
Driscoll, P., and Bättig, K. (1982). Behavioral, emotional and neurochemical profiles of rats selected for extreme differences in active, two-way avoidance performance. In Lieblich, I. (ed.), Genetics of the Brain, Elsevier Biomedical Press, Amsterdam, pp. 95–123.
Driscoll, P., Lieblich, I., and Cohen, E. (1986). Amphetamine-induced stereotypic responses in Roman high-and low-avoidance rats. Pharmacol. Biochem. Behav. 24:1329–1332.
Driscoll, P., Dedek, J., D'Angio, M., Claustre, Y., and Scatton, B.(1990). A genetically-based model for divergent stress responses: behavioral, neurochemical and hormonal aspects.Adv. Anim. Breed. Genet. 5:97–107.
Driscoll, P., Ferré, P., Fernández-Teruel, A., Levi de Stein, M., Wolfman, C., Medina, J., Tobeña, A., and Escorihuela, R.M. (1995). Effects of prenatal diazepam on two-way avoidance behavior, swimming navigation and brain levels of benzodiazepine-like molecules in male Roman high-and low-avoidance rats. Psychopharmacology 122:51–57.
Escorihuela, R. M., Tobeña, A., and Fernández-Teruel, A. (1994a). Environmental enrichment reverses the detrimental action of early inconsistent stimulation and increases the beneficial effects of postnatal handling on shuttlebox learning in adult rats. Behav. Brain Res. 61:169–173.
Escorihuela, R. M., Tobeña, A., and Fernández-Teruel, A. (1994b). L'estimulació infantil. Efectes de l'ambient primerencil'herència sobre l'emotivitat i l'aprenentatge, Servei de Publicacions de la Universitat Autónoma de Barcelona, Barcelona.
Escorihuela, R. M., Tobeña, A., Driscoll, P., and Fernández-Teruel, A. (1995a). Effects of training, early handling and perinatal flumazenil on shuttle box acquisition in Roman low-avoidance rats: Toward overcoming a genetic deficit. Neurosci. Biobehav. Rev. 19:353–367.
Escorihuela, R. M., Tobeña, A., and Fernández-Teruel, A. (1995b). Environmental enrichment and postnatal handling prevent spatial learning deficits in aged hypoemotional (Roman high-avoidance) and hyperemotional (Roman low-avoidance) rats. Learn. Memory 2:40–48.
Escorihuela, R. M., Fernández-Teruel, A., Tobeña, A., Vivas, N.M., Marmol, F., Badia, A., and Dierssen, M. (1995c).Early environmental stimulation produces long-lasting changes on beta-adrenoceptor transduction system. Neurobiol. Learn. Memory 64:49–57.
Fernández-Teruel, A. (1995). Influencing genetic differences in emotional reactivity through environmental manipulations. Paper presented at the Conference Jacques Monod “Genetics, Neurogenetics and Behavior II,” La Londeles-Maures, France.
Fernández-Teruel, A., Escorihuela, R. M., Jiménez, P., and Tobeña, A. (1990). Infantile stimulation and perinatal administration of Ro 15-1788: Additive anxiety-reducing effects in rats. Eur. J. Pharmacol. 191:11–114.
Fernández-Teruel, A., Escorihuela, R. M., Driscoll, P., Tobeña, A., and Bättig, K. (1991a). Infantile (handling) stimulation and behavior in young Roman high-and low-avoidance rats. Physiol. Behav. 50:563–565.
Fernández-Teruel, A., Escorihuela, R. M., Núñez, J. F., Zapata, A., Boix, F., Salazar, W., and Tobeña, A. (1991b). the early acquisition of two-way (shuttle-box) avoidance as an anxiety-mediated behavior: Psychopharmacological validation. Brain Res. Bull. 26:173–176.
Fernández-Teruel, A. Escorihuela, R. M., Núñez, J. F., Gomà, M., Driscoll, P., and Tobeña, A. (1992a). Early stimulation effects on novelty-induced behavior in two psychogenetically-selected rat lines with divergent emotionality profiles. Neurosci. Lett. 137:185–188.
Fernández-Teruel, A., Escorihuela, R. M., Driscoll, P., Tobeña, A.,and Bättig, K. (1992b). Differential effects of early stimulation and/or perinatal flumazenil treatment in young low-and high-avoidance rats. Psychopharmacology 108:170–176.
Fernández-Teruel, A., Driscoll, P., Escorihuela, R. M., Tobeña, A., and Bättig, K. (1993). Postnatal handling, perinatal flumazenil, and adult behavior of the Roman rat lines.Pharmacol. Biochem. Behav. 44:783–789.
Fernández-Teruel, A., Escorihuela, R. M., Driscoll, P., Gil, L., Aguilar, R., and Tobeña, A. (1997). Effects of early experience and pharmacological treatments on stress reactions and novelty seeking in the Roman rat lines. Paper presented at the meeting Stress of Life. Stress and Adaptation from Molecules to Man, Budapest, Hungary.
Ferré, P., Fernández-Teruel, A., Escorihuela, R. M., Driscoll, P., Corda, M. G., Giorgi, O., and Tobeña, A. (1995a).Behavior of the Roman/Verh high-and low-avoidance rat lines in anxiety tests: Relationship with defecation and self-grooming. Physiol. Behav. 58:1209–1213.
Ferré, P., Núñez, J. F., García, E., Tobeña, A., Escorihuela, R.M., and Fernández-Teruel, A. (1995b). Postnatal handling reduces anxiety as measured by emotionality rating and hyponeophagia tests in female rats. Pharmacol. Biochem. Behav. 51:199–203.
Fiala, B. A., Joyce, J. N., and Greenough, W. T. (1978). Environmental complexity modulates growth of granule cells dendrites in developing but not adult hippocampus of rats. Exp. Neurol. 59:372–383.
File, S., and Wardill, A. G. (1975). Validity of head-dipping as a measure of exploration in a modified hole-board.Psychopharmacologia 44:53–59.
Garbanati, J. A., Sherman, G. F., Rosen, G. D., Hofmann, M., Yutzey, D. A., and Denenberg, V. H. (1983). Handling in infancy, brain laterality and muricide in rats. Behav. Brain Res. 7:351–359.
Gentsch, C., Lichtsteiner, M., and Feer, H. (1981). Locomotor activity, defecation score and corticosterone levels during an openfield exposure: A comparison among individually and group-housed rats, and genetically selected rat lines. Physiol. Behav. 27:183–186.
Gentsch, C., Lichtsteiner, M., Driscoll, P., and Feer, H. (1982).Differential hormonal and physiological responses to stress in Roman high-and low-avoidance rats. Physiol. Behav. 28:259–263.
Giorgi, O., Orlandi, M., Escorihuela, R. M., Driscoll, P., Lecca, D., and Corda, M. G. (1994). GABA ergic and dopaminergic transmission in the brain of Roman high-avoidance and Roman low-avoidance rats. Brain Res. 638:133–138.
Giorgi, O., Corda, M. G., Carboni, G., Frau, V., and Di Chiara, G. (1997). Effects of cocaine and morphine in rats from two psychogenetically selected lines: A behavioral and brain dialysis study. Behav. Genet. 27:537–546.
González, B., Castellano, B., Vela, J., Fábregas, P., Dalmau, I., Escorihuela, R. M., Tobeña, A., and Fernández-Teruel, A. (1994). Enrichment and early handling protect againstage-related deficits. A behavioral and histological study in RHA/Verh and RLA/Verh rats. In Coleman, P. D., Mora, F., and Nieto-Sampedro, M. (eds.), Workshop on Deterioration, Stability and Regeneration of the Brain During Normal Aging, Edición Peninsular, Madrid, pp. 61–63.
Greenough, W. T., Whiters, G. S., and Wallace, C. S. (1990). Morphological changes in the nervous system arising from behavioral experience: What is the evidence that they are involved in learning and memory? In Squire, L.R., and Lindenlaub, E. (eds.), The Biology of Memory, Symposia Medica Hoechst 23, Schattauder Verlag, Stuttgart/New York, pp. 159–185.
Griebel, G., Moreau, J.-L., Jenck, F., Martin, J. R., and Misslin, R. (1993). Some critical determinants of the behaviour of rats in the elevated plus-maze. Behav. Proc. 29:37–48.
Haney, M., Castanon, N., Cador, M., Le Moal, M., and Mormède, P. (1994). Cocaine sensitivity in Roman High and Low Avoidance rats is modulated by sex and gonadal hormone status. Brain Res. 645:179–185.
Hargreaves, E. L., Boon, F., and Cain, D. P. (1992). Rats housed in a complex environment exhibit greater hilar LTP than individually housed littermates. Soc. Neurosci. Abstr. 18:344.
Kempermann, G., Kuhn, H. G., and Gage, F. H. (1997). More hippocampal neurons in adult mice living in an enriched environment. Nature 386:493–495.
King, J. A. (1958). Parameters relevant to determining the effects of early experience upon adult behavior of animals.Psychol. Bull. 55:46–58.
Klein, S. L., Lambert, K. G., Durr, D., Schaefer, T., and Waring, R. E. (1994). Influence of environmental enrichment and sex on predator stress response in rats. Physiol. Behav. 56:291–297.
Levine, S. (1957). Infantile experience and resistance to physiological stress. Science 126:405–406.
Levine, S., and Broadhurst, P. L. (1963). Genetic and ontogenetic determinants of adult behavior in the rat. J. Comp. Physiol. Psychol. 56:423–428.
Levine, S., and Wetzel, A. (1963). Infantile experiences, strain differences, and avoidance learning. J. Comp. Physiol. Psychol. 56:879–881.
Levine, S., Haltmeyer, G. C., Karas, G. G., and Denenberg, V.H. (1967). Physiological and behavioral effects of infantile stimulation. Physiol. Behav. 2:55–59.
Lipp, H. P. (1979). Differential hypothalamic self-stimulation behaviour in Roman high-avoidance and low-avoidance rats. Brain Res. Bull. 4:553–559.
Martin, J. R., Oettinger, R., Driscoll, P., Buzzi, R., and Bättig, K. (1982). Effects of chlordiazepoxide and imipramine on maze patrolling within two different maze configurations by psychogenetically selected lines of rats. Psychopharmacology 78:58–62.
Meaney, M. J., Aitken, D. H., Berkel, C., Bhatnagar, S., and Sapolsky, R. (1988). Effects of neonatal handling on age-related impairments associated with the hippocampus. Science 239:766–768.
Meaney, M. J., Mitchell, J. B., Aitken, D. H., Bhatnagar, S., Bodnoff, S. R., Iny, L. J., and Sarrieau, A. (1991). The effects of neonatal handling on the development of the adrenocortical response to stress: Implications for neuropathology and cognitive deficits in later life. Psychoneuroendocrinology 16:85–103.
Mohammed, A. H., Henricksson, B. G., Söderström, S., Ebendal, T., Olsson, T., and Seckl, J. R. (1993). Environmental influences on the central nervous system and their implications for the aging rat. Behav. Brain Res. 57:183–191.
Morris, R. G. M. (1984). Development of a water-maze procedure for studying spatial learning in the rat. J. Neurosci. Methods 11:47–60.
Morris, R. G. M., Garrud, P., Rawlins, J. N. P., and O'Keefe, J. (1982). Place navigation impaired in rats with hippocampal lesions. Nature 24:681–683.
Nil, R., and Bättig, K. (1981). Spontaneous maze ambulation and Hebb-Williams learning in Roman high-avoidance and Roman low-avoidance rats. Behav. Neural Biol. 33:465–475.
Núñez, J. F., Ferré, P., García, E., Escorihuela, R. M., Fernández-Teruel, A., and Tobeña, A. (1995). Postnatal handling reduces emotionality ratings and accelerates two-way active avoidance in female rats. Physiol. Behav. 57:831–835.
Núñez, J. F., Ferré, P., Escorihuela, R. M., Tobeña, A., and Fernández-Teruel, A. (1996). Effects of postnatal handling of rats on emotional, HPA-axis, and prolactin reactivity to novelty and conflict. Physiol. Behav. 60:1355–1359.
Olds, J. L., Anderson, M. L., McPhie, D. L., Staten, L. D., and Alkon, D. L. (1989). Imaging of memory-specific changes in the distribution of protein kinase C in hippocampus. Science 245:866–869.
Paxinos, G. (1986). The Rat Brain in Stereotaxic Coordinates, Academic Press, Sydney.
Paylor, R., Morrison, S. K., Rudy, J. W., Waltrip, L. T., and Wehner, J. M. (1992). Brief exposure to an enriched environment improves performance on the Morris water task and increases hippocampal cytosolic protein kinase C activity in young rats. Behav. Brain Res. 52:49–59.
Pham, T. M., Söderström, S., Henricksson, B. G., and Mohammed, A.H. (1997). Effects of neonatal stimulation on later cognitive function and hippocampal nerve growth factor.Behav. Brain Res. 86:113–120.
Razafimanalina, R., Mormède, P., and Velley, L. (1996). Gustatory preference-aversion profiles for saccharin, quinine and alcohol in Roman high-and low-avoidance lines. Behav. Pharmacol. 7:78–84.
Renner, M. J. (1987). Experience-dependent changes in exploratory behavior in the adult rat (Ratus Norvegicus): Overall activity level and interactions with objects. J. Comp. Psychol. 101:94–100.
Renner, M. J., and Rosenzweig, M. R. (1987). Enriched and Impoverished Environments. Effects on Brain and Behavior, Springer-Verlag, New York.
Roozendaal, B., Wiersma, A., Driscoll, P., Koolhaas, J. M., and Bohus, B. (1992). Vasopressinergic modulation of stress responses in the central amygdala of the Roman high-avoidance and low-avoidance rat. Brain Res. 596:35–40.
Roozendaal, B., Koolhaas, J. M., and Bohus, B. (1993). Post-training norepinephrine infusion into the central amygdale differentially enhances later retention in Roman high-avoidance and low-avoidance rats. Behav. Neurosci. 107:575–579.
Sapolsky, R. M. (1992). Stress, the Aging Brain, and the Mechanisms of Neuron Death, MIT Press, London.
Sara, S. J., Dyon-Laurent, C., and Hervé, A. (1995). Novelty seeking behavior in the rat is dependent upon the integrity of the noradrenergic system. Cogn. Brain Res. 2:181–187.
Sharp, P. E., Barnes, C. A., and McNaughton, B. L. (1987). Effects of aging on environmental modulation of hippocampal evoked responses. Behav. Neurosci. 101:170–178.
Shephard, R. A., and Broadhurst, P. L. (1983). Hyponeophagia in the Roman rat strains: Effects of 5-metoxy-N,N-dimethyltryptamine, diazepam, methysergide and the stereoisomers of propanolol. Eur. J. Pharmacol. 95:177–184.
Siegel, J. (1997). Augmenting and reducing of visual evoked potentials in high-and low-sensation seeking humans, cats, and rats. Behav. Genet. 27:557–564.
Siegel, J., and Driscoll, P. (1996). Recent developments in an animal model of visual evoked potential augmenting/reducing and sensation seeking behavior. Neuropsychobiology 34:130–135.
Steimer, Th., Driscoll, P., and Schulz, P. E. (1997a). Brain metabolism of progesterone, coping behaviour and emotional reactivity in male rats from two psychogenetically selected lines. J. Neuroendocrinol. 9:169–175.
Steimer, Th., La Fleur, S., and Schulz, P. E. (1997b). Neuroendocrine correlates of emotional reactivity and coping in male rats from the Roman high (RHA/Verh)-and low-(RLA/Verh) avoidance lines. Behav. Genet. 27:503–512.
Tobeña, A., Steimer, Th., Escorihuela, R. M., Núñez, J. F., Ferré, P., Driscoll, P., and Fernández-Teruel, A. (1996). Effects of postnatal handling in Sprague-Dawley, Roman high avoidance/Verh and Roman low avoidance/Verh rats. Soc. Neurosci. Abstr. 22:462.
Walker, C. D., Rivest, R. W., Meaney, M. J., and Aubert, M.L. (1989). Differential activation of the pituitary-adrenocortical axis after stress in the rat: Use of two genetically selected lines (Roman low-and high-avoidance rats) as a model. J. Endocrinol. 123:477–485.
Walker, C. D., Aubert, M. L., Meaney, M. J., and Driscoll, P. (1992). Individual differences in the activity of the hypothalamus-pituitary-adrenocortical system after stressors: Use of psychogenetically selected rat lines as a model. In Dríscoll, P. (ed.), Genetically Defined Animal Models of Neurobehavioral Dysfunctions, Birkhäuser, Boston, pp. 276–296.
Walsh, R. N., Budtz-Olsen, O. E., Penny, J. E., and Cummings, R.A. (1969). The effects of environmental complexity on the histology of the rat hippocampus. J. Comp. Neurol. 137:361–366.
Wehner, J. M., Sleight, S., and Upchurch, M. (1990). Hippocampal protein kinase C activity is reduced in poor spatial learners. Brain Res. 523:181–187.
Widman, D. R., and Rosellini, R. A. (1990). Restricted daily exposure to environmental enrichment increases the diversity of exploration. Physiol. Behav. 47:57–62.
Wilcock, J., and Bush, M. A. (1972). Heterosis for punishment-induced inhibition of drinking in laboratory rats. Life Sci. 11:403–412.
Willig, F., M'Harzi, M., Bardelay, C., Viet, D., and Delacour, J. (1991). Roman strains as a psychogenetic model for the study of working memory: Behavioral and biochemical data. Pharmacol. Biochem. Behav. 40:7–16.
Wong, R. (1972). Infantile handling and associative processes of rats. Br. J. Psychol. 63:101–108.
Zeier, H., Bättig, K., and Driscoll, P. (1978). Acquisition of DRL-20 behavior in male and female, Roman high-and low-avoidance rats.Physiol. Behav. 20:791–793.
Zuckerman, M. (1996). The psychobiological model for impulsive unsocialized sensation seeking: A comparative approach.Neuropsychobiology 34:125–129.
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Fernández-Teruel, A., Escorihuela, R.M., Castellano, B. et al. Neonatal Handling and Environmental Enrichment Effects on Emotionality, Novelty/Reward Seeking, and Age-Related Cognitive and Hippocampal Impairments: Focus on the Roman Rat Lines. Behav Genet 27, 513–526 (1997). https://doi.org/10.1023/A:1021400830503
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DOI: https://doi.org/10.1023/A:1021400830503