N. Mcnaughton and P. J. Corr, A two-dimensional neuropsychology of defense: fear/ anxiety and defensive distance, Neurosci Biobehav Rev, vol.28, pp.285-305, 2004.

J. D. Schmahmann, J. B. Weilburg, and J. C. Sherman, The neuropsychiatry of the cerebellum -insights from the clinic, Cerebellum, vol.6, pp.254-67, 2007.

D. J. Schutter and J. Van-honk, The cerebellum on the rise in human emotion, Cerebellum, vol.4, pp.290-294, 2005.

B. M. Turner, S. Paradiso, C. L. Marvel, R. Pierson, L. L. Boles-ponto et al., The cerebellum and emotional experience, Neuropsychologia, vol.45, pp.1331-1372, 2007.

J. D. Schmahmann and J. C. Sherman, The cerebellar cognitive affective syndrome, Brain, vol.121, pp.561-79, 1998.

C. M. Liszewski, E. O'hearn, I. Leroi, L. Gourley, C. A. Ross et al., Cognitive impairment and psychiatric symptoms in 133 patients with diseases associated with cerebellar degeneration, J Neuropsychiatry Clin Neurosci, vol.16, pp.109-121, 2004.

B. Sacchetti, T. Sacco, and P. Strata, Reversible inactivation of amygdala and cerebellum but not perirhinal cortex impairs reactivated fear memories, Eur J Neurosci, vol.25, pp.2875-84, 2007.

P. Hilber, T. Lorivel, C. Delarue, and J. Caston, Stress and anxious-related behaviors in Lurcher mutant mice, Brain Res, vol.1003, pp.108-120, 2004.
URL : https://hal.archives-ouvertes.fr/hal-02355845

T. Lorivel and P. Hilber, Effects of chlordiazepoxide on the emotional reactivity and motor capacities in the cerebellar Lurcher mutant mice, Behav Brain Res, vol.173, pp.122-130, 2006.
URL : https://hal.archives-ouvertes.fr/hal-02355825

J. Zuo, D. Jager, P. L. Takahashi, K. A. Jiang, W. Linden et al., Neurodegeneration in Lurcher mice caused by mutation in delta2 glutamate receptor gene, Nature, vol.388, pp.769-73, 1997.

F. Selimi, M. Doughty, N. Delhaye-bouchaud, and J. Mariani, Target-related and intrinsic neuronal death in Lurcher mutant mice are both mediated by caspase-3 activation, J Neurosci, vol.20, pp.992-1000, 2000.

K. W. Caddy and T. J. Biscoe, Structural and quantitative studies on the normal C3H and Lurcher mutant mouse, Philos Trans R Soc Lond B Biol Sci, vol.287, pp.167-201, 1979.

J. A. Heckroth and L. M. Eisenman, Olivary morphology and olivocerebellar topography in adult Lurcher mutant mice, J Comp Neurol, vol.312, pp.641-51, 1991.

E. Fernandez-espejo, Structure of the mouse behaviour on the elevated plus-maze test of anxiety, Behav Brain Res, vol.86, pp.105-117, 1997.

C. Monnier and R. Lalonde, Elevated (+)-maze and hole-board exploration in Lurcher mutant mice, Brain Res, vol.702, pp.169-72, 1995.

F. Frederic, T. Chautard, R. Brochard, C. Chianale, E. Wollman et al., Enhanced endocrine response to novel environment stress and endotoxin in Lurcher mutant mice, Neuroendocrinology, vol.66, pp.341-348, 1997.

J. M. Pego, P. Morgado, L. G. Pinto, J. J. Cerqueira, O. F. Almeida et al., Dissociation of the morphological correlates of stress-induced anxiety and fear, Eur J Neurosci, vol.27, pp.1503-1519, 2008.

J. A. Gray and N. Mcnaughton, The neuropsychology of anxiety, p.240, 2000.

G. P. Chrousos and P. W. Gold, The concepts of stress and stress system disorders. Overview of physical and behavioral homeostasis, Jama, vol.267, pp.1244-52, 1992.

C. Sandi and S. P. Rose, Corticosteroid receptor antagonists are amnestic for passive avoidance learning in day-old chicks, Eur J Neurosci, vol.6, pp.1292-1299, 1994.

C. Sandi and S. P. Rose, Corticosterone enhances long-term retention in one-day-old chicks trained in a weak passive avoidance learning paradigm, Brain Res, vol.647, pp.106-118, 1994.

G. L. Kovacs, G. Teledgdy, and K. Lissak, 5-Hydroxytryptamine and the mediation of pituitary-adrenocortical hormones in the extinction of active avoidance behaviour, Psychoneuroendocrinology, vol.1, pp.219-249, 1976.

L. K. Takahashi, Organizing action of corticosterone on the development of behavioral inhibition in the preweanling rat, Brain Res Dev Brain Res, vol.81, pp.121-128, 1994.

L. K. Takahashi, Stimulus control of behavioral inhibition in the preweanling rat, Physiol Behav, vol.55, pp.717-738, 1994.

L. K. Takahashi, Glucocorticoids, the hippocampus, and behavioral inhibition in the preweanling rat, J Neurosci, vol.15, pp.6023-6057, 1995.

S. M. Korte, Corticosteroids in relation to fear, anxiety and psychopathology, Neurosci Biobehav Rev, vol.25, pp.117-159, 2001.

M. Orchinik, T. F. Murray, P. H. Franklin, and F. L. Moore, Guanyl nucleotides modulate binding to steroid receptors in neuronal membranes, Proc Natl Acad Sci, vol.89, pp.3830-3834, 1992.

M. Orchinik, T. F. Murray, and F. L. Moore, A corticosteroid receptor in neuronal membranes, Science, vol.252, pp.1848-51, 1991.

B. Roozendaal, B. Bohus, and J. L. Mcgaugh, Dose-dependent suppression of adrenocortical activity with metyrapone: effects on emotion and memory, Psychoneuroendocrinology, vol.21, pp.681-93, 1996.

N. Calvo, I. D. Martijena, V. A. Molina, and M. Volosin, Metyrapone pretreatment prevents the behavioral and neurochemical sequelae induced by stress, Brain Res, vol.800, pp.227-262, 1998.

R. J. Rodgers and N. J. Johnson, Factor analysis of spatiotemporal and ethological measures in the murine elevated plus-maze test of anxiety, Pharmacol Biochem Behav, vol.52, pp.297-303, 1995.

E. B. Ottoni, EthoLog 2.2: a tool for the transcription and timing of behavior observation sessions, Behav Res Meth Instrum Comput, vol.32, pp.446-455, 2000.

F. Leboulenger, C. Delarue, A. Belanger, I. Perroteau, P. Netchitailo et al., Direct radioimmunoassay for plasma corticosterone and aldosterone in frog. I. Validation of the methods and evidence for daily rhythms in a natural environment, Gen Comp Endocrinol, vol.46, pp.521-553, 1982.

A. A. Walf and C. A. Frye, The use of the elevated plus maze as an assay of anxiety-related behavior in rodents, Nat Protoc, vol.2, pp.322-330, 2007.

A. P. Cruz, F. Frei, and F. G. Graeff, Ethopharmacological analysis of rat behavior on the elevated plus-maze, Pharmacol Biochem Behav, vol.49, pp.171-177, 1994.

S. E. File, Experimental approaches to anxiety and depression, Elliott JM, Heal DJ, pp.25-44, 1992.

R. G. Lister, Ethologically-based animal models of anxiety disorders, Pharmacol Ther, vol.46, pp.321-361, 1990.

F. Frederic, C. Chianale, C. Oliver, and J. Mariani, Enhanced endocrine response to novel environment stress and lack of corticosterone circadian rhythm in staggerer (Rora sg/sg) mutant mice, J Neurosci Res, vol.83, pp.1525-1557, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00083096

R. Misslin, M. Cigrand, and J. M. Guastavino, Responses to novelty in staggerer mutant mice, Behav Process, vol.12, pp.51-57, 1986.

E. Mikics, B. Barsy, B. Barsvari, and J. Haller, Behavioral specificity of non-genomic glucocorticoid effects in rats: effects on risk assessment in the elevated plus-maze and the open-field, Horm Behav, vol.48, pp.152-62, 2005.

R. J. Rodgers and A. Dalvi, Anxiety, defence and the elevated plus-maze, Neurosci Biobehav Rev, vol.21, pp.801-811, 1997.

R. J. Rodgers, J. Haller, A. Holmes, J. Halasz, T. J. Walton et al., Corticosterone response to the plus-maze: high correlation with risk assessment in rats and mice, Physiol Behav, vol.68, pp.47-53, 1999.

H. Tezval, O. Jahn, C. Todorovic, A. Sasse, K. Eckart et al., Cortagine, a specific agonist of corticotropin-releasing factor receptor subtype 1, is anxiogenic and antidepressive in the mouse model, Proc Natl Acad Sci U S A, vol.101, pp.9468-73, 2004.

J. L. Moreau, G. Kilpatrick, and F. Jenck, Urocortin, a novel neuropeptide with anxiogeniclike properties, NeuroReport, vol.8, pp.1697-701, 1997.

S. C. Heinrichs, D. Souza, E. B. Schulteis, G. Lapsansky, J. L. Grigoriadis et al., Brain penetrance, receptor occupancy and antistress in vivo efficacy of a small molecule corticotropin releasing factor type I receptor selective antagonist, Neuropsychopharmacology, vol.27, pp.194-202, 2002.

G. N. Smagin, S. C. Heinrichs, and A. J. Dunn, The role of CRH in behavioral responses to stress, Peptides, vol.22, pp.713-737, 2001.

S. E. File and S. V. Vellucci, Studies on the role of ACTH and of 5-HT in anxiety, using an animal model, J Pharm Pharmacol, vol.30, pp.105-115, 1978.

R. Andreatini and J. R. Leite, The effect of corticosterone in rats submitted to the elevated plus-maze and to pentylenetetrazol-induced convulsions, Prog Neuropsychopharmacol Biol Psychiatry, vol.18, pp.1333-1380, 1994.

J. W. Mcblane and S. L. Handley, Effects of two stressors on behaviour in the elevated Xmaze: preliminary investigation of their interaction with 8-OH-DPAT, Psychopharmacology (Berl), vol.116, pp.173-82, 1994.

J. W. Smythe, D. Murphy, C. Timothy, and B. Costall, Hippocampal mineralocorticoid, but not glucocorticoid, receptors modulate anxiety-like behavior in rats, Pharmacol Biochem Behav, vol.56, pp.507-520, 1997.

D. E. Haines, E. Dietrichs, and T. E. Sowa, Hypothalamo-cerebellar and cerebellohypothalamic pathways: a review and hypothesis concerning cerebellar circuits which may influence autonomic centers' affective behavior, Brain Behav Evol, vol.24, pp.198-220, 1984.

D. E. Haines, E. Dietrichs, G. A. Mihailoff, and E. F. Mcdonald, The cerebellar-hypothalamic axis: basic circuits and clinical observations, Int Rev Neurobiol, vol.41, pp.83-107, 1997.

F. Onat and S. Cavdar, Cerebellar connections: hypothalamus, Cerebellum, vol.2, pp.263-272, 2003.

P. P. Newman and H. Reza, Functional relationships between the hippocampus and the cerebellum: an electrophysiological study of the cat, J Physiol, vol.287, pp.405-431, 1979.

R. G. Heath, C. W. Dempesy, C. J. Fontana, and A. T. Fitzjarrell, Feedback loop between cerebellum and septal-hippocampal sites: its role in emotion and epilepsy, Biol Psychiatry, vol.15, pp.541-56, 1980.

R. G. Heath, C. W. Dempesy, C. J. Fontana, and W. A. Myers, Cerebellar stimulation: effects on septal region, hippocampus, and amygdala of cats and rats, Biol Psychiatry, vol.13, pp.501-530, 1978.

G. G. Berntson and M. W. Torello, The paleocerebellum and the integration of behavioral function, Physiol Psychol, vol.10, pp.2-12, 1982.

C. Strazielle, P. Kremarik, J. F. Ghersi-egea, and R. Lalonde, Regional brain variations of cytochrome oxidase activity and motor coordination in Lurcher mutant mice, Exp Brain Res, vol.121, pp.35-45, 1998.

T. A. Reader, C. Strazielle, M. I. Botez, and R. Lalonde, Brain dopamine and amino acid concentrations in Lurcher mutant mice, Brain Res Bull, vol.45, pp.489-93, 1998.