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Referencias:

• Lucassen, P.J., Heine, V.M., Muller, M.B., van der Beek, E.M., Wiegant, V.M., De Kloet, E.R., Joels, M., Czeh, B., Stress, depression and hippocampal apoptosis (2006) CNS Neurol. Disord. Drug Targets, 5 (5), pp. 531-546
• Kalsbeek, A., van der Spek, R., Lei, J., Endert, E., Buijs, R.M., Fliers, E., Circadian rhythms in the hypothalamo-pituitary-adrenal (HPA) axis (2012) Mol. Cell. Endocrinol., 349 (1), pp. 20-29
• Young, E.A., Abelson, J., Lightman, S.L., Cortisol pulsatility and its role in stress regulation and health (2004) Front. Neuroendocrinol., 25 (2), pp. 69-76
• Spat, A., Hunyady, L., Control of aldosterone secretion: A model for convergence in cellular signaling pathways (2004) Physiol. Rev., 84 (2), pp. 489-539
• Hilfenhaus, M., Circadian rhythm of the renin-angiotensinaldosterone system in the rat (1976) Arch. Toxicol., 36 (3-4), pp. 305-316
• Gomez-Sanchez, E.P., Intracerebroventricular infusion of aldosterone induces hypertension in rats (1986) Endocrinology, 118 (2), pp. 819-823
• Gomez-Sanchez, E.P., Venkataraman, M.T., Thwaites, D., Fort, C., ICV infusion of corticosterone antagonizes ICV-aldosterone hypertension (1990) Am. J. Physiol., 258 (4 Pt 1), pp. E649-E653
• Gomez-Sanchez, E.P., Mineralocorticoid receptors in the brain and cardiovascular regulation: Minority rule? (2011) Trends Endocrinol. Metab., 22 (5), pp. 179-187
• Kim, J.J., Lee, H.J., Han, J.S., Packard, M.G., Amygdala is critical for stress-induced modulation of hippocampal long-term potentiation and learning (2001) J. Neurosci., 21 (14), pp. 5222-5228
• Meijer, O.C., Van Oosten, R.V., De Kloet, E.R., Elevated basal trough levels of corticosterone suppress hippocampal 5-hydroxytryptamine (1A) receptor expression in adrenally intact rats: Implication for the pathogenesis of depression (1997) Neuroscience, 80 (2), pp. 419-426
• Brooke, S.M., Howard, S.A., Sapolsky, R.M., Energy dependency of glucocorticoid exacerbation of gp120 neurotoxicity (1998) J. Neurochem., 71 (3), pp. 1187-1193
• Coughlan, C.M., Seckl, J.R., Fox, D.J., Unsworth, R., Breen, K.C., Tissue-specific regulation of sialyltransferase activities in the rat by corticosteroids in vivo (1996) Glycobiology, 6 (1), pp. 15-22
• Sapolsky, R.M., Glucocorticoids and hippocampal atrophy in neuropsychiatric disorders (2000) Arch. Gen. Psychiatry, 57 (10), pp. 925-935
• Sapolsky, R.M., Glucocorticoids, stress, and their adverse neurological effects: Relevance to aging (1999) Exp. Gerontol., 34 (6), pp. 721-732
• Budas, G., Coughlan, C.M., Seckl, J.R., Breen, K.C., The effect of corticosteroids on amyloid beta precursor protein/amyloid precursor-like protein expression and processing in vivo (1999) Neurosci. Lett., 276 (1), pp. 61-64
• Welberg, L.A., Seckl, J.R., Prenatal stress, glucocorticoids and the programming of the brain (2001) J. Neuroendocrinol., 13 (2), pp. 113-128
• Reul, J.M., de Kloet, E.R., Two receptor systems for corticosterone in rat brain: Microdistribution and differential occupation (1985) Endocrinology, 117 (6), pp. 2505-2511
• Reul, J.M., van den Bosch, F.R., de Kloet, E.R., Relative occupation of type-I and type-II corticosteroid receptors in rat brain following stress and dexamethasone treatment: Functional implications (1987) J. Endocrinol., 115 (3), pp. 459-467
• Evans, R.M., The steroid and thyroid hormone receptor superfamily (1988) Science, 240 (4854), pp. 889-895
• Escriva, H., Bertrand, S., Laudet, V., The evolution of the nuclear receptor superfamily (2004) Essays Biochem., 40, pp. 11-26
• Baker, M.E., Steroid receptor phylogeny and vertebrate origins (1997) Mol. Cell Endocrinol., 135 (2), pp. 101-107
• Wendelaar Bonga, S.E., The stress response in fish (1997) Physiol. Rev., 77 (3), pp. 591-625
• Baker, M.E., Adrenal and sex steroid receptor evolution: Environmental implications (2001) J. Mol. Endocrinol., 26 (2), pp. 119-125
• Thornton, J.W., Evolution of vertebrate steroid receptors from an ancestral estrogen receptor by ligand exploitation and serial genome expansions (2001) Proc. Natl. Acad. Sci. USA, 98 (10), pp. 5671-5676
• Bridgham, J.T., Carroll, S.M., Thornton, J.W., Evolution of hormone-receptor complexity by molecular exploitation (2006) Science, 312 (5770), pp. 97-101
• Thornton, J.W., Resurrecting ancient genes: Experimental analysis of extinct molecules (2004) Nat. Rev. Genet., 5 (5), pp. 366-375
• Baker, M.E., Origin and diversification of steroids: Co-evolution of enzymes and nuclear receptors (2011) Mol. Cell Endocrinol., 334 (1-2), pp. 14-20
• Funder, J.W., Pearce, P.T., Smith, R., Smith, A.I., Mineralocorticoid action: Target tissue specificity is enzyme, not receptor, mediated (1988) Science, 242 (4878), pp. 583-585
• De Kloet, E.R., Versteeg, D.H., Kovacs, G.L., Aldosterone blocks the response to corticosterone in the raphe-hippocampal serotonin system (1983) Brain Res., 264 (2), pp. 323-327
• Ulick, S., Wang, J.Z., Blumenfeld, J.D., Pickering, T.G., Cortisol inactivation overload: A mechanism of mineralocorticoid hypertension in the ectopic adrenocorticotropin syndrome (1992) J. Clin. Endocrinol. Metab., 74 (5), pp. 963-967
• Galigniana, M.D., Echeverria, P.C., Erlejman, A.G., Piwien-Pilipuk, G., Role of molecular chaperones and TPR-domain proteins in the cytoplasmic transport of steroid receptors and their passage through the nuclear pore (2010) Nucleus, 1 (4), pp. 299-308
• Galigniana, M.D., Erlejman, A.G., Monte, M., Gomez-Sanchez, C., Piwien-Pilipuk, G., The hsp90-FKBP52 complex links the mineralocorticoid receptor to motor proteins and persists bound to the receptor in early nuclear events (2010) Mol. Cell Biol., 30 (5), pp. 1285-1298
• Li, H., Rao, A., Hogan, P.G., Interaction of calcineurin with substrates and targeting proteins (2011) Trends Cell Biol., 21 (2), pp. 91-103
• Gallo, L.I., Ghini, A.A., Piwien Pilipuk, G., Galigniana, M.D., Differential recruitment of tetratricorpeptide repeat domain immunophilins to the mineralocorticoid receptor influences both heat-shock protein 90-dependent retrotransport and hormonedependent transcriptional activity (2007) Biochemistry, 46 (49), pp. 14044-14057
• Piwien Pilipuk, G., Vinson, G.P., Sanchez, C.G., Galigniana, M.D., Evidence for NL1-independent nuclear translocation of the mineralocorticoid receptor (2007) Biochemistry, 46 (5), pp. 1389-1397
• Galigniana, M.D., Steroid receptor coupling becomes nuclear (2012) Chem. Biol., 19 (6), pp. 662-663
• Grossman, E., Voichanski, S., Grossman, C., Leibowitz, A., The association between orthostatic hypotension and nocturnal blood pressure may explain the risk for heart failure (2012) Hypertension, 60 (1), pp. e1. , author replty e2
• Robertson, N.M., Schulman, G., Karnik, S., Alnemri, E., Litwack, G., Demonstration of nuclear translocation of the mineralocorticoid receptor (MR) using an anti-MR antibody and confocal laser scanning microscopy (1993) Mol. Endocrinol., 7 (9), pp. 1226-1239
• Pratt, W.B., Galigniana, M.D., Harrell, J.M., DeFranco, D.B., Role of hsp90 and the hsp90-binding immunophilins in signalling protein movement (2004) Cell Signal., 16 (8), pp. 857-872
• Echeverria, P.C., Mazaira, G., Erlejman, A., Gomez-Sanchez, C., Piwien Pilipuk, G., Galigniana, M.D., Nuclear import of the glucocorticoid receptor-hsp90 complex through the nuclear pore complex is mediated by its interaction with Nup62 and importin beta (2009) Mol. Cell Biol., 29 (17), pp. 4788-4797
• Grossmann, C., Ruhs, S., Langenbruch, L., Mildenberger, S., Stratz, N., Schumann, K., Gekle, M., Nuclear shuttling precedes dimerization in mineralocorticoid receptor signaling (2012) Chem. Biol., 19 (6), pp. 742-751
• Presman, D.M., Alvarez, L.D., Levi, V., Eduardo, S., Digman, M.A., Marti, M.A., Veleiro, A.S., Pecci, A., Insights on glucocorticoid receptor activity modulation through the binding of rigid steroids (2010) PLoS One, 5 (10), pp. e13279
• Segard-Maurel, I., Rajkowski, K., Jibard, N., Schweizer-Groyer, G., Baulieu, E.E., Cadepond, F., Glucocorticosteroid receptor dimerization investigated by analysis of receptor binding to glucocorticosteroid responsive elements using a monomer-dimer equilibrium model (1996) Biochemistry, 35 (5), pp. 1634-1642
• Tsai, M.J., O'Malley, B.W., Molecular mechanisms of action of steroid/thyroid receptor superfamily members (1994) Annu. Rev. Biochem., 63, pp. 451-486
• Birmingham, M.K., Stumpf, W.E., Sar, M., Nuclear localization of aldosterone in rat brain cells assessed by autoradiography (1979) Experientia, 35 (9), pp. 1240-1241
• Stumpf, W.E., Sar, M., Glucocorticosteroids and mineralocorticosteroid hormone target sites in the brain. Autoradiographic studies with corticosterone, aldosterone, deoxycorticosterone: In interaction within the brain-pituitaryadrenocortical system (1979) Within the Brain-Pituitary-Adrenocortical System, pp. 137-147. , In: Lones, MT.; Gillham, B.; Dallman, MF.; Chattopadhyay, S. Eds., Academic Press; London
• Lassman, M.N., Mulrow, P.J., Deficiency of deoxycorticosteronebinding protein in the hypothalamus of rats resistant to deoxycorticosterone-induced hypertension (1974) Endocrinology, 94 (6), pp. 1541-1546
• Oki, K., Gomez-Sanchez, E.P., Gomez-Sanchez, C.E., Role of mineralocorticoid action in the brain in salt-sensitive hypertension (2012) Clin. Exp. Pharmacol. Physiol., 39 (1), pp. 90-95
• Fujita, T., Mineralocorticoid receptors, salt-sensitive hypertension, and metabolic syndrome (2010) Hypertension, 55 (4), pp. 813-818
• Brody, M.J., Varner, K.J., Vasquez, E.C., Lewis, S.J., Central nervous system and the pathogenesis of hypertension. Sites and mechanisms (1991) Hypertension, 18 (5 SUPPL.), pp. III7-III12
• Gomez-Sanchez, E.P., Brain mineralocorticoid receptors: Orchestrators of hypertension and end-organ disease (2004) Curr. Opin. Nephrol. Hypertens., 13 (2), pp. 191-196
• Amin, M.S., Wang, H.W., Reza, E., Whitman, S.C., Tuana, B.S., Leenen, F.H., Distribution of epithelial sodium channels and mineralocorticoid receptors in cardiovascular regulatory centers in rat brain (2005) Am. J. Physiol. Regul. Integr. Comp. Physiol., 289 (6), pp. R1787-R1797
• Leenen, F.H., The central role of the brain aldosterone-"ouabain" pathway in salt-sensitive hypertension (2010) Biochim. Biophys. Acta, 1802 (12), pp. 1132-1139
• Felder, R.B., Mineralocorticoid receptors, inflammation and sympathetic drive in a rat model of systolic heart failure (2010) Exp. Physiol., 95 (1), pp. 19-25
• Francis, J., Weiss, R.M., Johnson, A.K., Felder, R.B., Central mineralocorticoid receptor blockade decreases plasma TNF-alpha after coronary artery ligation in rats (2003) Am. J. Physiol. Regul. Integr. Comp. Physiol., 284 (2), pp. R328-R335
• Kang, Y.M., Zhang, Z.H., Johnson, R.F., Yu, Y., Beltz, T., Johnson, A.K., Weiss, R.M., Felder, R.B., Novel effect of mineralocorticoid receptor antagonism to reduce proinflammatory cytokines and hypothalamic activation in rats with ischemiainduced heart failure (2006) Circ. Res., 99 (7), pp. 758-766
• Zhang, Z.H., Wei, S.G., Francis, J., Felder, R.B., Cardiovascular and renal sympathetic activation by blood-borne TNF-alpha in rat: The role of central prostaglandins (2003) Am. J. Physiol. Regul. Integr. Comp. Physiol., 284 (4), pp. R916-R927
• Burton, G., Galigniana, M., De Lavallaz, S., Brachet-Cota, A.L., Sproviero, E.M., Ghini, A.A., Lantos, C.P., Damasco, M.C., Sodium-retaining activity of some natural and synthetic 21-deoxysteroids (1995) Mol. Pharmacol., 47 (3), pp. 535-543
• Piwien-Pilipuk, G., Kanelakis, K.C., Galigniana, M.D., Correlation between pregnanesteroid conformation, receptor affinity, and antinatriuretic effect (2002) Eur. J. Pharmacol., 454 (2-3), pp. 131-143
• Galigniana, M.D., Piwien Pilipuk, G., Kanelakis, K.C., Burton, G., Lantos, C.P., Molecular mechanism of activation and nuclear translocation of the mineralocorticoid receptor upon binding of pregnanesteroids (2004) Mol. Cell Endocrinol., 217 (1-2), pp. 167-179
• Morris, D.J., Souness, G.W., Brem, A.S., Oblin, M.E., Interactions of mineralocorticoids and glucocorticoids in epithelial target tissues (2000) Kidney Int., 57 (4), pp. 1370-1373
• Brookes, J.C., Galigniana, M.D., Harker, A.H., Stoneham, A.M., Vinson, G.P., System among the corticosteroids: Specificity and molecular dynamics (2012) J.R. Soc. Interface, 9 (66), pp. 43-53
• De Kloet, E.R., Hormones and the stressed brain (2004) Ann. NY Acad. Sci., 1018, pp. 1-15
• Funder, J., Myles, K., Exclusion of corticosterone from epithelial mineralocorticoid receptors is insufficient for selectivity of aldosterone action: In vivo binding studies (1996) Endocrinology, 137 (12), pp. 5264-5268
• Fuller, P.J., Young, M.J., Mechanisms of mineralocorticoid action (2005) Hypertension, 46 (6), pp. 1227-1235
• Funder, J.W., Aldosterone and mineralocorticoid receptors: A personal reflection (2012) Mol. Cell Endocrinol., 350 (2), pp. 146-150
• Fuller, P.J., Yao, Y., Yang, J., Young, M.J., Mechanisms of ligand specificity of the mineralocorticoid receptor (2012) J. Endocrinol., 213 (1), pp. 15-24
• Geerling, J.C., Loewy, A.D., Aldosterone in the brain (2009) Am. J. Physiol. Renal Physiol., 297 (3), pp. F559-F576
• Liu, W., Wang, J., Sauter, N.K., Pearce, D., Steroid receptor heterodimerization demonstrated in vitro and in vivo (1995) Proc. Natl. Acad. Sci. USA, 92 (26), pp. 12480-12484
• Kolla, V., Litwack, G., Inhibition of mineralocorticoid-mediated transcription by NF-kappaB (2000) Arch. Biochem. Biophys., 383 (1), pp. 38-45
• Kitagawa, H., Yanagisawa, J., Fuse, H., Ogawa, S., Yogiashi, Y., Okuno, A., Nagasawa, H., Kato, S., Ligand-selective potentiation of rat mineralocorticoid receptor activation function 1 by a CBP-containing histone acetyltransferase complex (2002) Mol. Cell Biol., 22 (11), pp. 3698-3706
• Piwien-Pilipuk, G., Kanelakis, K.C., Ghini, A.A., Lantos, C.P., Litwack, G., Burton, G., Galigniana, M.D., Modification of an essential amino group in the mineralocorticoid receptor evidences a differential conformational change of the receptor protein upon binding of antagonists, natural agonists and the synthetic agonist 11, 19-oxidoprogesterone (2002) Biochim. Biophys. Acta, 1589 (1), pp. 31-48
• Yang, J., Chang, C.Y., Safi, R., Morgan, J., McDonnell, D.P., Fuller, P.J., Clyne, C.D., Young, M.J., Identification of ligandselective peptide antagonists of the mineralocorticoid receptor using phage display (2011) Mol. Endocrinol., 25 (1), pp. 32-43
• Dooley, R., Harvey, B.J., Thomas, W., Non-genomic actions of aldosterone: From receptors and signals to membrane targets (2012) Mol. Cell Endocrinol., 350 (2), pp. 223-234
• Harvey, B.J., Higgins, M., Nongenomic effects of aldosterone on Ca2+ in M-1 cortical collecting duct cells (2000) Kidney Int., 57 (4), pp. 1395-1403
• Wehling, M., Ulsenheimer, A., Schneider, M., Neylon, C., Christ, M., Rapid effects of aldosterone on free intracellular calcium in vascular smooth muscle and endothelial cells: Subcellular localization of calcium elevations by single cell imaging (1994) Biochem. Biophys. Res. Commun., 204 (2), pp. 475-481
• Maggio, N., Segal, M., Cellular basis of a rapid effect of mineralocorticosteroid receptors activation on LTP in ventral hippocampal slices (2012) Hippocampus, 22 (2), pp. 267-275
• Prager, E.M., Brielmaier, J., Bergstrom, H.C., McGuire, J., Johnson, L.R., Localization of mineralocorticoid receptors at mammalian synapses (2010) PLoS One, 5 (12), pp. e14344
• Prager, E.M., Johnson, L.R., Stress at the synapse: Signal transduction mechanisms of adrenal steroids at neuronal membranes (2009) Sci. Signal., 2 (86), pp. re5
• Gomez-Sanchez, C.E., de Rodriguez, A.F., Romero, D.G., Estess, J., Warden, M.P., Gomez-Sanchez, M.T., Gomez-Sanchez, E.P., Development of a panel of monoclonal antibodies against the mineralocorticoid receptor (2006) Endocrinology, 147 (3), pp. 1343-1348
• Yongue, B.G., Roy, E.J., Endogenous aldosterone and corticosterone in brain cell nuclei of adrenal-intact rats: Regional distribution and effects of physiological variations in serum steroids (1987) Brain Res., 436 (1), pp. 49-61
• Uhr, M., Holsboer, F., Muller, M.B., Penetration of endogenous steroid hormones corticosterone, cortisol, aldosterone and progesterone into the brain is enhanced in mice deficient for both mdr1a and mdr1b P-glycoproteins (2002) J. Neuroendocrinol., 14 (9), pp. 753-759
• Parker, R.B., Yates, C.R., Laizure, S.C., Weber, K.T., Pglycoprotein modulates aldosterone plasma disposition and tissue uptake (2006) J. Cardiovasc. Pharmacol., 47 (1), pp. 55-59
• Coirini, H., Magarinos, A.M., De Nicola, A.F., Rainbow, T.C., McEwen, B.S., Further studies of brain aldosterone binding sites employing new mineralocorticoid and glucocorticoid receptor markers in vitro (1985) Brain Res., 361 (1-2), pp. 212-216
• Krozowski, Z.S., Funder, J.W., Renal mineralocorticoid receptors and hippocampal corticosterone-binding species have identical intrinsic steroid specificity (1983) Proc. Natl. Acad. Sci. USA, 80 (19), pp. 6056-6060
• Mellon, S.H., Neurosteroids: Biochemistry, modes of action, and clinical relevance (1994) J. Clin. Endocrinol. Metab., 78 (5), pp. 1003-1008
• Gomez-Sanchez, C.E., Zhou, M.Y., Cozza, E.N., Morita, H., Foecking, M.F., Gomez-Sanchez, E.P., Aldosterone biosynthesis in the rat brain (1997) Endocrinology, 138 (8), pp. 3369-3373
• Yu, L., Romero, D.G., Gomez-Sanchez, C.E., Gomez-Sanchez, E.P., Steroidogenic enzyme gene expression in the human brain (2002) Mol. Cell Endocrinol., 190 (1-2), pp. 9-17
• Gomez-Sanchez, C.E., Zhou, M.Y., Cozza, E.N., Morita, H., Eddleman, F.C., Gomez-Sanchez, E.P., Corticosteroid synthesis in the central nervous system (1996) Endocr. Res., 22 (4), pp. 463-470
• Gomez-Sanchez, E.P., Ahmad, N., Romero, D.G., Gomez-Sanchez, C.E., Is aldosterone synthesized within the rat brain? (2005) Am. J. Physiol. Endocrinol. Metab., 288 (2), pp. E342-E346
• Yehuda, R., Status of glucocorticoid alterations in post-traumatic stress disorder (2009) Ann. NY Acad. Sci., 1179, pp. 56-69
• McEwen, B.S., Central effects of stress hormones in health and disease: Understanding the protective and damaging effects of stress and stress mediators (2008) Eur. J. Pharmacol., 583 (2-3), pp. 174-185
• Galigniana, N.M., Ballmer, L.T., Toneatto, J., Erlejman, A.G., Lagadari, M., Galigniana, M.D., Regulation of the glucocorticoid response to stress-related disorders by the Hsp90-binding immunophilin FKBP51 (2012) J. Neurochem., 122 (1), pp. 4-18
• Nestler, E.J., Barrot, M., DiLeone, R.J., Eisch, A.J., Gold, S.J., Monteggia, L.M., Neurobiology of depression (2002) Neuron, 34 (1), pp. 13-25
• Tamura, M., Sajo, M., Kakita, A., Matsuki, N., Koyama, R., Prenatal stress inhibits neuronal maturation through downregulation of mineralocorticoid receptors (2011) J. Neurosci., 31 (32), pp. 11505-11514
• Seckl, J.R., Prenatal glucocorticoids and long-term programming (2004) Eur. J. Endocrinol., 151 (SUPPL. 3), pp. U49-U62
• Davis, E.P., Sandman, C.A., The timing of prenatal exposure to maternal cortisol and psychosocial stress is associated with human infant cognitive development (2010) Child. Dev., 81 (1), pp. 131-148
• Hugin-Flores, M.E., Steimer, T., Aubert, M.L., Schulz, P., Mineralo-and glucocorticoid receptor mrnas are differently regulated by corticosterone in the rat hippocampus and anterior pituitary (2004) Neuroendocrinology, 79 (4), pp. 174-184
• Buss, C., Davis, E.P., Shahbaba, B., Pruessner, J.C., Head, K., Sandman, C.A., Maternal cortisol over the course of pregnancy and subsequent child amygdala and hippocampus volumes and affective problems (2012) Proc. Natl. Acad. Sci. USA, 109 (20), pp. E1312-E1319
• Klemcke, H.G., Placental metabolism of cortisol at mid-and late gestation in swine (1995) Biol. Reprod., 53 (6), pp. 1293-1301
• Gitau, R., Fisk, N.M., Teixeira, J.M., Cameron, A., Glover, V., Fetal hypothalamic-pituitary-adrenal stress responses to invasive procedures are independent of maternal responses (2001) J. Clin. Endocrinol. Metab., 86 (1), pp. 104-109
• Gitau, R., Cameron, A., Fisk, N.M., Glover, V., Fetal exposure to maternal cortisol (1998) Lancet, 352 (9129), pp. 707-708
• Sun, K., Adamson, S.L., Yang, K., Challis, J.R., Interconversion of cortisol and cortisone by 11beta-hydroxysteroid dehydrogenases type 1 and 2 in the perfused human placenta (1999) Placenta, 20 (1), pp. 13-19
• Reichardt, H.M., Kaestner, K.H., Tuckermann, J., Kretz, O., Wessely, O., Bock, R., Gass, P., Schutz, G., DNA binding of the glucocorticoid receptor is not essential for survival (1998) Cell, 93 (4), pp. 531-541
• Oitzl, M.S., Reichardt, H.M., Joels, M., de Kloet, E.R., Point mutation in the mouse glucocorticoid receptor preventing DNA binding impairs spatial memory (2001) Proc. Natl. Acad. Sci. USA, 98 (22), pp. 12790-12795
• McEwen, B.S., Physiology and neurobiology of stress and adaptation: Central role of the brain (2007) Physiol. Rev., 87 (3), pp. 873-904
• Joels, M., Karst, H., Krugers, H.J., Lucassen, P.J., Chronic stress: Implications for neuronal morphology, function and neurogenesis (2007) Front. Neuroendocrinol., 28 (2-3), pp. 72-96
• DeRijk, R.H., Wust, S., Meijer, O.C., Zennaro, M.C., Federenko, I.S., Hellhammer, D.H., Giacchetti, G., de Kloet, E.R., A common polymorphism in the mineralocorticoid receptor modulates stress responsiveness (2006) J. Clin. Endocrinol. Metab., 91 (12), pp. 5083-5089
• Spijker, A.T., Giltay, E.J., van Rossum, E.F., Manenschijn, L., DeRijk, R.H., Haffmans, J., Zitman, F.G., Hoencamp, E., Glucocorticoid and mineralocorticoid receptor polymorphisms and clinical characteristics in bipolar disorder patients (2011) Psychoneuroendocrinology, 36 (10), pp. 1460-1469
• Binder, E.B., Salyakina, D., Lichtner, P., Wochnik, G.M., Ising, M., Putz, B., Papiol, S., Muller-Myhsok, B., Polymorphisms in FKBP5 are associated with increased recurrence of depressive episodes and rapid response to antidepressant treatment (2004) Nat. Genet., 36 (12), pp. 1319-1325
• Ising, M., Depping, A.M., Siebertz, A., Lucae, S., Unschuld, P.G., Kloiber, S., Horstmann, S., Holsboer, F., Polymorphisms in the FKBP5 gene region modulate recovery from psychosocial stress in healthy controls (2008) Eur. J. Neurosci., 28 (2), pp. 389-398
• Xie, P., Kranzler, H.R., Poling, J., Stein, M.B., Anton, R.F., Farrer, L.A., Gelernter, J., Interaction of FKBP5 with childhood adversity on risk for post-traumatic stress disorder (2010) Neuropsychopharmacology, 35 (8), pp. 1684-1692
• Ambroggi, F., Turiault, M., Milet, A., Deroche-Gamonet, V., Parnaudeau, S., Balado, E., Barik, J., Tronche, F., Stress and addiction: Glucocorticoid receptor in dopaminoceptive neurons facilitates cocaine seeking (2009) Nat. Neurosci., 12 (3), pp. 247-249

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