[1] Sánchez-Marín, L., Ladron, de, Guevara-Miranda, D., Carmen, Manas-Padilla, M., Alen, F., Moreno-Fernandez, D.R., Caridad Díaz-Navarro, Palacio Jose P, García-Fernandez M, Pedraza C, J. Pavon F, Rodríguez de Fonseca F, J. Santín L, Serrano A, Castilla-Ortega E., 2018. Systemic blockade of lpa 1/3, lysophosphatidic acid receptors by ki16425 modulates the effects of ethanol on the brain and behavior. Neuropharmacology. 133, 189-201.
[2] Asatryan, L., Ostrovskaya, O., Lieu, D., Davies, D. L., 2017. Ethanol differentially modulates p2x4 and p2x7 receptor activity and function in bv2 microglial cells. Neuropharmacology. 128, 11-21.
[3] Morais-Silva, G., Alves, G. C., Marin, M. T., 2016. N-acetylcysteine treatment blocks the development of ethanol-induced behavioural sensitization and related Δfosb alterations. Neuropharmacology. 110, 135-142.
[4] Wang, X., Zhang, K., Yang, F., Ren, Z., Xu, M., Frank, J.A., Ke, Z.J, Luo, J., 2018. Minocycline protects developing brain against ethanol-induced damage. Neuropharmacology. 129, 84-99.
[5] Niederdeppe, J., Avery, R., Miller, E.N. 2017. Alcohol-control public service announcements (psas) and drunk-driving fatal accidents in the united states, 1996–2010.Prev Med. 99, 320-325.
[6] Khoury, J.E., Jamieson, B., Milligan, K., 2018. Risk for Childhood Internalizing and Externalizing Behavior Problems in the Context of Prenatal Alcohol Exposure: A Meta-Analysis and Comprehensive Examination of Moderators. Alcohol Clin Exp Res. 4, 1358-1377.
[7] Tielbeek, J.J, Vink J.M, Polderman T.J.C., Popma A, Posthuma D, Verweij K.J.H., 2018. Genetic correlation of antisocial behaviour with alcohol, nicotine, and cannabis use. Drug Alcohol Depen. 187, 296-299.
[8] Cheng, C.A., Lee, J.T., Lin, H.C., Lin, H.C., Chung, C.H., Lin, F.H., Tsao, C.H., Wu, Y.F., Chien, W.C., Chiu, H,W., 2017. Pregnancy increases stroke risk up to 1 year postpartum and reduces long-term risk.Qjm-mon J Assoc Phys. 11(6), 355-360.
[9] Dreval, K., De Conti, A., Furuya, S., Beland, F.A., Rusyn, I., Pogribny, I.P. 2017. Mir-1247 blocks sox9–mediated regeneration in alcohol- and fibrosis-associated acute kidney injury in mice. Toxicology. 384, 40-49.
[10]Arora, P.G., Collins, T.A., Dart, E.H., Hernández, S., Fetterman, H., Doll, B., 2019. Multi-tiered systems of support for school-based mental health: a systematic review of depression interventions. Sch Ment Health. 2, 1-25.
[11]Getachew, B., Hudson, T., Heinbockel, T., Csoka, A.B., Tizabi, Y. 2018. Protective effects of donepezil against alcohol-induced toxicity in cell culture: role of caspase-3. Neurotox Res. 34,757-762.
[12]Desmidt, A. A., Zou, B., Grati, M., Yan, D., Mittal, R., Yao, Q., Richmond, M.T. , Denyer, S., Liu, X.Z., Lu Z., 2019. Zebrafish model for non‐syndromic x‐linked sensorineural deafness, dfnx1. Anat Rec. 1-12.
[13]Lockwood, B., Bjerke, S., Kobayashi, K., Guo, S., 2004. Acute effects of alcohol on larval zebrafish: a genetic system for large-scale screening. Pharmacol Biochem Be. 77(3), 647-654.
[14]Carvan, M.J.3rd., Loucks, E., Weber, D.N., Williams, F.E., 2004.Ethanol effects on the developing zebrafish: neurobehavior and skeletal morphogenesis. Neurotoxicol Teratol. 26, 757-768.
[15]Salgado-Freiría, R., López-Doval, S., Lafuente, A., 2018. Perfluorooctane sulfonate (pfos) can alter the hypothalamic-pituitary-adrenal (hpa) axis activity by modifying crf1 and glucocorticoid receptors. Toxicol Lett. 295, 1-9.
[16] Yue, N. , Renjie, C. , Yongjie, X. , Jing, C. , Zhekang, Y. , & Zhijing, L. , et al. (2018). Fine particulate matter constituents and stress hormones in the hypothalamus–pituitary–adrenal axis. Environment International, 119, 186-192.
[18] Feder, A., Nestler, E.J., Charney, D.S., 2009.Psychobiology and molecular genetics of resilience. Nat Rev Neurosci 10, 446-457.
[19} Esmaeili, M.H., Bahari, B., Salari, A.A., 2018.ATP-sensitive potassium-channel inhibitor glibenclamide attenuates HPA axis hyperactivity, depression- and anxiety-related symptoms in a rat model of Alzheimer's diseaseBrain Research Bulletin. 137, 265-276.
[20] Steenbergen, P.J., Richardson, M.K., Champagne, D.L. 2011.The use of the zebrafish model in stress research. Prog Neuro-Psychoph 35,1432-1451.
[21] Peng, J., Wagle, M., Mueller, T., Mathur, P., Lockwood, B.L., Bretaud, S., Guo, S., 2009.Ethanol-modulated camouflage response screen in zebrafish uncovers a novel role for cAMP and extracellular signal-regulated kinase signaling in behavioral sensitivity to ethanol. J Neurosci. 29, 8408-8418.
[22] Mathur, P., Guo, S., 2011. Differences of acute versus chronic ethanol exposure on anxiety-like behavioral responses in zebrafish. Behav Brain Res. 219(2), 230-239.
[23]Ramlan, N.F., Sata, N.S.A.M., Hassan, S.N., Bakar, N.A., Ahmad, S., Zulkifli, S.Z., Abdullah, C.A.C., Ibrahim, W.N.W., 2017.Time dependent effect of chronic embryonic exposure to ethanol on zebrafish: morphology, biochemical and anxiety alterations.Behav Brain Res. 332, 40-49.
[24]Liu, C., Zhang, X., Deng, J., Hecker, M., Al-Khedhairy, A., Giesy, J.P., Zhou, B., 2011. Effects of prochloraz or propylthiouracil on the cross-talk between the HPG, HPA, and HPT axes in zebrafish. Environ Sci Technol. 45, 769-775.
[25]Ramsay, J.M., Feist, G.W., Varga, Z.M., Westerfield, M., Kent, M.L., Schreck, C.B., 2009.Whole-body cortisol response of zebrafish to acute net handling stress. Aquaculture. 297, 157-162.
[26]Werne, B.C.V., Severi, M.C.M., Tofoli, Sandra, Márcia, de, C., Juruena, Mário, F., 2014. Early life stress in depressive patients: hpa axis response to gr and mr agonist. Front Psychiatry. 5,1-12.
[27]Ziv, L., Muto, A., Schoonheim, P.J., Meijsing, S.H., Strasser, D., Ingraham, H.A., Schaaf, M.J., Yamamoto, K.R., Baier, H., 2013. An affective disorder in zebrafish with mutation of the glucocorticoid receptor. Mol Psychiatr. 18, 681-691.
[28] Zhao, J., Xu, T., Yin, D.Q., 2014. Locomotor activity changes on zebrafish larvae with different 2,2',4,4'-tetrabromodiphenyl ether (pbde-47) embryonic exposure modes. Chemosphere. 94, 53-61.
[29]Mulligan, C.J., D'Errico, N.C., Stees, J., Hughes, D.A.,2012. Methylation changes at NR3C1 in newborns associate with maternal prenatal stress exposure and newborn birth weight. Epigenetics. 7, 853-857.
[30]Martin-Blanco, A., Ferrer, M., Soler, J., Salazar, J., Vega, D., Andion, O., Sanchez-Mora, C., Arranz, M.J., Ribases, M., Feliu-Soler, A., Pérez, V., Pascual, J.C.,2014.Association between methylation of the glucocorticoid receptor gene, childhood maltreatment, and clinical severity in borderline personality disorder. J Psychiatr Res. 57, 34-40.
[31]Kordian, S. , Henning, L. , Ersilia, B. , Siv, K. , Lisa, W. , & Espen, H. , et al. (2018). Temporomandibular disorders related to stress and hpa-axis regulation. Pain Research and Management, 2018, 1-7.
[33]Marcilla, M., Muñoz, A., Satué, K., 2017. Longitudinal changes in serum catecholamines, dopamine, serotonin, acth and cortisol in pregnant spanish mares. Res Vet Sci. 115, 29-33.
[34]Zhang, W., Li, Q., Deyssenroth, M., Lambertini, L., Finik, J., Ham, J., Huang, Y., Tsuchiya, K.J., Pehme, P., Buthmann, J., Yoshida, S., Chen, J., Nomura, Y.. 2018. Timing of prenatal exposure to trauma and altered placental expressions of hpa‐axis genes and genes driving neurodevelopment. J Neuroendocrinol. 30(4), e12581.
[35] Mandic, S., Volkoff, H., 2018. The effects of fasting and appetite regulators on catecholamine and serotonin synthesis pathways in goldfish ( carassius auratus ). Comp Biochem Phys A. 223, 1-9.
[36]Wu, L.S., Lee, C.S., Weng, T.Y., Wang, K.H., Cheng, A.T. 2016. Association study of gene polymorphisms in gaba, serotonin, dopamine, and alcohol metabolism pathways with alcohol dependence in taiwanese han men. Alcohol Clin Exp Res. 40(2), 284-290.
[37]Xu,Y., Sheng, H., Tang, Z., Lu, J., Ni, X.,2015. Inflammation and increased IDO in hippocampus contribute to depression-like behavior induced by estrogen deficiency. Behav Brain Res. 288,71-78.