Annals of Agricultural and Environmental Sciences

Alcohol as a teratogen could induce foetal malfunction or foetal alcohol spectrum disorder by mechanisms involving the dehydrogenases, cytochrome P4502E1and catalase. These result in the concomitant reactive oxygen species (ROS) generation and the resultant ROS -related damage to the central nervous system of the developing foetus. Thus, alcohol-induced teratogenesis (and even other alcohol-induced adverse effects) were generally mediated via and/or characterized by oxidative stress, cell death, mitochondrial dysfunction, interference with the activity of growth factors and retinoic acid imbalance. In particular, ROS could overwhelm cellular activities by inactivating electron transport chain complex hence decreasing the production of mitochondrial energy and activating the apoptotic pathway. On the other hand, the use of N-Methyl-D-Aspartate receptors antagonists, antioxidants and neurotrophic factors seemingly attenuated alcohol-induced teratogenesis and other effects, hence served as its management strategies. L-Arginine, an amino acid that plays central role in the synthesis of nitric oxide improved foetal regulation of glucose release, transport and utilization which were fundamental to alcohol-induced damage. This suggested the possible ameliorative role of L-Arginine on alcohol-induced teratogenesis and other adverse effects of alcohol over use. Thus, the present review speculated that L-arginine could mitigate alcohol-induced teratogenesis and other adverse effects by enhancing the synthesis of the antioxidant molecule, nitric oxide, warranting detailed further studies. The outcome of such studies could help in managing and/or controlling alcohol-induced teratogenesis in women on alcohol prior to and/or during pregnancy as well as other adverse effects of alcohol in humans.

Guo R, Ren J. Alcohol and acetaldehyde in public health: From marvel to menace. International Journal of Environmental Research Public Health. 2010; 7: 1285-01.

Cannon MJ, Dominique Y, O'Leary LA, Sniezek JE, Floyd RL. Characteristics and behaviors of mothers who have a child with fetal alcohol syndrome. Neurotoxicology and Teratology. 2012; 34: 90-5.

Smith MB, March J. March’s Advanced Organic Chemistry: Reactions, Mechanisms, and Structure. Sixth 2007; Edition, Wiley and Sons, Inc., Publication, USA, 2007.

Gohlke JM, Griffith WC, Faustman EM. Computational models of ethanol-induced neurodevelopmental toxicity across species: Implications for risk assessment. Birth Defects Research Part B, Developmental and Reproductive Toxicology. 2008; 83: 1-11.

Roberto M, Treistman SN, Pietrzykowski AZ, Weiner J, Galindo R, Mameli M et al. Actions of acute and chronic ethanol on presynaptic terminals. Alcoholism Clinical and Experimental Research. 2006; 30: 222-32.

Bower C, Rudy E, Callaghan A, Quick J, Nassar N. Age at diagnosis of birth defects. Birth Defects Research. 2010; 88:251-5.

May PA, Gossage JP, Smith M, Tabachnick BG, Robinson LK, Manning M. Population differences in dysmorphic features among children with fetal alcohol spectrum disorders. Journal of Developmental and Behavioural Pediatrics. 2010; 31:304- 16.

Kumada T, Jiang Y, Cameron DB. How does alcohol impair neuronal migration? J. Neurosci. Res. 2007; 85: 465–70.

Zakhari S. Overview: How is alcohol metabolized by the body? Alcohol Research and Health. 2006; 29: 245-54.

Gad MZ. Anti-aging effects of L-Arginin. Journal of Advanced Resource. 2010; 1: 169-77.

Egbuonu ACC, Ezeokonkwo CA, Ejikeme PM, Obidoa O, Ezeanyika LUS. Some biochemical effects of sub-acute oral administration of L-arginine on monosodium glutamate-fed Wistar rats 2: Serum alkaline phosphatase, total acid phosphatase and aspartate aminotransferase activities. Asian Journal of Biochemistry. 2010; 5(2): 89-95.

Ezeanyika LUS, Egbuonu ACC. Impact of nitric oxide and insulin resistance on the pathophysiology of the metabolic syndrome: Possible role of l-arginine and glutamate. Journal of Medicine and Medical Sciences. 2011; 2(2): 657-62.

Egbuonu ACC, Ezeanyika LUS. Effect of L-arginine on some biochemical markers of metabolic syndrome associated with brain function in female Wistar rats. Journal of Applied Sciences. 2013a; 13(4): 595-01.

Egbuonu ACC, Ijeh II, Ezeanyika LUS, Obidoa O. Influence of L-arginine on the heart histology and function markers of metabolic syndrome in female Wistar albino rats. Journal of Medical Sciences. 2013a; 13(4): 276-82.

Egbuonu ACC, Ezeanyika LUS, Ijeh II. Alterations in the liver histology and markers of metabolic syndrome associated with inflammation and liver damage in L-arginine exposed female Wistar albino rats. Pakistan Journal of Biological Sciences. 2013b; 16(10): 469-76.

Egbuonu ACC, Ejikeme PM, Ezeanyika LUS, Obidoa O. Combined oral arginine and monosodium glutamate exposure induces adverse response on the prostate function and testis histology of rats. British Journal of Pharmaceutical Research. 2013c; 3(2): 247-58.

Egbuonu ACC, Ezeanyika LUS. L-arginine exposure improves renal function markers of metabolic syndrome in female rats. American Journal of Biochemistry and Molecular Biology. 2013b; 3(1): 50-60.

Egbuonu ACC, Ezeanyika LUS. Effect of L-arginine on selected markers of metabolic syndrome related to oxidative stress, glucose metabolism and nitric oxide synthesis in female Wistar albino rats. International Research Journal of Biochemistry and Bioinformatic., 2012; 2(8): 186-92.

Egbuonu ACC. Sub-chronic concomitant ingestion of L-arginine and monosodium glutamate improves feed efficiency, lipid metabolism and antioxidant capacity in male Wistar rats. Pakistan Journal of Biological Sciences. 2012; 15(6): 301-5.

Norberg A, Jones AW, Hahn RG, Gabrielsson JL. Role of variability in explaining ethanol pharmacokinetics: Research and forensic applications. Clinical Pharmacokinetics. 2003; 42: 1-31.

Baraona E. Site and quantitative importance of alcohol first-pass metabolism. Alcoholism Clinical and Experimental Research. 2000; 24: 405–6.

Seitz HK, Becker P. Alcohol metabolism and cancer risk. Alcohol Research and Health. 2007; 30(1):38-47.

Cannizzaro C, Plescia F, Cacace S. Role of acetaldehyde in alcohol addiction: current evidence and future perspectives. Malta Medical Journal. 2011; 23: 27.

Deniaud A, Maillier E, Poncet D, Kroemer G, Lemaire C, Brenner C. Endoplasmic reticulum stress induces calcium-dependent permeability transition, mitochondrial outer membrane permeabilization and apoptosis. Oncogene. 2008; 27: 285–99.

Elofson J, Gongvatana W, Carey KB. Alcohol use and cerebral white matter compromise in adolescence. Addictive Behaviours. 2013; 38: 2295–05.

Wells PG, MaCallum GP, Chen CS. Oxidative stress in developmental origins of disease: teratogenesis, neuro-developmental deficits and cancer. Toxicological Science. 2009; 108: 4–18.

Li S, Tan HY, Wang N., Zhang ZJ, Lao L,Wong CW, et al. The role of oxidative stress and antioxidants in liver diseases. International Journal of Molecular Science. 2015; 16: 26087- 124.

Kalia LV, Kalia SK, Salter MW. NMDA receptors in clinical neurology: excitatory times ahead. Lancet Neurol, 2008; 7: 742-55.

Vyklicky V, Korinek M, Smejkalova T, Balik A, Krausova B, Kaniakova M, et al. Structure, Function, and Pharmacology of NMDA Receptor Channels. Physiological Research. 2014; 63 (1): 191-03.

Manzo AS, Saavedra MA. Cellular and mitochondrial effects of alcohol consumption. International Journal of Environmental Research on Public Health. 2010; 7: 4281-04.

Klingenberg CP, Wetherill L, Rogers J, Moore E, Ward R, Autti-Rämö Q. Prenatal alcohol exposure alters the patterns of facial asymmetry. Alcohol. 2010; 44: 649–57.

Taléns-Visconti R, Sanchez Vera I, Kostic J. Neural differentiation from human embryonic stem cells as a tool to study early brain development and the neuroteratogenic effects of ethanol. Stem Cells Development. 2011; 20: 327–39.

Nguyen CA, Le T,Tong M, Silbermann E, Gundogan F, de la Monte SM. Impaired insulin/IGF signalling in experimental alcohol-related myopathy. Nutrients. 2012; 4:1058-78.

Reichardt LF. Neurotrophin-regulated signalling pathways. Philosophical Transaction of the Royal Society B. 2006; 361:1545–64.

Martinez ES, Egea G. Novel molecular targets for the prevention of foetal alcohol syndrome. Recent Patent on CNS Drug Discovery, 2007; 2: 23-35.

Semba RD. On the ‘discovery’ of vitamin A. Annual Nutrition and Metabolism. 2012; 61(3):192–8.

Campo-Paysaa F, Marletaz F, Laudet V, Schubert M. Retinoic acid signalling in development: tissue-speci?c functions and evolutionary origins. Genesis. 2008; 46(11): 640–56.

Urushitani H, Katsu Y, Ohta Y, Shiraishi H, Iguchi T, Horiguchi T. Cloning and characterization of the retinoic acid receptor-like protein in the rock shell, Thais clavigera. Aquatic Toxicolog., 2013; 142–143: 403–13.

Levi S, Alrabadi L, Singh P, Flores A, Tonk V. A novel mutation in the L1CAM gene: A tales of two brothers. Annual Pediatrics and Child Health. 2015; 3(4):1065.

Vos YJ, Hofstra RM. An update and upgrade L1 CAM mutation database. Human Mutation. 2010; 31: 1102-09.

Handa RK, DeJoseph MR, Singh LD, Hawkins RA, Singh SP. Glucose transporters and glucose utilization in rat brain after acute ethanol administration. Metabolism of Brain Disease. 2000; 15: 211–22.

Goodlett RC, Horn KH.Mechanisms of alcohol-induced damage to the developing nervous system. Alcohol research and health. 2001; 25(3):175-84.

Kwon HB, Sabatini BL. Glutamate induces de novo growth of functional spines in developing cortex. Nature. 2011; 474(7349): 100–04.

Wilkemeyer MF, Chen SY, Menkari CE. Differential effects of ethanol antagonism and neuroprotection in peptide fragment NAPVSIPQ prevention of ethanol­induced developmental toxicity. Proceedings of the National Academy of Sciences of the United States of America. 2003; 100: 8543–48.

Ketcherside A, Matthews I, Filbey F. The serotonin link between alcohol use and affective disorders. Journal of Addiction and Prevention. 2013; 1(2): 3.

Berglund KJ, Balldin J, Berggren U, Gerdner A, Fahlke C. Childhood maltreatment affects the serotonergic system in male alcohol-dependent individuals. Alcoholism: Clinical and Experimental Research. 2013; 37: 757-62.

Druse MJ, Tajuddin NF, Gillespie RA, Dickson E, Atieh M, Pietrzak CA, et al. The serotonin-1A agonist ipsapirone prevents ethanol-associated death of total rhombencephalic neurons and prevents the reduction of fetal serotonin neurons. Brain Research and Development. 2004; 150: 79–88.

Dan Y, Poo MM. Spike timing-dependent plasticity: From synapse to perception. Physiological Reviews. 2006; 86: 1033–48.

Minichiello L. TrkB signalling pathways in LTP and learning. Nature Reviews Neuroscience. 2009; 10: 850–60.

Dorniak-Wall T, Grivell RM, Dekker GA, Hague W, Dodd JM. The role of L-arginine in the prevention and treatment of pre-eclampsia: a systematic review of randomised trials. Journal of Human Hypertension. 2014; 28: 230–5.

Harisa GEDI. L-Arginine ameliorates arylesterase/paraoxonase activity of paraoxonase 1 in hypercholesterolemic rats. Asian Journal of Biochemistry. 2011; 6: 263-72.

Subtratty AH, Semfa LH, Manray MD. TAME esterase and oxidative stress contribute to dysmetabolic syndrome in dyslipidemia. Asian Journal of Biochemistry. 2007; 2: 323-29.