Effects of embryonic ethanol exposure at low doses on neuronal development, voluntary ethanol consumption and related behaviors in larval and adult zebrafish: Role of hypothalamic orexigenic peptides

Sterling, Myrline; Chang, Guo‐Qing; Karatayev, Olga; Chang, S. Yu. A.; Leibowitz, Sarah F.

doi:10.1016/j.bbr.2016.01.013

Cited by 30 publications

(74 citation statements)

References 85 publications

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“…In addition, zebrafish have a comparable central nervous system (CNS) that contains neuropeptide systems (Berman et al., ; Faraco et al., ), including a well‐conserved hcrt system (Elbaz et al., ; Kaslin et al., ). Using a behavioral model developed in our laboratory, we have shown voluntary consumption of EtOH–gelatin by adult zebrafish to stimulate hcrt expression (Sterling et al., ) and central injection of hcrt/orexin‐A to increase EtOH consumption (Sterling et al., ), similar to our findings in rodents (Chang et al., , ). Although there are few reports of hcrt's reward‐related functions in zebrafish (Sterling et al., , ), there is evidence in this species that optogenetic activation (Singh et al., ) and overexpression (Prober et al., ) of hcrt neurons stimulate arousal behaviors, which are behaviors associated with and sometimes predictive of excess consumption of EtOH (Barson et al., ).…”

supporting

confidence: 84%

“…There is also clinical evidence showing even low levels of fetal alcohol exposure to increase alcohol use and produce behavioral dysfunction in the offspring (Goldschmidt et al., ; Murray et al., ), suggesting that no amount of alcohol during pregnancy is safe. This is supported by animal studies from our laboratory (Chang et al., ; Sterling et al., ) and others (Chotro et al., ) showing low‐dose ethanol (EtOH) during gestation in rats to increase intake of EtOH during adolescence. These alterations in behavior are persistent and occur in association with long‐term neuronal changes, including an increased expression of orexigenic peptides (Chang et al., , ).…”

supporting

confidence: 56%

See 1 more Smart Citation

Embryonic Ethanol Exposure Affects the Early Development, Migration, and Location of Hypocretin/Orexin Neurons in Zebrafish

Collier

Halkina

Min

et al. 2019

Alcoholism Clin & Exp Res

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Background: Embryonic ethanol (EtOH) exposure is known to increase alcohol drinking later in life and have long-term effects on neurochemical systems in the brain. With zebrafish having marked advantages for elucidating neural mechanisms underlying brain disorders, we recently tested and showed in these fish, similar to rodents, that low-dose embryonic EtOH stimulates voluntary consumption of EtOH while increasing expression of hypocretin/orexin (hcrt) neurons, a neuropeptide that promotes consummatory and reward-related behaviors. The goal of the present study was to characterize how embryonic EtOH affects early development of the hcrt system and produces persistent changes at older ages that may contribute to this increase in EtOH consumption.Methods: We utilized live imaging and Imaris software to investigate how low-dose embryonic EtOH (0.5%), administered from 22 to 24 hours postfertilization, affects specific properties of hcrt neurons in hcrt:EGFP transgenic zebrafish at different ages.Results: Time-lapse imaging from 24 to 28 hpf showed that embryonic EtOH increased the number of hcrt neurons, reduced the speed, straightness, and displacement of their migratory paths, and altered their direction early in development. At older ages up to 6 dpf, the embryonic EtOH-induced increase in hcrt neurons was persistent, and the neurons became more widely dispersed. These effects of embryonic EtOH were found to be asymmetric, occurring predominantly on the left side of the brain, and at 6 dpf, they resulted in marked changes in the anatomical location of the hcrt neurons, with some detected outside their normal position in the anterior hypothalamus again primarily on the left side.Conclusions: Our findings demonstrate that low-dose embryonic EtOH has diverse, persistent, and asymmetric effects on the early development of hypothalamic hcrt neurons, which lead to abnormalities in their ultimate location that may contribute to behavioral disturbances, including an increase in EtOH consumption.

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supporting

confidence: 84%

supporting

confidence: 56%

Embryonic Ethanol Exposure Affects the Early Development, Migration, and Location of Hypocretin/Orexin Neurons in Zebrafish

Collier

Halkina

Min

et al. 2019

Alcoholism Clin & Exp Res

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“…Prenatal exposure to low-to-moderate levels of alcohol leads to elevated alcohol drinking in adolescent and adult rodents and even zebrafish (Fabio, Macchione, Nizhnikov, & Pautassi, 2015; Nizhnikov, Popoola, & Cameron, 2016; Sterling, Chang, Karatayev, Chang, & Leibowitz, 2016). Notably, this exposure to alcohol also stimulates the proliferation of OX neurons, subsequently leading to their increase in gene expression and density (Chang, Karatayev, Liang, Barson, & Leibowitz, 2012; Sterling et al, 2016). This suggests that the greater number of neuropeptide neurons may contribute to elevated levels of alcohol intake.…”

Section: Role Of Orexin/hypocretin In Non-homeostatic Intakementioning

confidence: 99%

Orexin/Hypocretin System: Role in Food and Drug Overconsumption

Barson

Leibowitz

2017

International Review of Neurobiology

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The neuropeptide orexin/hypocretin (OX), while largely transcribed within the hypothalamus, is released throughout the brain to affect complex behaviors. Primarily through the hypothalamus itself, OX homeostatically regulates adaptive behaviors needed for survival, including food intake, sleep-wake regulation, mating, and maternal behavior. However, through extra-hypothalamic limbic brain regions, OX promotes seeking and intake of rewarding substances of abuse, like palatable food, alcohol, nicotine, and cocaine. This neuropeptide, in turn, is stimulated by the intake of or early life exposure to these substances, forming a non-homeostatic, positive feedback loop. The OX receptor involved in these behaviors, adaptive behavior or substance seeking and intake, is dependent on the particular brain region that contributes to them. Thus, we propose that, while the primary function of OX is to maintain arousal for the performance of adaptive behaviors, this neuropeptide system is readily coopted by rewarding substances that involve positive feedback, ultimately promoting their abuse.

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“…injection of OX-A stimulated novelty-induced locomotor behavior while also increasing intake of food and alcohol equally. These findings suggest alcohol-induced increases in neurogenesis and expression of OX peptides contribute to the behavioral changes induced by embryonic exposure to alcohol in zebrafish [31]. The similarity of findings in zebrafish and rodent models give validity for this model to be used as a screening tool to investigate genetic manipulations in controlling alcohol intake [30].…”

Section: Role Of Alcohol In Orexin System Expression/activationmentioning

confidence: 71%

“…Intake of alcohol-gelatin increased locomotion, reduced anxiety and stimulated aggressive behavior while increasing expression of OX and GAL in hypothalamic areas [30]. Furthermore, using this model, they examined the impact of embryonic alcohol exposure on hypothalamic neurogenesis, expression of orexigenic neuropeptides, voluntary alcohol consumption, locomotor behaviors and effects of central OX-A injections on these alcohol-related behaviors [31]. Embryonic alcohol exposure (0.25 and 0.5 %, 2 h) dose-dependently increased hypothalamic neurogenesis of OX neurons and OX expression in the anterior hypothalamus.…”

Section: Role Of Alcohol In Orexin System Expression/activationmentioning

confidence: 99%

Role of Lateral Hypothalamic Orexin (Hypocretin) Neurons in Alcohol Use and Abuse: Recent Advances

Ch’ng

Lawrence

2016

Curr Pharmacol Rep

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Purpose of Review Alcohol use disorders (AUDs) are chronic relapsing disorders with the modest efficacy of current medications. The US Food and Drug Administration (FDA) and Japanese Pharmaceuticals and Medical Devices Agency (PMDA) approval of the dual orexin (OX) receptor antagonist, suvorexant for the treatment of insomnia, may enable repurposing of this drug for the treatment of other diseases. Here, we summarize and reflect on the most recent research on the role of OX neurons in alcohol use and abuse. Recent Findings OX neurons regulate alcohol intake and seeking, although their involvement in different aspects of alcohol consumption/seeking, specific loci of action and interactions with other transmitter systems are still being clarified. Summary Recent studies have identified anatomic loci of action and interactions between OX and other neuropeptides that drive alcohol seeking. Future studies are required to fully elucidate these behaviors, in which optogenetic and chemogenetic approaches may prove useful.

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Effects of embryonic ethanol exposure at low doses on neuronal development, voluntary ethanol consumption and related behaviors in larval and adult zebrafish: Role of hypothalamic orexigenic peptides

Cited by 30 publications

References 85 publications

Embryonic Ethanol Exposure Affects the Early Development, Migration, and Location of Hypocretin/Orexin Neurons in Zebrafish

Embryonic Ethanol Exposure Affects the Early Development, Migration, and Location of Hypocretin/Orexin Neurons in Zebrafish

Orexin/Hypocretin System: Role in Food and Drug Overconsumption

Role of Lateral Hypothalamic Orexin (Hypocretin) Neurons in Alcohol Use and Abuse: Recent Advances

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