Third trimester-equivalent ethanol exposure causes micro-hemorrhages in the rat brain

Welch, J.H.; Mayfield, Jacob J.; Leibowitz, Akiva; Baculis, Brian C.; Valenzuela, C. Fernando

doi:10.1016/j.neuroscience.2016.03.004

Cited by 13 publications

(6 citation statements)

References 58 publications

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“…The cell death is not necessarily and exclusively caused by impairments of the neurotransmitter system. Indirect effects, such as those related to the disruption of brain or uterine vasculature, may play a role in alcohol-induced cell death [ 14 , 15 , 16 ].…”

mentioning

confidence: 99%

Alcohol and the Developing Brain: Why Neurons Die and How Survivors Change

Granato

Dering

2018

IJMS

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The consequences of alcohol drinking during pregnancy are dramatic and usually referred to as fetal alcohol spectrum disorders (FASD). This condition is one of the main causes of intellectual disability in Western countries. The immature fetal brain exposed to ethanol undergoes massive neuron death. However, the same mechanisms leading to cell death can also be responsible for changes of developmental plasticity. As a consequence of such a maladaptive plasticity, the functional damage to central nervous system structures is amplified and leads to permanent sequelae. Here we review the literature dealing with experimental FASD, focusing on the alterations of the cerebral cortex. We propose that the reciprocal interaction between cell death and maladaptive plasticity represents the main pathogenetic mechanism of the alcohol-induced damage to the developing brain.

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confidence: 99%

Alcohol and the Developing Brain: Why Neurons Die and How Survivors Change

Granato

Dering

2018

IJMS

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“…A rat study, with a range of alcohol exposure doses, found resulting microhemorrhages in the brain that led to neuronal loss concentrated in the cortex, including the cingulate cortex. 29 Supporting this finding, structural MRIs show that alcohol-exposed individuals had reduced overall volume, grey matter, and white matter in the cingulate gyrus, one component of the cingulate cortex, as well as the CC. Despite controlling for overall change in volume, white matter presented significantly reduced compared with controls.…”

Section: Introductionmentioning

confidence: 75%

White matter abnormalities in fetal alcohol spectrum disorders: Focus on axon growth and guidance

Mathews

Dewees

Diaz

et al. 2021

Exp Biol Med (Maywood)

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Fetal Alcohol Spectrum Disorders (FASDs) describe a range of deficits, affecting physical, mental, cognitive, and behavioral function, arising from prenatal alcohol exposure. FASD causes widespread white matter abnormalities, with significant alterations of tracts in the cerebral cortex, cerebellum, and hippocampus. These brain regions present with white-matter volume reductions, particularly at the midline. Neural pathways herein are guided primarily by three guidance cue families: Semaphorin/Neuropilin, Netrin/DCC, and Slit/Robo. These guidance cue/receptor pairs attract and repulse axons and ensure that they reach the proper target to make functional connections. In several cases, these signals cooperate with each other and/or additional molecular partners. Effects of alcohol on guidance cue mechanisms and their associated effectors include inhibition of growth cone response to repellant cues as well as changes in gene expression. Relevant to the corpus callosum, specifically, developmental alcohol exposure alters GABAergic and glutamatergic cell populations and glial cells that serve as guidepost cells for callosal axons. In many cases, deficits seen in FASD mirror aberrancies in guidance cue/receptor signaling. We present evidence for the need for further study on how prenatal alcohol exposure affects the formation of neural connections which may underlie disrupted functional connectivity in FASD.

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“…Ethanol vapor or gavage exposure of early postnatal (P3-5) rats resulted in brain micro-hemorrhages, which occurred at both low and high ethanol concentrations. These micro-hemorrhages occurred principally in the cerebral cortex, but were also observed in other brain regions (Welch et al, 2016).…”

Section: Postnatal Models Of Fasdmentioning

confidence: 81%

Neuroinflammatory contribution of microglia and astrocytes in fetal alcohol spectrum disorders

Kane

Drew

2020

J of Neuroscience Research

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Ethanol exposure to the fetus during pregnancy can result in fetal alcohol spectrum disorders (FASD). These disorders vary in severity, can affect multiple organ systems, and can lead to lifelong disabilities. Damage to the central nervous system (CNS) is common in FASD, and can result in altered behavior and cognition. The incidence of FASD is alarmingly high, resulting in significant personal and societal costs. There are no cures for FASD. Alcohol can directly alter the function of neurons in the developing CNS. In addition, ethanol can alter the function of CNS glial cells including microglia and astrocytes which normally maintain homeostasis in the CNS. These glial cells can function as resident immune cells in the CNS to protect against pathogens and other insults. However, activation of glia can also damage CNS cells and lead to aberrant CNS function. Ethanol exposure to the developing brain can result in the activation of glia and neuroinflammation, which may contribute to the pathology associated with FASD. This suggests that anti-inflammatory agents may be effective in the treatment of FASD.

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Third trimester-equivalent ethanol exposure causes micro-hemorrhages in the rat brain

Cited by 13 publications

References 58 publications

Alcohol and the Developing Brain: Why Neurons Die and How Survivors Change

Alcohol and the Developing Brain: Why Neurons Die and How Survivors Change

White matter abnormalities in fetal alcohol spectrum disorders: Focus on axon growth and guidance

Neuroinflammatory contribution of microglia and astrocytes in fetal alcohol spectrum disorders

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