Your search keyword '"Fetal Alcohol Spectrum Disorders pathology"' showing total 16 results

1. Purkinje cell-specific deletion of CREB worsens alcohol-induced cerebellar neuronal losses and motor deficits.

Author

Todd D, Clapp M, Dains P, Karacay B, and Bonthius DJ

Subjects

Animals, Cerebellum, Cyclic AMP Response Element-Binding Protein genetics, Cyclic AMP Response Element-Binding Protein pharmacology, Ethanol toxicity, Female, Humans, Mice, Mice, Knockout, Nitric Oxide Synthase Type I, Pregnancy, Fetal Alcohol Spectrum Disorders pathology, Purkinje Cells pathology

Abstract

Introduction: Exposure to alcohol during pregnancy can kill developing fetal neurons and lead to fetal alcohol spectrum disorder (FASD) in the offspring. However, not all fetuses are equally vulnerable to alcohol toxicity. These differences in vulnerability among individuals are likely due, at least in part, to genetic differences. Some genes encode neuroprotective molecules that act through signaling pathways to protect neurons against alcohol's toxic effects. One signaling pathway that can protect cultured neurons against alcohol-induced cell death in vitro is the cAMP pathway. A goal of this study was to determine whether the cAMP pathway can exert a similar neuroprotective effect against alcohol in vivo. A key molecule within the cAMP pathway is cAMP response element binding protein (CREB). In this study, CREB was specifically disrupted in cerebellar Purkinje cells to study its role in protection of cerebellar neurons against alcohol toxicity., Methods: Mice with Purkinje cell-specific knockout of CREB were generated with the Cre-lox system. A 2 × 2 design was used in which Cre-negative and Cre-positive mice received either 0.0 or 2.2 mg/g ethanol by intraperitoneal (i.p.) injection daily over postnatal day (PD) 4-9. Stereological cell counts of cerebellar Purkinje cells and granule cells were performed on PD 10. Motor function was assessed on PD 40 using the rotarod., Results: Purkinje cell-specific disruption of CREB alone (in the absence of alcohol) induced only a small reduction in Purkinje cell number. However, the loss of CREB function from Purkinje cells greatly increased the vulnerability of Purkinje cells to alcohol-induced cell death. While alcohol killed 20% of Purkinje cells in the Cre-negative (CREB-expressing) mice, alcohol killed 57% of Purkinje cells in the Cre-positive (CREB-nonexpressing) mice. This large loss of Purkinje cells did not lead to similar alcohol-induced losses of granule cells. In the absence of alcohol, lack of CREB function in Purkinje cells had no effect on rotarod performance. However, in the presence of alcohol, disruption of CREB in Purkinje cells substantially worsened rotarod performance., Discussion: Disruption of a single gene (CREB) in a single neuronal population (Purkinje cells) greatly increases the vulnerability of that cell population to alcohol-induced cell death and worsens alcohol-induced brain dysfunction. The results suggest that the cAMP pathway can protect cells in vivo against alcohol toxicity and underline the importance of genetics in determining the neuropathology and behavioral deficits of FASD., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

2. The BAF (BRG1/BRM-Associated Factor) chromatin-remodeling complex exhibits ethanol sensitivity in fetal neural progenitor cells and regulates transcription at the miR-9-2 encoding gene locus.

Author

Burrowes SG, Salem NA, Tseng AM, Balaraman S, Pinson MR, Garcia C, and Miranda RC

Subjects

Animals, Cells, Cultured, DNA Helicases genetics, Fetal Alcohol Spectrum Disorders genetics, Fetal Alcohol Spectrum Disorders metabolism, Fetal Alcohol Spectrum Disorders pathology, Fetal Stem Cells metabolism, Fetal Stem Cells pathology, Mice, MicroRNAs genetics, Multiprotein Complexes, Neural Stem Cells metabolism, Neural Stem Cells pathology, Neurogenesis genetics, Nuclear Proteins genetics, RNA Interference, Time Factors, Transcription Factors metabolism, Transfection, Chromatin Assembly and Disassembly drug effects, DNA Helicases metabolism, Ethanol toxicity, Fetal Stem Cells drug effects, Gene Expression Regulation, Developmental drug effects, MicroRNAs metabolism, Neural Stem Cells drug effects, Neurogenesis drug effects, Nuclear Proteins metabolism, Transcription Factors genetics, Transcription, Genetic drug effects

Abstract

Fetal alcohol spectrum disorders are a leading cause of intellectual disability worldwide. Previous studies have shown that developmental ethanol exposure results in loss of microRNAs (miRNAs), including miR-9, and loss of these miRNAs, in turn, mediates some of ethanol's teratogenic effects in the developing brain. We previously found that ethanol increased methylation at the miR-9-2 encoding gene locus in mouse fetal neural stem cells (NSC), advancing a mechanism for epigenetic silencing of this locus and consequently, miR-9 loss in NSCs. Therefore, we assessed the role of the BAF (BRG1/BRM-Associated Factor) complex, which disassembles nucleosomes to facilitate access to chromatin, as an epigenetic mediator of ethanol's effects on miR-9. Chromatin immunoprecipitation and DNAse I-hypersensitivity analyses showed that the BAF complex was associated with both transcriptionally accessible and heterochromatic regions of the miR-9-2 locus, and that disintegration of the BAF complex by combined knockdown of BAF170 and BAF155 resulted in a significant decrease in miR-9. We hypothesized that ethanol exposure would result in loss of BAF-complex function at the miR-9-2 locus. However, ethanol exposure significantly increased mRNA transcripts for maturation-associated BAF-complex members BAF170, SS18, ARID2, BAF60a, BRM/BAF190b, and BAF53b. Ethanol also significantly increased BAF-complex binding within an intron containing a CpG island and in the terminal exon encoding precursor (pre)-miR-9-2. These data suggest that the BAF complex may adaptively respond to ethanol exposure to protect against a complete loss of miR-9-2 in fetal NSCs. Chromatin remodeling factors may adapt to the presence of a teratogen, to maintain transcription of critical miRNA regulatory pathways., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

3. Disconnect between alcohol-induced alterations in chromatin structure and gene transcription in a mouse embryonic stem cell model of exposure.

Author

Veazey KJ, Wang H, Bedi YS, Skiles WM, Chang RC, and Golding MC

Subjects

Animals, Cells, Cultured, Dose-Response Relationship, Drug, Female, Fetal Alcohol Spectrum Disorders genetics, Fetal Alcohol Spectrum Disorders metabolism, Fetal Alcohol Spectrum Disorders pathology, Genomic Imprinting drug effects, Histones genetics, Histones metabolism, Lysine, Mice, Mouse Embryonic Stem Cells metabolism, Mouse Embryonic Stem Cells pathology, Nucleic Acid Conformation, Pregnancy, Prenatal Exposure Delayed Effects, Protein Conformation, Structure-Activity Relationship, Time Factors, Chromatin Assembly and Disassembly drug effects, Ethanol toxicity, Gene Expression Regulation, Developmental drug effects, Mouse Embryonic Stem Cells drug effects, Transcription, Genetic drug effects

Abstract

Alterations to chromatin structure induced by environmental insults have become an attractive explanation for the persistence of exposure effects into subsequent life stages. However, a growing body of work examining the epigenetic impact that alcohol and other drugs of abuse exert consistently notes a disconnection between induced changes in chromatin structure and patterns of gene transcription. Thus, an important question is whether perturbations in the 'histone code' induced by prenatal exposures to alcohol implicitly subvert gene expression, or whether the hierarchy of cellular signaling networks driving development is such that they retain control over the transcriptional program. To address this question, we examined the impact of ethanol exposure in mouse embryonic stem cells cultured under 2i conditions, where the transcriptional program is rigidly enforced through the use of small molecule inhibitors. We find that ethanol-induced changes in post-translational histone modifications are dose-dependent, unique to the chromatin modification under investigation, and that the extent and direction of the change differ between the period of exposure and the recovery phase. Similar to in vivo models, we find post-translational modifications affecting histone 3 lysine 9 are the most profoundly impacted, with the signature of exposure persisting long after alcohol has been removed. These changes in chromatin structure associate with dose-dependent alterations in the levels of transcripts encoding Dnmt1, Uhrf1, Tet1, Tet2, Tet3, and Polycomb complex members Eed and Ezh2. However, in this model, ethanol-induced changes to the chromatin template do not consistently associate with changes in gene transcription, impede the process of differentiation, or affect the acquisition of monoallelic patterns of expression for the imprinted gene Igf2R. These findings question the inferred universal relevance of epigenetic changes induced by drugs of abuse and suggest that changes in chromatin structure cannot unequivocally explain dysgenesis in isolation., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

4. DNA Methylation program in normal and alcohol-induced thinning cortex.

Author

Öztürk NC, Resendiz M, Öztürk H, and Zhou FC

Subjects

5-Methylcytosine analogs & derivatives, 5-Methylcytosine metabolism, Alcohol Drinking adverse effects, Alcohol Drinking metabolism, Alcohol Drinking pathology, Animals, Female, Fetal Alcohol Spectrum Disorders metabolism, Fetal Alcohol Spectrum Disorders pathology, Genotype, Gestational Age, Maternal Exposure, Mice, Inbred C57BL, Neocortex embryology, Neocortex metabolism, Phenotype, Pregnancy, Alcohol Drinking genetics, DNA Methylation drug effects, Epigenesis, Genetic drug effects, Ethanol toxicity, Fetal Alcohol Spectrum Disorders genetics, Neocortex drug effects, Neurogenesis drug effects, Neurogenesis genetics

Abstract

While cerebral underdevelopment is a hallmark of fetal alcohol spectrum disorders (FASD), the mechanism(s) guiding the broad cortical neurodevelopmental deficits are not clear. DNA methylation is known to regulate early development and tissue specification through gene regulation. Here, we examined DNA methylation in the onset of alcohol-induced cortical thinning in a mouse model of FASD. C57BL/6 (B6) mice were administered a 4% alcohol (v/v) liquid diet from embryonic (E) days 7-16, and their embryos were harvested at E17, along with isocaloric liquid diet and lab chow controls. Cortical neuroanatomy, neural phenotypes, and epigenetic markers of methylation were assessed using immunohistochemistry, Western blot, and methyl-DNA assays. We report that cortical thickness, neuroepithelial proliferation, and neuronal migration and maturity were found to be deterred by alcohol at E17. Simultaneously, DNA methylation, including 5-methylcytosine (5mC) and 5-hydroxcylmethylcytosine (5hmC), which progresses as an intrinsic program guiding normal embryonic cortical development, was severely affected by in utero alcohol exposure. The intricate relationship between cortical thinning and this DNA methylation program disruption is detailed and illustrated. DNA methylation, dynamic across the multiple cortical layers during the late embryonic stage, is highly disrupted by fetal alcohol exposure; this disruption occurs in tandem with characteristic developmental abnormalities, ranging from structural to molecular. Finally, our findings point to a significant question for future exploration: whether epigenetics guides neurodevelopment or whether developmental conditions dictate epigenetic dynamics in the context of alcohol-induced cortical teratogenesis., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

5. The impact of prenatal alcohol exposure on social, cognitive and affective behavioral domains: Insights from rodent models.

Author

Marquardt K and Brigman JL

Subjects

Alcohol Drinking psychology, Animals, Cognition Disorders chemically induced, Cognition Disorders psychology, Female, Fetal Alcohol Spectrum Disorders etiology, Fetal Alcohol Spectrum Disorders psychology, Humans, Mice, Mood Disorders chemically induced, Mood Disorders pathology, Mood Disorders psychology, Pregnancy, Prenatal Exposure Delayed Effects chemically induced, Prenatal Exposure Delayed Effects psychology, Rats, Alcohol Drinking adverse effects, Cognition Disorders pathology, Disease Models, Animal, Fetal Alcohol Spectrum Disorders pathology, Prenatal Exposure Delayed Effects pathology, Social Behavior

Abstract

Fetal Alcohol Spectrum Disorders (FASD) are characterized by deficits in working memory, response inhibition, and behavioral flexibility. However, the combination and severity of impairments are highly dependent upon maternal ethanol consumption patterns, which creates a complex variety of manifestations. Rodent models have been essential in identifying behavioral endpoints of prenatal alcohol exposure (PAE). However, experimental model outcomes are extremely diverse based on level, pattern, timing, and method of ethanol exposure, as well as the behavioral domain assayed and paradigm used. Therefore, comparisons across studies are difficult and there is currently no clear comprehensive behavioral phenotype of PAE. This lack of defined cognitive and behavioral phenotype is a contributing factor to the difficulty in identifying FASD individuals. The current review aims to critically examine preclinical behavioral outcomes in the social, cognitive, and affective domains in terms of the PAE paradigm, with a special emphasis on dose, timing, and delivery, to establish a working model of behavioral impairment. In addition, this review identifies gaps in our current knowledge and proposes future areas of research that will advance knowledge in the field of PAE outcomes. Understanding the complex behavioral phenotype, which results from diverse ethanol consumption will allow for development of better diagnostic tools and more critical evaluation of potential treatments for FASD., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

6. Computed tomography assessment of peripubertal craniofacial morphology in a sheep model of binge alcohol drinking in the first trimester.

Author

Birch SM, Lenox MW, Kornegay JN, Shen L, Ai H, Ren X, Goodlett CR, Cudd TA, and Washburn SE

Subjects

Animals, Body Weight drug effects, Central Nervous System Depressants administration & dosage, Central Nervous System Depressants blood, Central Nervous System Depressants toxicity, Craniofacial Abnormalities pathology, Ethanol administration & dosage, Ethanol blood, Ethanol toxicity, Female, Infusions, Intravenous, Pregnancy, Sheep, Domestic, Skull abnormalities, Skull anatomy & histology, Tomography, X-Ray Computed, Binge Drinking pathology, Craniofacial Abnormalities chemically induced, Fetal Alcohol Spectrum Disorders pathology, Sheep

Abstract

Identification of facial dysmorphology is essential for the diagnosis of fetal alcohol syndrome (FAS); however, most children with fetal alcohol spectrum disorders (FASD) do not meet the dysmorphology criterion. Additional objective indicators are needed to help identify the broader spectrum of children affected by prenatal alcohol exposure. Computed tomography (CT) was used in a sheep model of prenatal binge alcohol exposure to test the hypothesis that quantitative measures of craniofacial bone volumes and linear distances could identify alcohol-exposed lambs. Pregnant sheep were randomly assigned to four groups: heavy binge alcohol, 2.5 g/kg/day (HBA); binge alcohol, 1.75 g/kg/day (BA); saline control (SC); and normal control (NC). Intravenous alcohol (BA; HBA) or saline (SC) infusions were given three consecutive days per week from gestation day 4-41, and a CT scan was performed on postnatal day 182. The volumes of eight skull bones, cranial circumference, and 19 linear measures of the face and skull were compared among treatment groups. Lambs from both alcohol groups showed significant reduction in seven of the eight skull bones and total skull bone volume, as well as cranial circumference. Alcohol exposure also decreased four of the 19 craniofacial measures. Discriminant analysis showed that alcohol-exposed and control lambs could be classified with high accuracy based on total skull bone volume, frontal, parietal, or mandibular bone volumes, cranial circumference, or interorbital distance. Total skull volume was significantly more sensitive than cranial circumference in identifying the alcohol-exposed lambs when alcohol-exposed lambs were classified using the typical FAS diagnostic cutoff of ≤10th percentile. This first demonstration of the usefulness of CT-derived craniofacial measures in a sheep model of FASD following binge-like alcohol exposure during the first trimester suggests that volumetric measurement of cranial bones may be a novel biomarker for binge alcohol exposure during the first trimester to help identify non-dysmorphic children with FASD., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

7. Selective reduction of cerebral cortex GABA neurons in a late gestation model of fetal alcohol spectrum disorder.

Author

Smiley JF, Saito M, Bleiwas C, Masiello K, Ardekani B, Guilfoyle DN, Gerum S, Wilson DA, and Vadasz C

Subjects

Animals, Animals, Newborn, Cerebral Cortex drug effects, Cerebral Cortex growth & development, Ethanol administration & dosage, Female, GABAergic Neurons drug effects, Male, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Organ Size, Pregnancy, Cerebral Cortex pathology, Ethanol toxicity, Fetal Alcohol Spectrum Disorders pathology, GABAergic Neurons pathology, Prenatal Exposure Delayed Effects chemically induced, Prenatal Exposure Delayed Effects pathology

Abstract

Fetal alcohol spectrum disorders (FASD) are associated with cognitive and behavioral deficits, and decreased volume of the whole brain and cerebral cortex. Rodent models have shown that early postnatal treatments, which mimic ethanol toxicity in the third trimester of human pregnancy, acutely induce widespread apoptotic neuronal degeneration and permanent behavioral deficits. However, the lasting cellular and anatomical effects of early ethanol treatments are still incompletely understood. This study examined changes in neocortex volume, thickness, and cellular organization that persist in adult mice after postnatal day 7 (P7) ethanol treatment. Post mortem brain volumes, measured by both MRI within the skull and by fluid displacement of isolated brains, were reduced 10-13% by ethanol treatment. The cerebral cortex showed a similar reduction (12%) caused mainly by lower surface area (9%). In spite of these large changes, several features of cortical organization showed little evidence of change, including cortical thickness, overall neuron size, and laminar organization. Estimates of total neuron number showed a trend level reduction of about 8%, due mainly to reduced cortical volume but unchanged neuron density. However, counts of calretinin (CR) and parvalbumin (PV) subtypes of GABAergic neurons showed a striking >30% reduction of neuron number. Similar ethanol effects were found in male and female mice, and in C57BL/6By and BALB/cJ mouse strains. Our findings indicate that the cortex has substantial capacity to develop normal cytoarchitectonic organization after early postnatal ethanol toxicity, but there is a selective and persistent reduction of GABA cells that may contribute to the lasting cognitive and behavioral deficits in FASD., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

8. The role of cortisol in chronic binge alcohol-induced cerebellar injury: Ovine model.

Author

Washburn SE, Tress U, Lunde ER, Chen WJ, and Cudd TA

Subjects

Alcoholic Intoxication complications, Alcoholic Intoxication pathology, Animals, Cerebellum pathology, Disease Models, Animal, Female, Fetal Alcohol Spectrum Disorders pathology, Hydrocortisone blood, Pregnancy, Purkinje Cells drug effects, Sheep, Domestic, Alcoholic Intoxication physiopathology, Cerebellum drug effects, Hydrocortisone pharmacology

Abstract

Women who drink alcohol during pregnancy are at high risk of giving birth to children with neurodevelopmental disorders. Previous reports from our laboratory have shown that third trimester equivalent binge alcohol exposure at a dose of 1.75 g/kg/day results in significant fetal cerebellar Purkinje cell loss in fetal sheep and that both maternal and fetal adrenocorticotropin (ACTH) and cortisol levels are elevated in response to alcohol treatment. In this study, we hypothesized that repeated elevations in cortisol from chronic binge alcohol are responsible at least in part for fetal neuronal deficits. Animals were divided into four treatment groups: normal control, pair-fed saline control, alcohol and cortisol. The magnitude of elevation in cortisol in response to alcohol was mimicked in the cortisol group by infusing pregnant ewes with hydrocortisone for 6 h on each day of the experiment, and administering saline during the first hour in lieu of alcohol. The experiment was conducted on three consecutive days followed by four days without treatment beginning on gestational day (GD) 109 until GD 132. Peak maternal blood alcohol concentration in the alcohol group was 239 ± 7 mg/dl. The fetal brains were collected and processed for stereological cell counting on GD 133. The estimated total number of fetal cerebellar Purkinje cells, the reference volume and the Purkinje cell density were not altered in response to glucocorticoid infusion in the absence of alcohol. These results suggest that glucocorticoids independently during the third trimester equivalent may not produce fetal cerebellar Purkinje cell loss. However, the elevations in cortisol along with other changes induced by alcohol could together lead to brain injury seen in the fetal alcohol spectrum disorders., (Published by Elsevier Inc.)

Published

2013

9. Prenatal alcohol exposure alters the patterns of facial asymmetry.

Author

Klingenberg CP, Wetherill L, Rogers J, Moore E, Ward R, Autti-Rämö I, Fagerlund A, Jacobson SW, Robinson LK, Hoyme HE, Mattson SN, Li TK, Riley EP, and Foroud T

Subjects

Adolescent, Child, Child, Preschool, Craniofacial Abnormalities etiology, Female, Fetal Alcohol Spectrum Disorders diagnosis, Humans, Imaging, Three-Dimensional, Male, Pregnancy, Craniofacial Abnormalities pathology, Ethanol adverse effects, Facial Bones pathology, Fetal Alcohol Spectrum Disorders pathology, Maternal-Fetal Exchange

Abstract

Directional asymmetry, the systematic differences between the left and right body sides, is widespread in human populations. Changes in directional asymmetry are associated with various disorders that affect craniofacial development. Because facial dysmorphology is a key criterion for diagnosing fetal alcohol syndrome (FAS), the question arises whether in utero alcohol exposure alters directional asymmetry in the face. Data on the relative position of 17 morphologic landmarks were obtained from facial scans of children who were classified as either FAS or control. Shape data obtained from the landmarks were analyzed with the methods of geometric morphometrics. Our analyses showed significant directional asymmetry of facial shape, consisting primarily of a shift of midline landmarks to the right and a displacement of the landmarks around the eyes to the left. The asymmetry of FAS and control groups differed significantly and average directional asymmetry was increased in those individuals exposed to alcohol in utero. These results suggest that the developmental consequences of fetal alcohol exposure affect a wide range of craniofacial features in addition to those generally recognized and used for diagnosis of FAS., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2010

10. Prenatal alcohol exposure reduces the size of the forelimb representation in motor cortex in rat: an intracortical microstimulation (ICMS) mapping study.

Author

Xie N, Yang Q, Chappell TD, Li CX, and Waters RS

Subjects

Animals, Brain Mapping, Electric Stimulation, Ethanol blood, Evoked Potentials, Motor, Female, Fetal Alcohol Spectrum Disorders pathology, Fetal Alcohol Spectrum Disorders physiopathology, Male, Microelectrodes, Muscle Contraction physiology, Pregnancy, Rats, Rats, Sprague-Dawley, Somatosensory Cortex pathology, Somatosensory Cortex physiopathology, Ethanol administration & dosage, Forelimb, Motor Cortex pathology, Motor Cortex physiopathology, Prenatal Exposure Delayed Effects

Abstract

Children with fetal alcohol spectrum disorder (FASD) often exhibit sensorimotor dysfunctions that include deficits in motor coordination and fine motor control. Although the underlying causes for these motor abnormalities are unknown, they likely involve interactions between sensory and motor systems. Rodent animal models have been used to study the effects of prenatal alcohol exposure (PAE) on skilled reaching and on the development and organization of somatosensory barrel field cortex. To this end, PAE delayed the development of somatosensory cortex, reduced the size of whisker and forelimb representations in somatosensory barrel field cortex, and delayed acquisition time to learn a skilled reaching task. However, whether PAE also affects the motor cortex (MI) remains to be determined. In the present study, we investigated the effect of PAE on the size of the forelimb representation in rat MI, thresholds for activation, and the overlap between motor and sensory cortical forelimb maps in sensorimotor cortex. Pregnant Sprague-Dawley rats were assigned to alcohol (Alc), pair-fed (PF), and chow-fed (CF) groups on gestation day 1 (GD1). Rats in the Alc group (n=4) were chronically intubated daily with binge doses of alcohol (6g/kg body weight) from GD1 to GD20 that resulted in averaged blood alcohol levels measured on GD10 (mean=191.5+/-41.9mg/dL) and on GD17 (mean=247.0+/-72.4mg/dL). PF (n=2) and CF (n=3) groups of pregnant rats served as controls. The effect of PAE on the various dependent measures was obtained from multiple male offspring from each dam within treatment groups, and litter means were compared between the groups from alcohol-treated and control (Ct: CF and PF) dams. At approximately 8 weeks of age, rats were anesthetized with ketamine/xylazine and the skull opened over sensorimotor cortex. A tungsten microelectrode was then inserted into the depths of layer V and intracortical microstimulation was used to deliver trains of pulses to evoke muscle contractions and/or movements; maximum stimulating < or =100microA. When a motor response was observed, the threshold for movement was measured and the motor receptive field projected to the cortical surface to serve as representative point for that location. A motor map for the forelimb representation was generated by systematically stimulating at adjacent sites until current thresholds reached the maximum and/or motor responses were no longer evoked. The major findings in this study were as follows: (1) PAE significantly reduced the area of the forelimb representation in the Alc offspring (6.01mm(2), standard error of the mean=+/-0.278) compared with the Ct offspring (8.03mm(2)+/-0.586), (2) PAE did not significantly reduce the averaged threshold for activation of movements between groups, (3) PAE significantly reduced the percent overlap (Alc=31.1%, Ct=55.4%) between the forelimb representation in sensory and motor cortices, and (4) no significant differences were observed in averaged body weight, hemisphere weight, or age of animal between treatment groups. These findings suggest that the effects of PAE are not restricted to somatosensory barrel field cortex but also involve the MI and may underlie deficits in motor control and sensorimotor integration observed among children with FASD., (2010. Published by Elsevier Inc.)

Published

2010

11. Proceedings of the 2006 annual meeting of the Fetal Alcohol Spectrum Disorders Study Group.

Author

Bonthius DJ, Olson HC, and Thomas JD

Subjects

Animals, Biomedical Research economics, Brain pathology, Brain physiopathology, Central Nervous System Depressants adverse effects, Female, Genetic Testing, Humans, Infant, Newborn, Male, Microglia drug effects, Neonatal Screening methods, Pregnancy, Research Support as Topic, Societies, Scientific, Brain drug effects, Central Nervous System Depressants toxicity, Ethanol toxicity, Fetal Alcohol Spectrum Disorders diagnosis, Fetal Alcohol Spectrum Disorders genetics, Fetal Alcohol Spectrum Disorders pathology, Fetal Alcohol Spectrum Disorders physiopathology, Prenatal Exposure Delayed Effects

Abstract

This article describes the proceedings of the 2006 Annual Meeting of the Fetal Alcohol Spectrum Disorders Study Group (FASDSG), which was held in Baltimore, Maryland on June 24, 2006. The meeting was held in conjunction with the annual meeting of the Research Society on Alcoholism and was supported by a grant from the National Institute on Alcohol Abuse and Alcoholism. The 2005-2006 FASDSG officers, Daniel J. Bonthius (President), Heather Carmichael Olson (Vice-President), and Jennifer Thomas (Secretary-Treasurer), organized the meeting. Nationally prominent speakers delivered plenary lectures on topics of newborn screening, ethics, and neuroscience. Selected members of the FASDSG provided brief scientific data (FASt) reports, describing new research findings. Representatives from national agencies involved in fetal alcohol syndrome (FAS) research, treatment, and prevention provided updates regarding priorities, funding, and agency activities. Presentations were also made by the 2006 Student Merit Award recipient and by the 2006 Rosett Award recipient. The meeting served as a forum for clinicians, neuroscientists, psychologists, social scientists, and other professionals to discuss recent advances in FAS research and to identify the most important gaps in the understanding of alcohol-induced teratology.

Published

2006

12. Ultrastructural changes in the rat kidney following fetal exposure to ethanol.

Author

Assadi FK and Zajac CS

Subjects

Animals, Female, Fetal Alcohol Spectrum Disorders pathology, Microscopy, Electron, Scanning, Pregnancy, Rats, Rats, Sprague-Dawley, Ethanol toxicity, Fetus drug effects, Kidney drug effects, Kidney ultrastructure

Abstract

Previous studies have implicated renal ultrastructural abnormalities in the pathogenesis of tubular dysfunction in fetal alcohol syndrome. Scanning electron microscopic studies were performed to examine the role of glomerular and tubular structural changes in this syndrome. Pregnant Sprague-Dawley rats were fed a liquid diet in which ethanol constituted 35% of the total caloric content or pair-fed an isocaloric control diet from gestational day 8 to the day of birth. After delivery, offspring were housed with the dam and left undisturbed until 18 days of age when they were weaned and given free access to standard chow diet and water. At random, kidneys from 11 offspring of ethanol-fed (E) rats and 7 pair-fed control (C) rats were fixed by in vivo retrograde perfusion at 90 days of age for ultrastructural studies. The E rats showed cytoplasmic mitochondrial atrophy and vacuolar structures of the epithelial cells of the distal tubules and collecting ducts not seen in C rats. No obvious difference was found in the glomerular, proximal tubule, or loop of Henle architecture between the two groups. These findings suggest that rats prenatally exposed to ethanol have renal ultrastructural abnormalities that may be important in the genesis of functional disturbances.

Published

1992

13. Evidence for altered lesion-induced sprouting in the dentate gyrus of adult rats exposed to ethanol in utero.

Author

Dewey SL and West JR

Subjects

Acetylcholinesterase metabolism, Alcoholism complications, Animals, Female, Fetal Alcohol Spectrum Disorders etiology, Fetal Alcohol Spectrum Disorders pathology, Hippocampus enzymology, Hippocampus pathology, Humans, Pregnancy, Pregnancy Complications pathology, Rats, Rats, Inbred Strains, Ethanol toxicity, Hippocampus drug effects, Maternal-Fetal Exchange

Abstract

Quantitative computer-assisted image processing techniques were used to measure changes in the Timm sulfide silver histochemical staining in the dentate gyrus of rats exposed to ethanol during gestation and following unilateral entorhinal lesions as adults. Prenatal exposure to a liquid diet containing 35% ethanol derived calories (12.6 +/- 0.9 g/kg/day) had no effect on the size of either the inner or total molecular layers. However, prenatal ethanol exposure did affect afferent reorganization when animals were lesioned as adults. There was a significant increase in the width and area of the inner molecular layer compared to control rats with similar lesions. The increase was interpreted as an exaggerated post-lesion expansion of the commissural/associational fibers. This alteration of a stereotypic sprouting response was not a general effect; no change was observed in mossy fiber sprouting in the dentate gyrus. These findings suggest that heavy maternal ethanol consumption can have long-lasting consequences on the developing central nervous system, but that such effects are not common to every form of axon sprouting.

Published

1984

14. Perforant pathway lamination in the dentate gyrus is unaffected by prenatal ethanol exposure.

Author

Dewey SL and West JR

Subjects

Animals, Female, Limbic System pathology, Neural Pathways pathology, Pregnancy, Rats, Rats, Inbred Strains, Cerebral Cortex pathology, Fetal Alcohol Spectrum Disorders pathology, Hippocampus pathology

Abstract

The entorhinal (perforant path) projection to the dentate gyrus was labeled with an anterograde horseradish peroxidase method to test whether prenatal exposure to ethanol affected the normal development of afferent lamination. Mean ethanol consumption of the ethanol-consuming dams was 12.7 g/kg +/- 0.3 g per day during days 1-21 of gestation. Adult offspring of normal and pair-fed controls as well as ethanol-exposed rats were analyzed. Computer-assisted image analysis of the entorhinal terminal field organization revealed no permanent changes in the development of the afferent lamination pattern in the dentate gyrus molecular layer in spite of the heavy in utero ethanol exposure.

Published

1985

15. Organization of the commissural projection to the dentate gyrus is unaltered by heavy ethanol exposure during gestation.

Author

Dewey SL and West JR

Subjects

Afferent Pathways anatomy & histology, Animals, Axons ultrastructure, Body Weight, Female, Horseradish Peroxidase, Male, Pregnancy, Rats, Rats, Inbred Strains, Fetal Alcohol Spectrum Disorders pathology, Hippocampus pathology

Abstract

The anterograde horseradish peroxidase method was used to determine if prenatal exposure to ethanol affected the development of the characteristic afferent lamination pattern of the commissural projection to the dentate gyrus. Mean ethanol consumption for the ethanol-consuming dams was 12.7 g/kg +/- 0.3 g per day. Adult offspring of rats that consumed a liquid diet containing 35% ethanol-derived calories during days 1-21 of gestation, and both pair-fed and normal controls were examined. Brain weights and volumes of the ethanol and pair-fed control rats did not differ significantly from normal controls. However, body weights of ethanol-exposed rats were significantly reduced compared to normal controls. Computer-assisted image analysis of the HRP-labeling revealed that in spite of the heavy ethanol exposure there was no evidence of alterations in the spatial distribution of the commissural terminal field.

Published

1985

16. Acute alcohol exposure during gestational day 8 in the rat: effects upon physical and behavioral parameters.

Author

Molina JC, Moyano HF, Spear LP, and Spear NE

Subjects

Animals, Animals, Newborn, Avoidance Learning, Birth Weight, Body Height, Brain pathology, Female, Fetal Alcohol Spectrum Disorders pathology, Gestational Age, Humans, Male, Pregnancy, Rats, Transfer, Psychology, Fetal Alcohol Spectrum Disorders etiology, Learning Disabilities etiology

Abstract

Pregnant rats on the eighth day of gestation (GD 8) received 2 intraperitoneal injections (0.015 ml/g body weight) spaced by an interval of 4 hours, of either 0, 6, 12 18, or 24% (v/v) alcohol solution. Brains of pups sacrificed 24 hours after delivery revealed a dose-related impairment in hemispheric and cerebellar length, width and weight. Statistically significant differences were also observed in body weights of culled pups during Post-partum Day 1. An open field test performed when offspring were 40-45 days old demonstrated a dose-dependent increase in ambulation and rearing scores for both males and females and in defecation scores for females only. Although behavioral studies revealed no effects on acquisition or retention of an active avoidance response, there was a dose-dependent impairment in transfer to passive avoidance conditioning. The present results demonstrate that in the rat, an alcohol insult during GD 8 is sufficient to induce morphological and behavioral alterations in the offspring.

Published

1984