Your search keyword '"Alison Basel"' showing total 9 results

1. Preconception paternal ethanol exposures induce alcohol-related craniofacial growth deficiencies in fetal offspring

Author

Kara N. Thomas, Nimisha Srikanth, Sanat S. Bhadsavle, Kelly R. Thomas, Katherine N. Zimmel, Alison Basel, Alexis N. Roach, Nicole A. Mehta, Yudhishtar S. Bedi, and Michael C. Golding

Subjects

Development, Neuroscience, Medicine

Published

2023

2. Alcohol induced increases in sperm Histone H3 lysine 4 trimethylation correlate with increased placental CTCF occupancy and altered developmental programming

Author

Yudhishtar S. Bedi, Haiqing Wang, Kara N. Thomas, Alison Basel, Julien Prunier, Claude Robert, and Michael C. Golding

Subjects

Medicine, Science

Abstract

Abstract Using a mouse model, studies by our group reveal that paternal preconception alcohol intake affects offspring fetal-placental growth, with long-lasting consequences on adult metabolism. Here, we tested the hypothesis that chronic preconception male alcohol exposure impacts histone enrichment in sperm and that these changes are associated with altered developmental programming in the placenta. Using chromatin immunoprecipitation, we find alcohol-induced increases in sperm histone H3 lysine 4 trimethylation (H3K4me3) that map to promoters and presumptive enhancer regions enriched in genes driving neurogenesis and craniofacial development. Given the colocalization of H3K4me3 with the chromatin binding factor CTCF across both sperm and embryos, we next examined CTCF localization in the placenta. We find global changes in CTCF binding within placentae derived from the male offspring of alcohol-exposed sires. Furthermore, altered CTCF localization correlates with dysregulated gene expression across multiple gene clusters; however, these transcriptional changes only occur in male offspring. Finally, we identified a correlation between genomic regions exhibiting alcohol-induced increases in sperm H3K4me3 and increased CTCF binding in male placentae. Collectively, our analysis demonstrates that the chromatin landscape of sperm is sensitive to chronic alcohol exposure and that a subset of these affected regions exhibits increased placental CTCF enrichment.

Published

2022

3. Paternal alcohol exposures program intergenerational hormetic effects on offspring fetoplacental growth

Author

Kara N. Thomas, Katherine N. Zimmel, Alison Basel, Alexis N. Roach, Nicole A. Mehta, Kelly R. Thomas, Luke J. Dotson, Yudhishtar S. Bedi, and Michael C. Golding

Subjects

hormesis, alcohol, paternal, epigenetic programming, developmental programming, placenta, Biology (General), QH301-705.5

Abstract

Hormesis refers to graded adaptive responses to harmful environmental stimuli where low-level toxicant exposures stimulate tissue growth and responsiveness while, in contrast, higher-level exposures induce toxicity. Although the intergenerational inheritance of programmed hormetic growth responses is described in plants and insects, researchers have yet to observe this phenomenon in mammals. Using a physiologically relevant mouse model, we demonstrate that chronic preconception paternal alcohol exposures program nonlinear, dose-dependent changes in offspring fetoplacental growth. Our studies identify an inverse j-shaped curve with a threshold of 2.4 g/Kg per day; below this threshold, paternal ethanol exposures induce programmed increases in placental growth, while doses exceeding this point yield comparative decreases in placental growth. In male offspring, higher paternal exposures induce dose-dependent increases in the placental labyrinth layer but do not impact fetal growth. In contrast, the placental hypertrophy induced by low-level paternal ethanol exposures associate with increased offspring crown-rump length, particularly in male offspring. Finally, alterations in placental physiology correlate with disruptions in both mitochondrial-encoded and imprinted gene expression. Understanding the influence of ethanol on the paternally-inherited epigenetic program and downstream hormetic responses in offspring growth may help explain the enormous variation observed in fetal alcohol spectrum disorder (FASD) phenotypes and incidence.

Published

2022

4. Over a decade of field physiology reveals life-history specific strategies to drought in garter snakes (

Author

Kaitlyn G, Holden, Eric J, Gangloff, David A W, Miller, Ashley R, Hedrick, Carli, Dinsmore, Alison, Basel, Greta, Kutz, and Anne M, Bronikowski

Subjects

Development and Physiology, Glucose, Colubridae, Animals, Snakes, Corticosterone, Life History Traits, Droughts

Abstract

Changing climates and severe weather events can affect population viability. Individuals need to buffer such negative fitness consequences through physiological plasticity. Whether certain life-history strategies are more conducive to surviving changing climates is unknown, but theory predicts that strategies prioritizing maintenance and survival over current reproduction should be better able to withstand such change. We tested this hypothesis in a meta-population of garter snakes having naturally occurring variation in life-history strategies. We tested whether slow pace-of-life (POL) animals, that prioritize survival over reproduction, are more resilient than fast POL animals as measured by several physiological biomarkers. From 2006 to 2019, which included two multi-year droughts, baseline and stress-induced reactivity of plasma corticosterone and glucose varied annually with directionalities consistent with life-history theory. Slow POL animals exhibited higher baseline corticosterone and lower baseline glucose, relative to fast POL animals. These patterns were also observed in stress-induced measures; thus, reactivity was equivalent between ecotypes. However, in drought years, measures of corticosterone did not differ between different life histories. Immune cell distribution showed annual variation independent of drought or life history. These persistent physiological patterns form a backdrop to several extirpations of fast POL populations, suggesting a limited physiological toolkit to surviving periods of extreme drought.

Published

2023

5. Preconception paternal alcohol exposure decreases IVF embryo survival and pregnancy success rates in a mouse model

Author

Alexis N Roach, Katherine N Zimmel, Kara N Thomas, Alison Basel, Sanat S Bhadsavle, and Michael C Golding

Subjects

Embryology, Reproductive Medicine, Genetics, Obstetrics and Gynecology, Cell Biology, Molecular Biology, Developmental Biology

Abstract

Increasingly, couples struggling with fertility turn to assisted reproductive techniques, including IVF, to have children. Despite the demonstrated influence of periconception male health and lifestyle choices on offspring development, studies examining IVF success rates and child health outcomes remain exclusively focused on maternal factors. Using a physiologically relevant mouse model, we tested the hypothesis that chronic paternal preconception alcohol intake adversely affects IVF success and negatively impacts IVF offspring fetoplacental growth. Using a voluntary, binge-like mouse model, we exposed sexually mature C57BL/6J males to three preconception treatments (0% (Control), 6% EtOH or 10% EtOH) for 6 weeks, isolated and cryopreserved caudal sperm from treated males, and then used these samples to fertilize oocytes before assessing IVF embryo developmental outcomes. We found that preconception paternal alcohol use reduced IVF embryo survival and pregnancy success rates in a dose-dependent manner, with the pregnancy success rate of the 10% EtOH treatment falling to half those of the Controls. Mechanistically, we found that preconception paternal alcohol exposure disrupts embryonic gene expression, including Fgf4 and Egfr, two critical regulators of trophectoderm stem cell growth and placental patterning, with lasting impacts on the histological organization of the late-term placenta. The changes in placental histoarchitecture were accompanied by altered regulation of pathways controlling mitochondrial function, oxidative phosphorylation and some imprinted genes. Our studies indicate that male alcohol use may significantly impede IVF success rates, increasing the couple’s financial burden and emotional stress, and highlights the need to expand prepregnancy messaging to emphasize the reproductive dangers of alcohol use by both parents.

Published

2023

6. Over a decade of field physiology reveals life-history specific strategies to drought in garter snakes ( Thamnophis elegans )

Author

Kaitlyn G. Holden, Eric J. Gangloff, David A. W. Miller, Ashley R. Hedrick, Carli Dinsmore, Alison Basel, Greta Kutz, and Anne M. Bronikowski

Subjects

General Immunology and Microbiology, General Medicine, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology, General Environmental Science

Abstract

Changing climates and severe weather events can affect population viability. Individuals need to buffer such negative fitness consequences through physiological plasticity. Whether certain life-history strategies are more conducive to surviving changing climates is unknown, but theory predicts that strategies prioritizing maintenance and survival over current reproduction should be better able to withstand such change. We tested this hypothesis in a meta-population of garter snakes having naturally occurring variation in life-history strategies. We tested whether slow pace-of-life (POL) animals, that prioritize survival over reproduction, are more resilient than fast POL animals as measured by several physiological biomarkers. From 2006 to 2019, which included two multi-year droughts, baseline and stress-induced reactivity of plasma corticosterone and glucose varied annually with directionalities consistent with life-history theory. Slow POL animals exhibited higher baseline corticosterone and lower baseline glucose, relative to fast POL animals. These patterns were also observed in stress-induced measures; thus, reactivity was equivalent between ecotypes. However, in drought years, measures of corticosterone did not differ between different life histories. Immune cell distribution showed annual variation independent of drought or life history. These persistent physiological patterns form a backdrop to several extirpations of fast POL populations, suggesting a limited physiological toolkit to surviving periods of extreme drought.

Published

2022

7. Alcohol induced increases in sperm Histone H3 lysine 4 trimethylation correlate with increased placental CTCF occupancy and altered developmental programming

Author

Yudhishtar S, Bedi, Haiqing, Wang, Kara N, Thomas, Alison, Basel, Julien, Prunier, Claude, Robert, and Michael C, Golding

Subjects

Histones, Male, CCCTC-Binding Factor, Ethanol, Pregnancy, Lysine, Placenta, Humans, Female, Spermatozoa, Chromatin

Abstract

Using a mouse model, studies by our group reveal that paternal preconception alcohol intake affects offspring fetal-placental growth, with long-lasting consequences on adult metabolism. Here, we tested the hypothesis that chronic preconception male alcohol exposure impacts histone enrichment in sperm and that these changes are associated with altered developmental programming in the placenta. Using chromatin immunoprecipitation, we find alcohol-induced increases in sperm histone H3 lysine 4 trimethylation (H3K4me3) that map to promoters and presumptive enhancer regions enriched in genes driving neurogenesis and craniofacial development. Given the colocalization of H3K4me3 with the chromatin binding factor CTCF across both sperm and embryos, we next examined CTCF localization in the placenta. We find global changes in CTCF binding within placentae derived from the male offspring of alcohol-exposed sires. Furthermore, altered CTCF localization correlates with dysregulated gene expression across multiple gene clusters; however, these transcriptional changes only occur in male offspring. Finally, we identified a correlation between genomic regions exhibiting alcohol-induced increases in sperm H3K4me3 and increased CTCF binding in male placentae. Collectively, our analysis demonstrates that the chromatin landscape of sperm is sensitive to chronic alcohol exposure and that a subset of these affected regions exhibits increased placental CTCF enrichment.

Published

2021

8. Listening to the Voices of Students with Autism Spectrum Disorder – 'When you are at school, you have to behave in a certain way'

Author

Alison Basel and Carol Hamilton

Abstract

Models of special education that are diagnosis orientated mean that individuals with ASD are~seen as ‘different’ from their non-disabled peers. These views reproduce school practices in which those labelled disabled are likely to be treated as problematic rather than ‘coming from a different place’. This article explores the narrative of one Year 9 student with ASD and his understanding of his identity as a learner and his sense of belonging and friendships at school through a double hermeneutic approach. In it, the observations of the researcher and the professional relationship they both have, as well as the collaboration and engagement with the student at the time, are intertwined. The narrative reveals something of the continuous amounts of resilience and determination that students with ASD must draw on so to participate successfully in school life. The article suggests that mindfulness on the part of teachers is needed in daily interactions to fully support agency and well-being in this student group.

Published

2020

9. Maternal background alters the penetrance of growth phenotypes and sex-specific placental adaptation of offspring sired by alcohol-exposed males

Author

Alexis N. Roach, Alison Basel, Nicole A. Mehta, Katherine N. Zimmel, Kara N. Thomas, Michael C. Golding, and Yudhishtar S. Bedi

Subjects

Male, Offspring, Placenta, oxidative phosphorylation, placental dysfunction, Penetrance, Biochemistry, Article, Epigenesis, Genetic, Andrology, genetic background, Mice, Sex Factors, developmental programming, Pregnancy, Genetics, Animals, Epigenetics, placental adaptation, RRID:SCR_002798, Paternal Inheritance, Molecular Biology, mitochondrial disfunction, Fetus, RRID:IMSR_JAX:000664, Fetal Growth Retardation, biology, Ethanol, preconception exposure, Phenotype, Adaptation, Physiological, RRID:IMSR_CRL:22, Mice, Inbred C57BL, paternal epigenetic inheritance, Fetal Alcohol Spectrum Disorders, Sirtuin, fetal alcohol spectrum disorder (FASDs), biology.protein, Female, Genomic imprinting, Transcriptome, Biotechnology

Abstract

Epigenetic mechanisms of paternal inheritance are an emerging area of interest in our efforts to understand fetal alcohol spectrum disorders. In rodent models examining maternal alcohol exposures, different maternal genetic backgrounds protect or sensitize offspring to alcohol-induced teratogenesis. However, whether maternal background can mitigate sperm-inherited alterations in developmental programming and modify the penetrance of growth defects induced by preconception paternal alcohol exposures remains unaddressed. In our previous studies examining pure C57Bl/6J crosses, the offspring of alcohol-exposed sires exhibited fetal growth restriction, enlarged placentas, and decreased placental efficiency. Here, we find that in contrast to our previous studies, the F1 offspring of alcohol-exposed C57Bl/6J sires and CD-1 dams do not exhibit fetal growth restriction, with male fetuses developing smaller placentas and increased placental efficiencies. However, in these hybrid offspring, preconception paternal alcohol exposure induces sex-specific changes in placental morphology. Specifically, the female offspring of alcohol-exposed sires displayed structural changes in the junctional and labyrinth zones, along with increased placental glycogen content. These changes in placental organization are accompanied by female-specific alterations in the expression of imprinted genes Cdkn1c and H19. Although male placentae do not display overt changes in placental histology, using RNA-sequencing, we identified programmed alterations in genes regulating oxidative phosphorylation, mitochondrial function, and Sirtuin signaling. Collectively, our data reveal that preconception paternal alcohol exposure transmits a stressor to developing offspring, that males and females exhibit distinct patterns of placental adaptation, and that maternal genetic background can modulate the effects of paternal alcohol exposure.

Published

2021