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Life Sciences Commons

Open Access. Powered by Scholars. Published by Universities.®

2012

Neuroscience and Neurobiology

Development

Articles 1 - 4 of 4

Full-Text Articles in Life Sciences

Brief Embryonic Strychnine Exposure In Zebrafish Causes Long-Term Adult Behavioral Impairment With Indications Of Embyronic Synaptic Changes, Nicole M. Roy, Brianna Arpie, Joseph Lugo, Elwood Linney, Edward D. Levin, Daniel Cerutti Nov 2012

Brief Embryonic Strychnine Exposure In Zebrafish Causes Long-Term Adult Behavioral Impairment With Indications Of Embyronic Synaptic Changes, Nicole M. Roy, Brianna Arpie, Joseph Lugo, Elwood Linney, Edward D. Levin, Daniel Cerutti

Biology Faculty Publications

Zebrafish provide a powerful model of the impacts of embryonic toxicant exposure on neural development that may result in long-term behavioral dysfunction. In this study, zebrafish embryos were treated with 1.5mM strychnine for short embryonic time windows to induce transient changes in inhibitory neural signaling, and were subsequently raised in untreated water until adulthood. PCR analysis showed indications that strychnine exposure altered expression of some genes related to glycinergic, GABAergic and glutamatergic neuronal synapses during embryonic development. In adulthood, treated fish showed significant changes in swimming speed and tank diving behavior compared to controls. Taken together, these data show that …

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Sexually Dimorphic Effects Of A Prenatal Immune Challenge On Social Play And Vasopressin Expression In Juvenile Rats, Patrick V. Taylor, Alexa Veenema, Matthew J. Paul, Remco Bredewold, Stephanie Isaacs, Geert De Vries Jan 2012

Sexually Dimorphic Effects Of A Prenatal Immune Challenge On Social Play And Vasopressin Expression In Juvenile Rats, Patrick V. Taylor, Alexa Veenema, Matthew J. Paul, Remco Bredewold, Stephanie Isaacs, Geert De Vries

Neuroscience Institute Faculty Publications

Background: Infectious diseases and inflammation during pregnancy increase the offspring’s risk for behavioral disorders. However, how immune stress affects neural circuitry during development is not well known. We tested whether a prenatal immune challenge interferes with the development of social play and with neural circuits implicated in social behavior.

Methods: Pregnant rats were given intraperitoneal injections of the bacterial endotoxin lipopolysaccharide (LPS – 100 μg /kg) or saline on the 15th day of pregnancy. Offspring were tested for social play behaviors between postnatal days 26–40. Brains were harvested on postnatal day 45 and processed for arginine vasopressin (AVP) mRNA in …

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A Novel Taulacz Allele Reveals A Requirement For Pitx2 In Formation Of The Mammillothalamic Tract, Mindy Waite Dec 2011

A Novel Taulacz Allele Reveals A Requirement For Pitx2 In Formation Of The Mammillothalamic Tract, Mindy Waite

Mindy Waite

The hypothalamic mammillary region is critical for spatial memory and vestibular processing. Pitx2 encodes a paired-like transcription factor that is highly expressed in the developing mammillary region and is required for subthalamic nucleus formation. Here we analyzed a loss of function Pitx2-TaulacZ knock-in allele to study the effects of Pitx2 deficiency on neuronal projections in the embryonic mammillary region. Pitx2-expressing neurons contribute axons to principal mammillary, mammillotegmental and mammillotectal tracts. Embryos with Pitx2 deficiency exhibit axonal fibers in the principal mammillary tract that are improperly bundled and disorganized, yet project caudally toward the tectum and tegmentum. Embryos …

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Distinct Populations Of Gabaergic Neurons In Mouse Rhombomere 1 Express But Do Not Require The Homeodomain Transcription Factor Pitx2, Mindy Waite Dec 2011

Distinct Populations Of Gabaergic Neurons In Mouse Rhombomere 1 Express But Do Not Require The Homeodomain Transcription Factor Pitx2, Mindy Waite

Mindy Waite

Hindbrain rhombomere 1 (r1) is located caudal to the isthmus, a critical organizer region, and rostral to rhombomere 2 in the developing mouse brain. Dorsal r1 gives rise to the cerebellum, locus coeruleus, and several brainstem nuclei, whereas cells from ventral r1 contribute to the trochlear and trigeminal nuclei as well as serotonergic and GABAergic neurons of the dorsal raphe. Recent studies have identified several molecular events controlling dorsal r1 development. In contrast, very little is known about ventral r1 gene expression and the genetic mechanisms regulating its formation. Neurons with distinct neurotransmitter phenotypes have been identified in ventral r1 …

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