15380830

pubmed:Citation

5-6

We have developed an animal model in Swiss Webster mice to identify mechanisms by which prenatal exposure to cocaine results in persistent alterations in brain structure and function. Clinical data suggests that children who demonstrate the largest impairments in prenatal brain growth, which are positively correlated with the highest level of prenatal cocaine exposure, are more likely to demonstrate selective impairment in postnatal brain growth, as well as postnatal impairments in motor function, attention and language skills. We conducted neuroanatomic studies to identify the postnatal evolution of structural changes in the primary somatosensory (SI) cortex of the developing mouse brain following prenatal exposure to cocaine. Our previous work, and that of others, provides evidence that many of the processes underlying corticogenesis are disrupted by gestational exposure of the developing mouse brain to cocaine, and that from the earliest phases of corticogenesis that there is an imprecision in the development of cortical lamination. We performed morphometric comparisons between the brains of animals prenatally exposed to varying amounts of cocaine with vehicle and malnutrition controls on postnatal (P) days P9 and P50. We found that on P50, but not P9, the relative number of cortical neurons in S1 is significantly less in cocaine exposed animals as compared with controls. The significant decrease in the number of cells in cocaine exposed animals on P50 is evident as a decreased density of cells restricted to the infragranular compartment (layers V and VI). Those changes are not seen in malnourished animals. Taken together our findings support the conclusion that cocaine-induced alterations in SI cortical cytoarchitectonics are in part a consequence of altered postnatal survival of infragranular cortical neurons, which are lost during the interval between P9 and P50. Determining whether a similar process is evident in a subset of humans following in utero cocaine exposure is a high priority for future clinical brain imaging studies, because analogous structural changes could impact the brain function and behavioral repertoire of infants and children following significant prenatal exposures.

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http://linkedlifedata.com/resource/pubmed/journal/8401784

http://linkedlifedata.com/resource/pubmed/chemical/Cocaine

0736-5748

Print

NLM

309-20

pubmed-meshheading:15380830-Animals, pubmed-meshheading:15380830-Animals, Newborn, pubmed-meshheading:15380830-Attention, pubmed-meshheading:15380830-Cocaine, pubmed-meshheading:15380830-Dose-Response Relationship, Drug, pubmed-meshheading:15380830-Female, pubmed-meshheading:15380830-Gestational Age, pubmed-meshheading:15380830-Injections, Intravenous, pubmed-meshheading:15380830-Male, pubmed-meshheading:15380830-Maternal-Fetal Exchange, pubmed-meshheading:15380830-Mice, pubmed-meshheading:15380830-Neurons, pubmed-meshheading:15380830-Pregnancy, pubmed-meshheading:15380830-Prenatal Exposure Delayed Effects, pubmed-meshheading:15380830-Somatosensory Cortex

Laboratory of Molecular and Developmental Neuroscience, Department of Neurology, Massachusetts General Hospital, Room 2508, 149 13th Street, Charlestown, MA 02129, USA.