BiomedExperts ProfilePublication Detail
The publication detail shows the title, authors (with indicators showing other profiled authors), information on the publishing organization, abstract and a link to the article in PubMed. This abstract is what is used to create the fingerprint of the publication. If any grants are referenced by the publication, they will be listed here as well.
Dendritic pruning of the medial amygdala during pubertal development of the male Syrian hamster.
Julia L Zehr; Brigitte J Todd; Kalynn M Schulz; Margaret M McCarthy; Cheryl L Sisk (Profiled Author: Margaret M McCarthy)
Neuroscience Program, Michigan State University, East Lansing, MI 48824, USA. zehrj@msu.edu
Journal of neurobiology 2006;66(6):578-90.
The medial amygdala (Me), a brain region essential for mating behavior, changes in size during puberty. In pre-, mid-, and late pubertal (21, 35, and 49 days of age) male Syrian hamsters, we examined neuronal structure in Me and protein levels of spinophilin and synaptophysin in the amygdaloid complex for evidence of synaptic plasticity coincident with behavioral and physiological development. Body weight, testes weight, and testosterone levels increased during puberty. Mounting behavior, including ectopic, nonintromittive, and intromittive mounts, also increased. Neuronal structure in the posterodorsal medial amygdala (MePD) was assessed in Golgi-impregnated neurons. Pruning occurred during puberty in the number of dendrites emanating from the cell body and in terminal dendritic spine densities. Approximately half of all MePD neurons analyzed had an axon emanating from a dendrite rather than the cell body. However, prepubertal males were more likely to have the axon emanating from a higher order dendritic segment (secondary or tertiary) than were mid- and late pubertal males. Finally, protein levels in the amygdaloid complex varied with pubertal age. Spinophilin decreased, while synaptophysin and GAPDH protein levels increased. These results suggest that puberty is a period of dramatic synaptic plasticity in Me. Specifically, pruning of dendrites and spines, in combination with axonal changes, is likely to modify the afferent influences and electrophysiological properties of Me neurons. Because the Me is an integral component of a social behavior neural network, these changes may be related not only to sexual behavior, but also to other behaviors that mature during puberty, including aggressive, risk-taking, fear-related, and parental behaviors.
2 Originating Grant
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1.
MCCARTHY, MARGARET M
Amino Acid Transmitters and Brain Sexual Differences
1 April 1995 - 31 March 2017
NATIONAL INSTITUTE OF MENTAL HEALTH
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2.
Mccarthy, Margaret M
Scientific Context
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