Chronic CB1 cannabinoid receptor antagonism persistently increases dendritic spine densities in brain regions important to zebra finch vocal learning and production in an antidepressant-sensitive manner

Holland, Tessa L.; Soderstrom, Ken

doi:10.1016/j.brainres.2017.07.015

Cited by 2 publications

(1 citation statement)

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“…In adult male zebra finches, dendritic spine densities in NCM rapidly double soon after brief (30 mins) exposures to novel song, an effect which is suppressed when endocannabinoid signaling is blocked (Gilbert and Soderstrom, 2013;Holland and Soderstrom, 2017). Intriguingly, acute estrogen treatment rapidly suppresses inhibitory synaptic transmission in rodent HP via an interaction with the cannabinoid receptor type 1 (CB1) (Huang and Woolley, 2012).…”

Section: ) Do Neuroestrogens Acutely Remodel Dendritic Spines In Ncmmentioning

confidence: 99%

Neuroestrogens rapidly shape auditory circuits to support communication learning and perception: Evidence from songbirds

Vahaba

Remage‐Healey

2018

Hormones and Behavior

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Contribution to Special Issue on Fast effects of steroids. Steroid hormones, such as estrogens, were once thought to be exclusively synthesized in the ovaries and enact transcriptional changes over the course of hours to days. However, estrogens are also locally synthesized within neural circuits, wherein they rapidly (within minutes) modulate a range of behaviors, including spatial cognition and communication. Here, we review the role of brain-derived estrogens (neuroestrogens) as modulators within sensory circuits in songbirds. We first present songbirds as an attractive model to explore how neuroestrogens in auditory cortex modulate vocal communication processing and learning. Further, we examine how estrogens may enhance vocal learning and auditory memory consolidation in sensory cortex via mechanisms similar to those found in the hippocampus of rodents and birds. Finally, we propose future directions for investigation, including: 1) the extent of developmental and hemispheric shifts in aromatase and membrane estrogen receptor expression in auditory circuits; 2) how neuroestrogens may impact inhibitory interneurons to regulate audition and critical period plasticity; and, 3) dendritic spine plasticity as a candidate mechanism mediating estrogen-dependent effects on vocal learning. Together, this perspective of estrogens as neuromodulators in the vertebrate brain has opened new avenues in understanding sensory plasticity, including how hormones can act on communication circuits to influence behaviors in other vocal learning species, such as in language acquisition and speech processing in humans.

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Section: ) Do Neuroestrogens Acutely Remodel Dendritic Spines In Ncmmentioning

confidence: 99%

Neuroestrogens rapidly shape auditory circuits to support communication learning and perception: Evidence from songbirds

Vahaba

Remage‐Healey

2018

Hormones and Behavior

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CB1 antagonism increases excitatory synaptogenesis in a cortical spheroid model of fetal brain development

Papariello

Taylor

Soderstrom

et al. 2021

Sci Rep

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The endocannabinoid system (ECS) plays a complex role in the development of neural circuitry during fetal brain development. The cannabinoid receptor type 1 (CB1) controls synaptic strength at both excitatory and inhibitory synapses and thus contributes to the balance of excitatory and inhibitory signaling. Imbalances in the ratio of excitatory to inhibitory synapses have been implicated in various neuropsychiatric disorders associated with dysregulated central nervous system development including autism spectrum disorder, epilepsy, and schizophrenia. The role of CB1 in human brain development has been difficult to study but advances in induced pluripotent stem cell technology have allowed us to model the fetal brain environment. Cortical spheroids resemble the cortex of the dorsal telencephalon during mid-fetal gestation and possess functional synapses, spontaneous activity, an astrocyte population, and pseudo-laminar organization. We first characterized the ECS using STORM microscopy and observed synaptic localization of components similar to that which is observed in the fetal brain. Next, using the CB1-selective antagonist SR141716A, we observed an increase in excitatory, and to a lesser extent, inhibitory synaptogenesis as measured by confocal image analysis. Further, CB1 antagonism increased the variability of spontaneous activity within developing neural networks, as measured by microelectrode array. Overall, we have established that cortical spheroids express ECS components and are thus a useful model for exploring endocannabinoid mediation of childhood neuropsychiatric disease.

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Chronic CB1 cannabinoid receptor antagonism persistently increases dendritic spine densities in brain regions important to zebra finch vocal learning and production in an antidepressant-sensitive manner

Cited by 2 publications

References 57 publications

Neuroestrogens rapidly shape auditory circuits to support communication learning and perception: Evidence from songbirds

Neuroestrogens rapidly shape auditory circuits to support communication learning and perception: Evidence from songbirds

CB1 antagonism increases excitatory synaptogenesis in a cortical spheroid model of fetal brain development

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