Rebound Potentiation of Inhibition in Juvenile Visual Cortex Requires Vision-Induced BDNF Expression

Gao, Ming; Maynard, Kristen R.; Chokshi, Varun; Lee, Song; Jacobs, C.; Wang, H.; Tran, Trinh; Martinowich, Keri; Lee, H.-K.

doi:10.1523/jneurosci.5454-13.2014

Cited by 28 publications

(35 citation statements)

References 38 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The only effect on the amplitude of mIPSCs was observed when DE mice were re-exposed to light during the critical period, which we recently reported as a novel form of rebound potentiation of inhibition that depends on rapid transcription of brain-derived neurotrophic factor [37]. Our data indicate that the regulation of mIPSC amplitude and frequency can occur independently of each other, and that visual experience specifically controls mIPSC frequency in adults.…”

Section: Results (A) Visual Experience Exclusively Regulates Miniatursupporting

confidence: 49%

“…We recently reported that once the developmental switch in GABA A R properties occurs the receptors are no longer regulated by neural activity [37] (electronic supplementary material, figure S1). At the age when postsynaptic GABA A Rs are malleable, changes occurred through altering the number of receptors rather than their conductance [37] (electronic supplementary material, figure S1c,d). This is also seen from in vitro studies [51,52], suggesting that the main postsynaptic mode of inhibitory synapse regulation is via controlling the number of GABA A Rs.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Experience-dependent homeostasis of ‘noise’ at inhibitory synapses preserves information coding in adult visual cortex

Gao

Whitt

Huang

et al. 2017

Phil. Trans. R. Soc. B

View full text Add to dashboard Cite

Synapses are intrinsically 'noisy' in that neurotransmitter is occasionally released in the absence of an action potential. At inhibitory synapses, the frequency of action potential-independent release is orders of magnitude higher than that at excitatory synapses raising speculations that it may serve a function. Here we report that the frequency of action potential-independent inhibitory synaptic 'noise' (i.e. miniature inhibitory postsynaptic currents, mIPSCs) is highly regulated by sensory experience in visual cortex. Importantly, regulation of mIPSC frequency is so far the predominant form of functional plasticity at inhibitory synapses in adults during the refractory period for plasticity and is a locus of rapid non-genomic actions of oestrogen. Models predict that regulating the frequency of mIPSCs, together with the previously characterized synaptic scaling of miniature excitatory PSCs, allows homeostatic maintenance of both the mean and variance of inputs to a neuron, a necessary feature of probabilistic population codes. Furthermore, mIPSC frequency regulation allows preservation of the temporal profile of neural responses while homeostatically regulating the overall firing rate. Our results suggest that the control of inhibitory 'noise' allows adaptive maintenance of adult cortical function in tune with the sensory environment.This article is part of the themed issue 'Integrating Hebbian and homeostatic plasticity'.

show abstract

Section: Results (A) Visual Experience Exclusively Regulates Miniatursupporting

confidence: 49%

Section: Discussionmentioning

confidence: 99%

Experience-dependent homeostasis of ‘noise’ at inhibitory synapses preserves information coding in adult visual cortex

Gao

Whitt

Huang

et al. 2017

Phil. Trans. R. Soc. B

View full text Add to dashboard Cite

show abstract

“…Previous efforts to understand the functional significance of individual transcripts focused exclusively on promoter IV because of its established role in activity-dependent transcription (Gao et al, 2014;Hong et al, 2008;Martinowich et al, 2011;Sakata et al, 2013;Sakata et al, 2009). These studies determined that loss of BDNF expression from promoter IV is sufficient to generate specific behavioral and cellular effects, but whether loss from other Bdnf promoters caused similar impairments was not studied (Gao et al, 2014;Hong et al, 2008;Martinowich et al, 2011;Sakata et al, 2013;Sakata et al, 2009). To address the outstanding question of whether BDNF produced from different promoters governs discrete molecular, cellular, and behavioral functions, we generated a novel set of transgenic mice in which BDNF production from promoters I, II, IV, or VI is selectively disrupted.…”

Section: Discussionmentioning

confidence: 99%

“…Moreover, a selective deletion of BDNF exons I-III that spares the remaining portion of the gene is sufficient to cause obesity in humans (Han et al, 2008). In mice, selective BDNF disruption from promoter IV, which significantly contributes to activity-dependent BDNF production, leads to impaired GABAergic transmission and behavioral perseverance (Gao et al, 2014;Hong et al, 2008;Martinowich et al, 2011;Sakata et al, 2013;Sakata et al, 2009). …”

Section: Introductionmentioning

confidence: 99%

Functional Role of BDNF Production from Unique Promoters in Aggression and Serotonin Signaling

Maynard

Hill

Calcaterra

et al. 2015

Neuropsychopharmacol

150

View full text Add to dashboard Cite

Brain-derived neurotrophic factor (BDNF) regulates diverse biological functions ranging from neuronal survival and differentiation during development to synaptic plasticity and cognitive behavior in the adult. BDNF disruption in both rodents and humans is associated with neurobehavioral alterations and psychiatric disorders. A unique feature of Bdnf transcription is regulation by nine individual promoters, which drive expression of variants that encode an identical protein. It is hypothesized that this unique genomic structure may provide flexibility that allows different factors to regulate BDNF signaling in distinct cell types and circuits. This has led to the suggestion that isoforms may regulate specific BDNF-dependent functions; however, little scientific support for this idea exists. We generated four novel mutant mouse lines in which BDNF production from one of the four major promoters (I, II, IV, or VI) is selectively disrupted (Bdnf-e1, -e2, -e4, and -e6 mice) and used a comprehensive comparator approach to determine whether different Bdnf transcripts are associated with specific BDNF-dependent molecular, cellular, and behavioral phenotypes. Bdnf-e1 and -e2 mutant males displayed heightened aggression accompanied by convergent expression changes in specific genes associated with serotonin signaling. In contrast, BDNF-e4 and -e6 mutants were not aggressive but displayed impairments associated with GABAergic gene expression. Moreover, quantifications of BDNF protein in the hypothalamus, prefrontal cortex, and hippocampus revealed that individual Bdnf transcripts make differential, regionspecific contributions to total BDNF levels. The results highlight the biological significance of alternative Bdnf transcripts and provide evidence that individual isoforms serve distinct molecular and behavioral functions.

show abstract

“…bicucullin or picrotoxin), decreases AMPA receptor content resulting in inhibition of synaptic strength. In in vivo system, depriving sensory input such as vision, scales up excitatory synapses in the visual cortex and, reexposing the visually deprived animals to light results in scaling down of synaptic strength (5–12). This sensory experience dependent synaptic scaling is mainly considered to be postsynaptic in nature at the level of AMPA receptor expression and activation globally or at individual synapses (3;13).…”

Section: Introductionmentioning

confidence: 99%

Prolonged esophageal acid exposures induce synaptic downscaling of cortical membrane AMPA receptor subunits in rats

Banerjee

Medda

Zhang

et al. 2016

Neurogastroenterology Motil

View full text Add to dashboard Cite

Background we recently reported the involvement of AMPA receptor subunit upregulation and phosphorylation in the rostral cingulate cortex (rCC) as the underlying mechanism of acute esophageal acid-induced cortical sensitization. Based on these findings we proposed to investigate whether prolonged esophageal acid exposures in rats exhibit homeostatic synaptic scaling through downregulation of AMPA receptor expression in rCC neurons. We intended to study further whether this compensatory mechanism is impaired when rats are preexposed to repeated esophageal acid exposures neonatally during neuronal development. Methods two different esophageal acid exposure protocols in rats were used. Since AMPA receptor trafficking and channel conductance depend on CaMKIIα-mediated phosphorylation of AMPA receptor subunits, we examined the effect of esophageal acid on CaMKIIα activation and AMPA receptor expression in synaptoneurosomes (SYNs) and membrane preparations from rCCs. Key Results in cortical membrane preparations, GluA1 and pGluA1Ser831 expression were significantly downregulated following prolonged acid exposures in adult rats, this was accompanied by a significant downregulation of cortical membrane pCaMKIIα expression. No change in GluA1 and pGluA1Ser831 expression was observed in rCC membrane preparations in rats preexposed to acid neonatally followed by adult rechallenge. Conclusions & Inferences this study along with our previous findings suggests that synaptic AMPA receptor subunits expression and phosphorylation may be involved bidirectionally in both esophageal acid-induced neuronal sensitization as well as acid-dependent homeostatic plasticity in cortical neurons. The impairment of homeostatic compensatory mechanism as observed following early-in-life acid exposure could be the underlying mechanism of heightening cortical sensitization and esophageal hypersensitivity in patients with GERD.

show abstract

Rebound Potentiation of Inhibition in Juvenile Visual Cortex Requires Vision-Induced BDNF Expression

Cited by 28 publications

References 38 publications

Experience-dependent homeostasis of ‘noise’ at inhibitory synapses preserves information coding in adult visual cortex

Experience-dependent homeostasis of ‘noise’ at inhibitory synapses preserves information coding in adult visual cortex

Functional Role of BDNF Production from Unique Promoters in Aggression and Serotonin Signaling

Prolonged esophageal acid exposures induce synaptic downscaling of cortical membrane AMPA receptor subunits in rats

Contact Info

Product

Resources

About