Significant progress has been made recently towards understanding the molecular mechanisms that control synapse development in the mammalian brain. Our laboratory has uncovered a role for the activity-regulated bHLH transcripfion factor, Npas4, in the development of inhibitory synapses onto excitatory neurons and resulting effects on the balance between inhibitory and excitatory synapses. To understand the mechanism by which Npas4 controls inhibitory synapse development in vivo, we have generated mice that carry a cre-mediated conditional knockout mutation of f lpas4 Using this conditional knockout approach, we will examine the effect of loss of Npas4 on inhibitory synapse formation and funcfion at various fimes during development. We will also use this mouse model to test the role of Npais4 on inhibitory synapse maturafion and sensory experience-mediated synaptic plasficity in the developing visual cortex. In addifion, we will use a combination of chromafin immunoprecipitafion-sequencing and transcriptome-sequencing in conjunction with bioinformafic analysis to identify on a genome-wide scale the DNA occupancy sites of Npas4 and the RNA transcripts that Npas4 regulates. These studies will provide new insights into the genetic program that Npas4 controls to mediate its effect on inhibitory synapse development and the balance between excitatory and inhibitory inputs in the mammalian brain. These studies will be crucial to our understanding of how disorders of cognitive funcfion such as aufism spectrum disorders may arise when the delicate excitatory/inhibitory balance is disrupted and may suggest targets for treatments of these diseases.

Public Health Relevance

As defects in the balance between excitation and inhibition can lead to disorders of cognitive funcfion such as autism spectrum disorders, understanding how this delicate balance is established and maintained is crucial for the discovery of therapies to treat or prevent these diseases of cognition

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Dana-Farber Cancer Institute
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Zhang, Jing; Gao, Xueliang; Schmit, Fabienne et al. (2017) CRKL Mediates p110?-Dependent PI3K Signaling in PTEN-Deficient Cancer Cells. Cell Rep 20:549-557
Soltis, Anthony R; Kennedy, Norman J; Xin, Xiaofeng et al. (2017) Hepatic Dysfunction Caused by Consumption of a High-Fat Diet. Cell Rep 21:3317-3328
Mardinly, A R; Spiegel, I; Patrizi, A et al. (2016) Sensory experience regulates cortical inhibition by inducing IGF1 in VIP neurons. Nature 531:371-5
Labidi-Galy, S I; Clauss, A; Ng, V et al. (2015) Elafin drives poor outcome in high-grade serous ovarian cancers and basal-like breast tumors. Oncogene 34:373-83
Lou, Shan; Pan, Xiaoxin; Huang, Tianwen et al. (2015) Incoherent feed-forward regulatory loops control segregation of C-mechanoreceptors, nociceptors, and pruriceptors. J Neurosci 35:5317-29
Hill, Sarah J; Rolland, Thomas; Adelmant, Guillaume et al. (2014) Systematic screening reveals a role for BRCA1 in the response to transcription-associated DNA damage. Genes Dev 28:1957-75
Kim, Hyungjin; Dejsuphong, Donniphat; Adelmant, Guillaume et al. (2014) Transcriptional repressor ZBTB1 promotes chromatin remodeling and translesion DNA synthesis. Mol Cell 54:107-118
Silbereis, John C; Nobuta, Hiroko; Tsai, Hui-Hsin et al. (2014) Olig1 function is required to repress dlx1/2 and interneuron production in Mammalian brain. Neuron 81:574-87
Meijer, Dimphna H; Sun, Yu; Liu, Tao et al. (2014) An amino terminal phosphorylation motif regulates intranuclear compartmentalization of Olig2 in neural progenitor cells. J Neurosci 34:8507-18
Ficarro, Scott B; Biagi, Jessica M; Wang, Jinhua et al. (2014) Protected amine labels: a versatile molecular scaffold for multiplexed nominal mass and sub-Da isotopologue quantitative proteomic reagents. J Am Soc Mass Spectrom 25:636-50

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