Your search keyword '"Moon, Jung-il"' showing total 2 results

1. Target-dependent inhibition of sympathetic neuron growth via modulation of a BMP signaling pathway

Author

Moon, Jung-Il and Birren, Susan J.

Subjects

Bone morphogenetic proteins -- Growth, Bone morphogenetic proteins -- Analysis, Genetic research -- Growth, Genetic research -- Analysis, Neurons -- Growth, Neurons -- Analysis, Gene expression -- Growth, Gene expression -- Analysis, Company growth, Biological sciences

Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.ydbio.2007.12.041 Byline: Jung-Il Moon, Susan J. Birren Keywords: Sympathetic neuron; Bone morphogenetic protein; Basic helix-loop-helix transcription factor; Matrix Gla protein; Cardiac myocyte; Target contact; Microarray Abstract: Target-derived factors modulate many aspects of peripheral neuron development including neuronal growth, survival, and maturation. Less is known about how initial target contact regulates changes in gene expression associated with these developmental processes. One early consequence of contact between growing sympathetic neurons and their cardiac myocyte targets is the inhibition of neuronal outgrowth. Analysis of neuronal gene expression following this contact revealed coordinate regulation of a bone morphogenetic protein (BMP)-dependent growth pathway in which basic helix-loop-helix transcription factors and downstream neurofilament expression contribute to the growth dynamics of developing sympathetic neurons. BMP2 had dose-dependent growth-promoting effects on sympathetic neurons cultured in the absence, but not the presence, of myocyte targets, suggesting that target contact alters neuronal responses to BMP signaling. Target contact also induced the expression of matrix Gla protein (MGP), a regulator of BMP function in the vascular system. Increased MGP expression inhibited BMP-dependent neuronal growth and MGP expression increased in sympathetic neurons during the period of target contact in vivo. These experiments establish MGP as a novel regulator of BMP function in the nervous system, and define developmental transitions in BMP responses during sympathetic development. Author Affiliation: Department of Biology, National Center for Behavioral Genomics, Brandeis University, Waltham, MA 02254-9110, USA Article History: Received 10 July 2007; Revised 19 December 2007; Accepted 29 December 2007

Published

2008

2. Role for calcium/calmodulin-dependent protein kinase II in the p75-mediated regulation of sympathetic cholinergic transmission

Author

Slonimsky, John D., Mattaliano, Mark D., Moon, Jung-il, Griffith, Leslie C., and Birren, Susan J.

Subjects

Brain-derived neurotrophic factor -- Research, Protein kinases -- Properties, Cholinergic mechanisms -- Research, Nerve growth factor -- Research, Science and technology

Abstract

Neurotrophins regulate sympathetic neuron cotransmission by modulating the activity-dependent release of norepinephrine and acetylcholine. Nerve growth factor promotes excitatory noradrenergic transmission, whereas brain-derived neurotrophic factor (BDNF), acting through the p75 receptor, increases inhibitory cholinergic transmission. This regulation of corelease by target-derived factors leads to the functional modulation of myocyte beat rate in neuron-myocyte cocultures. Calcium/calmodulin-dependent protein kinase II (CaMKII) has been implicated in the control of both pre- and postsynaptic mechanisms of synaptic plasticity. We demonstrate that CaMKII acts in conjunction with p75 signaling to regulate cholinergic transmission between sympathetic neurons and heart cells. Inhibition of presynaptic CaMKII prevents the BDNF-dependent shift to inhibitory neurotransmission, whereas presynaptic expression of a constitutively active CaMKII results in inhibitory neurotransmission in the absence of added BDNF, suggesting that activation of presynaptic CaMKII is both necessary and sufficient for a shift from excitatory to inhibitory transmission. Several isozymes of CaMKII are expressed in sympathetic neurons, with the [delta]-CaMKII being activated by BDNF and nerve growth factor. Activated CaMKII is less effective at promoting cholinergic transmission in the absence of p75 signaling, demonstrating that p75 and CaMKII act to coordinate neurotransmitter selection in sympathetic neurons. brain-derived neurotrophic factor | p75 | sympathetic neurons

Published

2006