Abstract

One of the most devastating birth defects affect the neural crest, a highly migratory stem cell-like population that contribute to craniofacial and cardiovascular development, and peripheral and enteric nervous system assembly. Cell lineage tracing and tissue transplantation studies have revealed the neural crest cell (NCC) migratory pathways emerge as discrete segregated streams, separated by neural-crest-free exclusion zones that appear to prevent the intermixing of NCC subpopulations and ensure their arrival at precise targets. These findings support the premise that neural crest cell guidance cues derive from the embryonic microenvironment and cell communication. Most noteworthy are the data we have generated in vivo showing cell-cell and cell-environment interactions may influence the directional migration of the neural crest. Based on these observations, we propose to test the central hypothesis that the microenvironment and cell-cell interactions associated with the neural crest-rich regions of the embryo contain informational cues with the potential to direct cells to precise targets. Our long term goal is to understand the biological mechanisms underlying neural crest migration that ultimately results in organ development. Our short term goal is to identify the key cellular and molecular mechanisms underlying the sculpting of cranial NCC migratory streams within an in vivo model. Using in vivo molecular perturbations and embryo microsurgery, together with photoactivation cell labeling, 4-D confocal imaging, cell tracking and cell behavior analyses, we propose to:
Aim 1 : Characterize the specific and dynamic cellular interactions essential for cranial neural crest migration using in vivo photoactivation cell labeling, 4-D confocal imaging, cell tracking and cell behavior analyses.
Aim 2 : To determine the role of neuropilins within the embryonic microenvironment in signaling and modulating neural crest migration.
Aim 3 : Investigate the role of the embryonic microenvironment in signaling and modulating neural crest migration, with particular focus on neuropilin- semaphorin and neuropilin-VEGF interactions. ? ? Public Health Relevance: At the completion of these studies, we expect to have an increased understanding of guidance cues and pathways that directly modulate neural crest migration that could be translated for novel therapeutic applications. ? ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Project (R01)
Project #
1R01HD057922-01A1
Application #
7532831
Study Section
Development - 2 Study Section (DEV2)
Program Officer
Henken, Deborah B
Project Start
2008-09-30
Project End
2013-07-31
Budget Start
2008-09-30
Budget End
2009-07-31
Support Year
1
Fiscal Year
2008
Total Cost
$337,875
Indirect Cost

  Institution

Name
Stowers Institute for Medical Research
Department
Type
DUNS #
614653652
City
Kansas City
State
MO
Country
United States
Zip Code
64110

  Publications

Bailey, Caleb M; Kulesa, Paul M (2014) Dynamic interactions between cancer cells and the embryonic microenvironment regulate cell invasion and reveal EphB6 as a metastasis suppressor. Mol Cancer Res 12:1303-13
Ridenour, Dennis A; McLennan, Rebecca; Teddy, Jessica M et al. (2014) The neural crest cell cycle is related to phases of migration in the head. Development 141:1095-103
Wynn, Michelle L; Rupp, Paul; Trainor, Paul A et al. (2013) Follow-the-leader cell migration requires biased cell-cell contact and local microenvironmental signals. Phys Biol 10:035003
Kulesa, Paul M; McKinney, Mary C; McLennan, Rebecca (2013) Developmental imaging: the avian embryo hatches to the challenge. Birth Defects Res C Embryo Today 99:121-33
McKinney, Mary C; Fukatsu, Kazumi; Morrison, Jason et al. (2013) Evidence for dynamic rearrangements but lack of fate or position restrictions in premigratory avian trunk neural crest. Development 140:820-30
Morrison, Jason A; Bailey, Caleb M; Kulesa, Paul M (2012) Gene profiling in the avian embryo using laser capture microdissection and RT-qPCR. Cold Spring Harb Protoc 2012:
McLennan, Rebecca; Dyson, Louise; Prather, Katherine W et al. (2012) Multiscale mechanisms of cell migration during development: theory and experiment. Development 139:2935-44
Ridenour, Dennis A; McKinney, Mary Cathleen; Bailey, Caleb M et al. (2012) CycleTrak: a novel system for the semi-automated analysis of cell cycle dynamics. Dev Biol 365:189-95
Wynn, Michelle L; Kulesa, Paul M; Schnell, Santiago (2012) Computational modelling of cell chain migration reveals mechanisms that sustain follow-the-leader behaviour. J R Soc Interface 9:1576-88
Kulesa, Paul M; Dickinson, Mary E; Hadjantonakis, Anna-Katerina (2011) Highlights of the special imaging issue. Genesis 49:479-83

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