Planar cell polarity (PCP) describes the polarization of cells within the plane of a tissue and is an essential feature of embryonic morphogenesis. Disruption of vertebrate PCP is associated with multiple disorders including neural tube closure defects, ciliopathies, deafness, and potentially cancer. Two major questions face all fields of PCP research. First, what are the downstream effectors that transform signals from core PCP proteins into changes in cell polarity? Second, how is information communicated between cells to establish and maintain polarity in a planar tissue? Extensive characterization of PCP in the fly wing epithelium demonstrates those antagonistic interactions between Van Gogh and Frizzled (Fz)/Disheveled (Dsh) signaling function to polarize the formation of actin-rich hairs. By contrast despite a decade of speculation that asymmetric expression of these core PCP proteins polarizes the formation of membrane protrusions during gastrulation cell movements, the actual molecular mechanisms remain unclear. The goal of this proposal is to provide a new experimental paradigm explaining how PCP signaling coordinates the directed migration of polarized gastrula cell populations. Our central hypothesis is that Vang-like 2 (Vangl2) and Fz/Dsh signaling differentially impact cell-matrix interactions and cell-cell adhesion, respectivel, to control polarized membrane protrusive activity.
Specific Aims : First, we will establish the mechanism whereby Vangl2 regulates Mmp14 activity, ECM proteolysis, and PCP. We will use a combination of in vivo molecular and genetic manipulations, cell transplantation methods, and confocal/time-lapse imaging to identify domains of Vangl2 expression and analyze membrane protrusion dynamics. We will use in vitro biochemical assays to identify signaling mechanisms connecting Vangl2 and integrin alpha5beta1 function. In the second aim, we will determine the contribution of cadherin-mediated adhesion to Fz/Dsh-dependent regulation of ECM assembly and PCP. We will use molecular and genetic methods, transplantations, and microscopic imaging to identify Fz, Dsh, and cadherin expression domains, manipulate cell adhesion, and analyze membrane protrusion dynamics. We will use biochemical methods to identify mechanisms whereby Fz/Dsh signaling regulates cell surface N-cadherin expression during gastrulation. In the third aim, we will dissect the abilities of Vangl2 and Fz/Dsh signaling to coordinate PCP across a field of migrating gastrula cells. Here, we will use a powerful combination of mosaic analyses and confocal imaging to quantify non-autonomous effects on membrane protrusion orientation, cell polarity, and PCP protein localization. Using these methods, we will identify both short- and long-range field effects and determine for the first time how changes in ECM structure and cell cohesion impact PCP during the collective movement of gastrula cells. Completion of this grant will significantly advance our understanding of vertebrate PCP. Since PCP occurs in the context of an ECM microenvironment and cell-cell adhesion, our data should have broad implications for other developmental and disease processes.

Public Health Relevance

Planar cell polarity is a fundamental process whereby groups of cells within the plane of a tissue become oriented along a specific axis. Disruption of planar cell polarity is associated with several disease processes including neural tube defects, ciliopathies, and potentially cancer. The proposed research will identify key mechanisms whereby core planar cell polarity proteins regulate the coordinated and directed migration of polarized cell populations.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
1R01GM102356-01A1
Application #
8504571
Study Section
Intercellular Interactions (ICI)
Program Officer
Nie, Zhongzhen
Project Start
2013-09-20
Project End
2018-08-31
Budget Start
2013-09-20
Budget End
2014-08-31
Support Year
1
Fiscal Year
2013
Total Cost
$242,896
Indirect Cost
$52,896
Name
Middle Tennessee State University
Department
Type
DUNS #
077648780
City
Murfreesboro
State
TN
Country
United States
Zip Code
37132