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Embryonic Cell Recognition: Specificity Determinants

$180,420R01FY2017HDNIH

Duke University, Durham NC

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Abstract

DESCRIPTION (provided by applicant): mesenchyme cells of the sea urchin embryo provide a model system for exploring details of an epithelial to mesenchyme transition (EMT). This morphogenetic movement occurs in all organisms that produce, muscle, bone, and other mesenchyme tissues. Curiously, many parts of the EMT process are co-opted and used by metastatic cells often leading to catastrophic consequences. The EMT is highly complex and normally thought to be well controlled. Here, the system will be examined in detail to determine how the EMT is transcriptionally controlled and coordinated under normal circumstances. A developmental Gene Regulatory Network (GRN) was assembled during the previous funding cycles, and 10 transcription factors were discovered to have the proximal responsibility of controlling the EMT. Different subsets of the 10 transcription factors separately control onset of motility, invasive penetration of the basal lamina, de-adhesion, endocytosis, and other components of the EMT. This project will obtain answers to missing information on how the control circuit is activated, how the 10 transcription factors are integrated to coordinately regulate the complex cellular sequence that occurs in an EMT, and how the same control circuit is activated at least twice in development by two different tissues. The project will examine how 12 different cellular events are coordinately timed to sequence the transition. Each function utilizes many proteins and these must fall under the overall control circuitry. Since the same controlling circuit is activated in different cell types just upstream of EMT onset, the discovery f how that cell switches into the EMT circuit will be of great value both in normal embryonic cells, and in various disease states where an EMT launches the dissemination of abnormal cells.

View original record on NIH RePORTER →