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Title page for ETD etd-07182013-092411

Type of Document Dissertation
Author Jowhar, Dawit Kamil
URN etd-07182013-092411
Title Characterizing the mechanisms that regulate cell polarity during eukaryotic chemotaxis
Degree PhD
Department Biological Sciences
Advisory Committee
Advisor Name Title
Dr. Charles Singleton Committee Chair
Dr. Andries Zijlstra Committee Member
Dr. Ann Richmond Committee Member
Dr. Christopher Janetopoulos Committee Member
Dr. John Wikswo Committee Member
  • Dictyostelium
  • cell polarity
  • Ras
  • PTEN. microtubules
  • microfluidics
  • actin
  • PIP2
Date of Defense 2013-06-27
Availability unrestricted
Cells that are migrating in a chemical gradient display a polarized distribution of signaling and cytoskeletal components. We have investigated the mechanism of polarity establishment by using the model system Dictyostelium discoideum. We used both vegetative cells that are unpolarized and developed cells that have a distinct front and back and display a polarized morphology. In order to gain insight into the role of polarity during migration, we developed an open microfluidic device (OMD) that confines cells in narrow channels. The first version of the OMD was used to study the migration of unpolarized and polarized cells by luring them into microchannels with one micropipette generating a gradient of either folic acid (for vegetative cells) or cAMP (for developed cells). The second version used two micropipettes that were placed on either side of the microchannels and permitted gradient switching. We were able to observe the redistribution of signaling and cytoskeletal components as the cells reestablished their polarity after the gradient was switched. These experiments revealed that Ras activity and PTEN are reciprocally regulated, and suggest that high PI(4,5)P2 levels block Ras activity at the new leading edge. Similar findings were found in randomly moving and in dividing cells. F-actin polymerization occurs simultaneously with front extension, while microtubules redistribute to the rear and orient the microtubule organizing center (MTOC) and nucleus in polarized cells. Treated cells lacking an actin cytoskeleton had signaling responses, but did not re-localize the MTOC/nucleus in spatial gradients of chemoattractant. PTEN, which binds PI(4,5)P2 is not necessary for initial establishment of the cell rear but helps stabilize polarity by increasing “backness” at the rear of the cell.
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