Date of Award

8-1-2014

Degree Type

Dissertation

Degree Name

Doctor of Philosophy

Field of Study

Biomedical Sciences

Department

Graduate School of Biomedical Sciences

First Advisor

Mark E. Mummert

Second Advisor

Harlan Jones

Third Advisor

Rance Berg

Abstract

CD44 is a cell surface glycoprotein that serves as a multifunctional receptor aiding in trafficking and adhesion of immune cells. CD44 also serves as a recruitment platform for signaling molecules and has been shown to regulate proliferation. In several types of leukemia the presence or absence of CD44 expression is associated with different clinical outcomes, with patients who have increased expression of CD44 exhibiting a stronger response to conventional chemo- and radiotherapy. By using Jurkat T cells, which do not express CD44, to determine the effects of CD44 expression in a model Acute Lymphocytic Leukemia cell line, we have outlined two major areas of study. Firstly, upon expression of CD44, Jurkat T cells proliferate slowly compared to the control cells. This decrease in proliferation is coupled to an arrest in the cell cycle during the transition from the G1 phase into S phase. The dysregulation of the cell cycle induced by CD44 also leads to the induction of aneuploidy. CD44 expressing Jurkat T cells have reduced mRNA expression for several key regulators of chromosome separation and the mitotic spindle complex. This finding, coupled with decreased EGR-1 expression, which controls the cyclins responsible for transition from G1 into S phase, leads to an unstable cell phenotype which proliferates slowly and accumulates extra chromosomes in daughter cells. The second area of study focuses on the mechanism by which CD44 expression at the cell surface results in the observed decreases in proliferation, Akt activation, and EGR-1 expression. We observed that CD44 expressing Jurkat cells show four to five times higher calcium influx when at rest compared to the vector control cells. This influx in calcium is due to CD44 expression activating a cell surface inducible calcium release activated calcium channel. The excess calcium activates calcium-activated phosphatases and kinases, disrupting EGR-1 expression and inducing a hypophosphorylation of Akt. Together, these findings indicate that CD44 expression can regulate cell proliferation and signal transduction pathways in addition to its role in adhesion. Thus, our data provide a further understanding of how CD44 expression modifies leukemic cells into cells that are favorable for therapeutic intervention.

Comments

Racine, Ronny R., Effect of CD44 Expression on T Cell Acute Lymphocytic Leukemia. Doctor of Philosophy (Biomedical Sciences), Aug 2014. Available online August 2015.

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