Investigation of the Long Non Coding RNA Growth Arrest Specific 5 Control of Cell Fate Público

Esposito, Regan (Summer 2018)

Permanent URL: https://etd.library.emory.edu/concern/etds/pc289j08t?locale=es

Published

Abstract

Long non coding RNAs are a novel class of RNAs that are poorly understood and challenging to study. The long non coding RNA Growth Arrest Specific 5 (Gas5) is a known tumor suppressor. Gas5 has been shown to interact with two transcription factors: the Glucocorticoid Receptor (GR) and the Y-Box Binding protein 1 (YBX1) and potentially interacts with a wide variety of proteins. Gas5 structural interaction with the GR, its impact on transcription, and potential interactions with other proteins can explain how Gas5 controls apoptosis and proliferation as well as provide insight into the study of lncRNAs. This work examines the various activities of Gas5 and proposes a method to continue to study and characterize this lncRNA.

Chapter 1: Investigating the Long Non Coding RNA Growth Arrest Specific 5

Investigating the Long Non Coding RNA Growth Arrest Specific 5 1

LncRNA Growth Arrest Specific 5 1

LncRNA Growth Arrest Specific 5 is downregulated in multiple cancer types 1-2

The Glucocorticoid Receptor 2-3

LncRNA Gas5 Interacts with Multiple Proteins 3-4

References 5-8

Figures and Tables

1.1 Domain Map of GR 2

1.2 Mechanisms of Transcriptional Regulation by Gas 4

Chapter 2: Structural Characterization of GR DBD and Gas5 as DNA

Introduction 9

Results 10-11

Discussion 12

Figures and Tables 13 - 25

Figure 2.1 Domain Map of GR 13

Figure 2.2. Gas5 as DNA has the Same Effect as Full Length Gas5

RNA 14

Figure 2.3. Gas5 DNA Constructs 15

Figure 2.4. FP with Gas5 as DNA and the GR DBD 16

Figure 2.5. FP with Gas5 as DNA with ancestral GR proteins 17

Figure 2.6. Fluorescence polarization binding experiments with

the MR DBD 18

Figure 2.7. Crystal Structure of the GR DBD and G549A DNA 19

Figure 2.8. Crystal structure of the GR DBD and G549A mutation

as DNA 20

Figure 2.9. Additional DNA Stem Constructs show Small

Crystals in Screening Trays 21

Figure 2.10. GR DBD complexed with Gas5 stem 542 22

Figure 2.11. Competition of the GR DBD off of DNA with full

length Gas5 and G549A RNA 23

Table 2.1. Gas5 Stem-Loop Constructs from the GR-DBD

Binding Region 24

Table 2.2. The GR DBD and G549A as DNA Crystal

Structure Statistics 25

Materials and Methods 26-28

References 29

Chapter 3: Impact of Gas5 on the Glucocorticoid Receptor Transcriptional Activity

Introduction 30-31

Results 32

Discussion 33

Figures and Tables 34-42

Figure 3.1. Gas5 as DNA has the Same Effect as Full Length

Gas5 RNA 34

Figure 3.2. Overexpression of Gas5 is inconsistent 35

Figure 3.3. Gas5 and G549A have no inhibitory effect of the

GR transcriptional activation in HeLa cells 36

Figure 3.4. Gas5 inhibits GR transcriptional activation in

HeLa cells, G549A does not 37

Figure 3.5. Gas5 blocks transcriptional activation of the

GR in A549 cells 38

Figure 3.6. Gas5 inhibits GR at the IL-6 promoter 39

Figure 3.7. Gas5 shows no significant effect on GR activity

in CV1 cells 40

Figure 3.8. Schematic of luciferase constructs available in the lab. 41

Table 3.1. qRT-PCR Primers 42

Materials and Methods 43

References 44-45

Chapter 4: Investigating other lncRNA Gas5 Interaction Partners

Introduction 46

Proposed Methodology 47

Discussion 48

Figures and Tables 49-52

Figure 4.1. Gene Ontology (GO) Analysis of Proteins

Observed in a Biotinylated Gas5 Pull Down Experiment 49

Figure 4.2. RAP-MS Representative Schematic 50

Figure 4.3. Each probe set is amplified with a T7 polymerase

sequence added 51

Figure 4.4. Probe sets A and B were in vitro transcribed 52

References 53

Chapter 5: LncRNA Gas5 Could Control Cell Fate through the Glucocorticoid Receptor, but it isn’t the Only Answer 54-56

About this Master's Thesis

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Permission granted by the author to include this thesis or dissertation in this repository. All rights reserved by the author. Please contact the author for information regarding the reproduction and use of this thesis or dissertation.

School	Laney Graduate School
Department	Biological and Biomedical Sciences
Subfield / Discipline	Biochemistry, Cell & Developmental Biology
Degree	M.S.
Submission	Master's Thesis
Language	English
Research Field	Chemistry, Biochemistry Biology, Cell Biology, Molecular
Palabra Clave	transcription factor cancer crystallography steroid hormone receptor glucocorticoid receptor lncRNA gas5 gr structural biology
Committee Chair / Thesis Advisor	Ortlund, Eric, Emory University
Committee Members	Seyfried, Nicholas, Emory University Conn, Graeme , Emory University Boise, Lawrence, Emory University Corbett, Anita, Emory University

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Investigation of the Long Non Coding RNA Growth Arrest Specific 5 Control of Cell Fate Público

Esposito, Regan (Summer 2018)

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About this Master's Thesis

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