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MODULATION OF SONIC HEDGEHOG SIGNALING ALTERS CEREBELLAR DEVELOPMENT AND MEDULLOBLASTOMA FORMATION By Frances Yun Cheng Dissertation Submitted to the Faculty of the Graduate School of Vanderbilt University in partial fulfillment of the requirements for the degree of DOCTOR OF PHILOSOPHY in Cellular and Developmental Biology December 2013 Nashville, Tennessee Committee Members: Professor Chin Chiang Professor Christopher V.E. Wright Professor Bruce D. Carter Professor Robert J. Coffey Professor Ethan Lee Copyright © 2013 by Frances Yun Cheng All Rights Reserved To my parents and sister To my husband and baby boy i ACKNOWLEDGEMENTS The work presented here was made possible by Public Health Service award T32 GM07347 from the National Institute of General Medical Studies for the Vanderbilt Medical-Scientist Training Program (MSTP), and the National Institute Of Neurological Disorders And Stroke of the National Institutes of Health under Award Number F31NS074638. I would like to thank my advisor, Dr. Chin Chiang, who has always challenged, focused, and supported me. His scientific perception, intuitive curiosity, and preciseness have had a huge impact on my scientific training, and I will always feel grateful. I would like to thank other faculty members who aided in my scientific growth while at Vanderbilt University, particularly my committee chair, Dr. Chris Wright, who has shown incredible support and care for my scientific training, and my committee members: Dr. Robert Coffey, Dr. Bruce Carter and Dr. Ethan Lee. They have all continually provided guidance and encouragement for my research progress and career development. The Vanderbilt MSTP program has been a steady and consistent source of support and the strongest advocates for my success. I am thankful to Dr. Terry Dermody for initially recruiting me into the program and for continual inspiration, as well as Dr. Michelle Grundy, Dr. Jim Bills, Dr. Larry Swift and Melissa Krasnove for their continual support. Thanks also to my MSTP mentor Dr. Pampee Young, who has been supportive and provided me with personal and professional advice. The Vanderbilt Cell and Developmental Biology department has been instrumental to my success in graduate school and I’d like to thank the following members for their help: Elaine Caine, Kim Kane, Dr. Anthony Tharp, Mark Wozniak, Ian McCullough. Current and former members of the Chiang lab have been invaluable as friends and colleagues, both in the lab and outside of it. Dr. Ying Litingtung has been full of i i scientific knowledge, ideas, and encouragement. My thanks particularly go out to Jonathan Fleming, Kaitlyn Ryan, and Xi Huang (former member) for their support and discussions on a daily basis both scientifically and personally, and who taught me many of the things I know. This work would not be possible without them. I thank Jiang Liu, Tatiana Ketova, and Annabelle Williams who were great colleagues. I thank former mentors, Dr. Nenad Sestan, Dr. Mladen-Roko Rasin, and Dr. Vsevolod Gurevich who guided and supported me. I am certain I have the best MSTP class, whom I consider my family here in Nashville, particularly Elizabeth, Eric, Tanner, John, Brian, Caroline, and Courtney. Additionally, my friends from around the world have been there for me in the best and worst of times and for their support and prayers I am eternally grateful: Emely, Victoria, Jenny, Amy, Crissaris, Vanessa, Anna, Karen, Nana, Lynne, Connie, and many more. I have been blessed with the most wonderful family. My husband, Johnny Lu, has been by my side as a source of love and support from the moment I embarked on this journey. I couldn’t have done any of this without him. Our greatest blessing, baby Thomas, has given me so much joy and happiness. My dad (Ying), mom (Shirley), sister (Diana) have always been an inspiration to me and my strongest supporters. I strive to be more like them each day. Above all, I am thankful to my God for filling me with strength, love, hope, and purpose (Isaiah 40:28-31). ii i TABLE OF CONTENTS Page ACKNOWLEDGEMENTS………………………………………………………………………iv LIST OF TABLES…………………………………………………………………………...…..vii LIST OF FIGURES……………………………………………………………………….…… viii CHAPTER I. INTRODUCTION……..………………………...………………………………... 1 Cerebellar structure……………………………………………………. 1 Embryonic and early postnatal cerebellar development……..….…. 3 Sonic hedgehog signaling…………………………………….…….…. 12 Sonic hedgehog signaling in the cerebellum……………………..…. 15 Sonic hedgehog signaling and medulloblastoma……………….….. 17 Novel findings as elucidated by modulation of Shh signaling…..…. 23 II. WIDESPREAD CONTRIBUTION OF GDF7 LINEAGE TO CEREBELLAR CELL TYPES AND IMPLICATIONS FOR HEDGEHOG-DRIVEN MEDULLOBLASTOMA………………………...………………………………... 26 Introduction………..………………………………………..…..………. 26 Results………………………………………………………...…...……. 29 Discussion………………..………………………………….….………. 44 Materials and Methods……………………………………………...…. 52 Acknowledgements………………………………..……………….….. 54 III. GLIAL SONIC HEDGEHOG SIGNALING ACTIVITY IS REQUIRED FOR PROPER CORTICAL EXPANSION AND CEREBELLAR ARCHITECTURE………………………………………………………………… 55 Introduction………..……………………………………………………. 55 Results………………………………………………………..…...……. 58 Discussion………………..…………………………………….………. 88 Materials and Methods……………………………………………..…. 94 Acknowledgements……………………….…….………………….….. 96 IV. ANTAGONISM OF THE HEDGEHOG PATHWAY AT THE LEVEL OF GLI GENERAL DISCUSSION………...…………...………………………………... 84 TRANSCRIPTION BY SMALL MOLECULE 5-AMINOIMIDAZOLE-4- CARBOXAMIDE-1-ß-4-RIBOFURANOSIDE (AICAR)………………………. 98 Introduction……..………………………………………………………. 98 Results…………………………………………………….…..…...……. 101 Discussion………………..………………………………….…….……. 122 Materials and Methods……………………………………………….... 127 Acknowledgements………………………………..……………….….. 130 iv V. GENERAL DISCUSSION……………………...………………………………... 131 Summary…………..……………………………………………………. 131 Implications…………………………………………………..…...….…. 135 Future Directions………..………………………………….…….……. 141 REFERENCES…………………………………………………………………………….. 150 v LIST OF TABLES Table Page 1. Medulloblastoma subgroups…………………………………………… 20 v i LIST OF FIGURES Figure. Page 1.1 Cerebellar structure……………………...……………….……………………... 3 1.2 Early cerebellar development…………………………………………………… 7 1.3 Shh signaling pathway…………………………………………………………... 12 2.1 Shh pathway activation in Gdf7-lineage cells leads to cerebellar hyperplasia………………………………………………………………………... 30 2.2 Gdf7Cre/;SmoM2 mice develop medulloblastoma with CGNP features…….. 32 2.3 A subset of Gdf7-lineage cells express neural stem cell markers………….. 34 2.4 Roof plate cells give rise to a distinct population of cerebellar vermal radial glia cells…………………………………………………………………………… 39 2.5 Gdf7-lineage cells in the cerebellar rhombic lip are Lmx1a+ neural progenitor cells that give rise to CGNPs………………………………………. 42 2.6 Gdf7-lineage cells contribute to an extensive array of mature cerebellar cell types………………………………………………………………………….. 44 2.7 In situ hybridization for Gdf7 expression………………………………………. 48 3.1 TNC-YFP-expressing cells are Bergmann glia. ……………………………… 61 3.2 TNCYFP-CreER;SmoF/- (SmoBG) mutants display a hypoplastic cerebellum. …. 63 3.3 Mutant EGL is largely agranular due to severely reduced CGNP proliferation. ……………………………………………………………………… 64 3.4 Loss of Shh signaling is profound in CGNPs despite normal PC Shh production…………………………………………………………………………. 67 3.5 Resident astroglial cells in the EGL do not contribute significantly to the granular neuron population..……………………………………………………. 72 3.6 SmoBG mutants display altered BG arrangement and cytoarchitecture…….. 78 3.7 SmoBG mutants have disrupted alignment and dendritic arborization of PCs………………………………………………………………………………… 81 3.8 SmoBG mutants exhibit aberrant Wnt signaling……………………………….. 86 v ii 4.1 AICAR antagonizes Hedgehog (Hh) pathway activity in fibroblasts and CGNPs…………………………………………………………………………….. 103 4.2 AICAR inhibits CGNP proliferation and growth of primary medulloblastoma cells………………………………………………………………………………... 107 4.3 AICAR downregulates Shh signaling independently of the GSK3ß, cholesterol, PKA, sirtuin, and mTOR pathways………………………………. 111 4.4 AICAR downregulates Shh signaling independently of the AMPK pathway. 112 4.5 AICAR acts downstream of Smoothened to inhibit Shh pathway activity….. 115 4.6 AICAR regulates Gli1 transcription…………………………………………….. 117 4.7 AICAR acts on human medulloblastoma cells to alter cell fate…...………… 120 vi ii

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AICAR acts on human medulloblastoma cells to alter cell fate… suggesting that this pathway is involved in cross-talk with the Shh pathway in Belvindrah, Richard, Perihan Nalbant, Sheng Ding, Chuanyue Wu, Gary M .. R Alzamora, H Li, F Gong, C Smolak, D Neumann, and N M Pastor-Soler.
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