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Informations
Publié par | technische_universitat_munchen |
Publié le | 01 janvier 2011 |
Nombre de lectures | 24 |
Langue | Deutsch |
Poids de l'ouvrage | 4 Mo |
Extrait
TECHNISCHE UNIVERSITÄT MÜNCHEN
Lehrstuhl für Physiologie
Characterization of human MHC II-restricted T cell
receptors with reactivity against B cells and tumor cells
for therapeutic application in the context of adoptive T
cell transfer of transgenic CD4 T cells
Luise U. H. A. L. Weigand
Vollständiger Abdruck der von der Fakultät Wissenschaftszentrum Weihenstephan für
Ernährung, Landnutzung und Umwelt der Technischen Universität München zur
Erlangung des akademischen Grades eines
Doktors der Naturwissenschaften
genehmigten Dissertation.
Vorsitzende: Univ.- Prof. A. Schnieke, PhD
Prüfer der Dissertation:
1. Univ.- Prof. Dr. H. H. D. Meyer
2. Univ.- Prof. Dr. A. Krackhardt
Die Dissertation wurde am 06.06.2011 bei der Technischen Universität München
eingereicht und durch die Fakultät Wissenschaftszentrum Weihenstephan für
Ernährung, Landnutzung und Umwelt am 29.09.2011 angenommen.
Table of contents
TABLE OF CONTENTS
TABLE OF CONTENTS ......................................................................................................................................... 2
FIGURES ............................................................ 6
TABLES .............................................................................................................................. 7
ABBREVIATIONS ................................................................................................................................................ 8
1 ZUSAMMENFASSUNG....................................... 11
2 ABSTRACT ..................................................................................................................... 13
3 INTRODUCTION .............................................. 15
3.1 Hematologic malignancies and treatments ...................... 15
3.1.1 Leukemia and lymphoma .............................................................................................................................. 15
3.1.2 Present therapies and new approaches ....................................... 15
3.2 “Tumor escape” mechanisms ............................................................................ 17
3.2.1 Various mechanisms promote tumor immune evasion ................................................ 17
3.2.2 A major role of Treg in tumor escape ........................................................................... 18
3.3 Immunotherapeutic approaches ....................................... 19
3.3.1 Vaccination therapies ................................................................................................... 19
3.3.2 Adoptive T cell therapy ................................. 19
3.3.3 Application of Toll-like receptor (TLR) agonists as adjuvants ....... 21
3.4 Aim of the PhD thesis ........................................................................................ 22
4 MATERIAL ..................................................................................... 23
4.1 Technical equipment ......................... 23
4.2 Consumable supplies ................................................................ 24
4.3 Reagents and chemicals .................................................... 24
4.4 Cytokines, antibodies and peptides ................................................................................................... 27
4.5 Kits .................................................................................................................... 29
4.6 Buffers and solutions ......................................................... 29
4.7 Cells and cell culture media ............... 31
4.7.1 Primary cells and donors............................................................................................... 31
4.7.2 Cell lines ........................................................................................ 32
4.7.3 Cell culture media ......................................................................................................................................... 32
4.8 DNA vectors, enzymes and primer .... 33
4.8.1 Vectors .......................................................................................................................................................... 33
4.8.2 Enzymes ........................ 34
4.8.3 Primer ........................... 35
4.8.3.1 Primer for EBV analysis ....................................................................................................................... 35
4.8.3.2 Primer of the Vαβ Repertoire .............. 35
4.8.3.3 Primer for TCR cloning ........................ 36
4.8.3.4 Primer for cloning of HLA-DRB1*1 ...................................................................................................... 37
2 Table of contents
4.9 Computer and Online programs ........................................................................................................ 37
5 METHODS ..................................................... 38
5.1 Cell culture methods ......................................................................................................................... 38
5.1.1 General cell culture methods ........................ 38
5.1.1.1 Thawing and freezing of cells .............................................................................................................. 38
5.1.1.2 Culture of cell lines .............................................................................................................................. 38
5.1.1.3 Cell counting........ 38
5.1.2 PBMC isolation from whole blood ................................................................................................................ 39
5.1.3 Dendritic cell and macrophage enrichment .. 39
-
5.1.4 Enrichment and culture of EBV B cells and mini-LCL .................... 40
-
5.1.4.1 Generation and culture of EBV B cell lines ......................................................................................... 40
5.1.4.2 Generation and culturing of Mini-LCL lines ......................... 41
-
5.1.5 Protein, peptide or TLR pulsing of PBMC, EBV B cells and Mini-LCL ............................ 41
5.1.6 CLL Culture .................................................................................................................................................... 42
5.1.7 Transfection of T293 with FMNL1 ................. 42
+5.1.8 CD4 T cell culture ......................................................................................................................................... 42
5.1.8.1 T cell stimulation ................................................................................................. 42
5.1.8.2 T cell cloning by limiting dilution ......... 44
+ +
5.1.9 Unspecific stimulation of PBMC, CD4 and CD8 T cells ................................................................................ 44
5.1.9.1 Activation of PBMC using IL-2 and α-CD3 ........................... 44
+ +
5.1.9.2 Activation of CD4 and CD8 T cells with IL-2, α-CD3 and α-CD28 ...................... 44
5.2 Biochemical Methods ........................................................................................................................ 45
5.2.1 FMNL1 purification ....................................... 45
5.2.2 Determination of the protein concentration 46
5.2.3 Western Blot of FMNL1 ................................................................................................................................ 46
5.2.4 Silver stain ..................................................... 47
5.3 Molecular Biology ............................................................. 48
5.3.1 Standard methods ........................................................................................................ 48
5.3.1.1 RNA isolation ....... 48
5.3.1.2 cDNA synthesis .................................... 48
5.3.1.3 Gel electrophoresis and Gel extraction ............................................................... 48
5.3.1.4 Purification of digested inserts and vectors ........................................................ 49
5.3.1.5 Ligation ................................................................................................................ 49
5.3.1.6 Transformation of E.coli ...................... 50
5.3.1.7 Plasmid extraction from bacteria ........................................................................................................ 50
5.3.1.8 Test digestion and sequencing ............ 50
-5.3.2 Analysis of EBV B cells and Mini-LCL ............ 51
5.3.2.1 Analysis of CD40L activated B cells...................................................................................................... 51
5.3.2.2 Analysis of Mini-LCL ............................................................ 52
5.3.3 Vαβ-Repertoire analysis of T cell clones ....... 53
5.3.4 TCR cloning into the retroviral vector pMP71G ........................................................................................ 54
PRE
3 Table of contents
5.3.4.1 TCR sequence amplification with simultaneous restriction enzyme site synthesis ............................. 54
5.3.4.2 Digestion of TCR fragments and the retroviral vector ......................................................................... 55