Development of an intrabody capable of activating interferon regulatory factor-1 (IRF-1) and identification of IRF-1-binding peptide motifs

Möller, Angeli

January 2011

Interferon regulatory factor 1 (IRF-1) is a tumour suppressor protein and transcription factor. It has been shown to modulate target gene expression in response to stimuli, which include viral infection and DNA damage, and to be down-regulated in several forms of cancer. This thesis details the development of an intrabody, an intracellular antibody, that binds specifically to endogenous IRF-1. The binding of the intrabody to IRF-1 enhanced transcription from IRF-1-responsive reporter gene constructs and endogenous promoters, thus it was shown to activate IRF-1. Intrabody binding also increased the rate at which IRF-1 was degraded, suggesting that the intrabody epitope may be regulating both IRF-1 activity and turnover. These results were supported point mutation within the intrabody epitope (P325 to A) as the resultant mutant also displayed both a higher transcriptional activity and increased rate of degradation. In an effort to understand the mechanisms which regulate IRF-1 activity a search for novel IRF-1-interacting proteins was carried out using phage peptide display. This in vitro technique enables the identification of peptides able to bind a specific target protein. The sequence of these peptides can then be used to search protein databases for homologous, full-length proteins that could also bind the target protein. This led to the identification of an IRF-1-binding peptide that held sequence similar to a region of Zinc Finger 350 (ZNF350), a transcription factor involved in regulating the DNA damage response. Subsequently, endogenous ZNF350 and IRF-1 were co-immunoprecipitated from a human cancer cell line. The extreme C-terminus of IRF-1 was shown to be sufficient for an interaction with ZNF350, although a second, more N-terminal site was also shown to be essential for a stable intracellular interaction. This data sheds new light on the role of the extreme C-terminus of IRF-1 in modulating the protein‟s activity. This study also provides new and IRF-1-specific molecular tools, in the form of intrabodies and IRF-1-binding peptides, which could be used in the future to further characterise the activity and regulation of this tumour suppressor protein.

616.994

The Generation of Affinity Reagents Using High-throughput Phage Display and Building the Foundations of a Novel High-throughput Intrabody Pipeline

Economopoulos, Nicolas

07 December 2011

Phage display technology has emerged as the dominant approach in antibody engineering. Here I describe my work in developing a high-throughput method of reliably generating intracellular antibodies. In my first data chapter, I present the first known high-throughput pipeline for antibody-phage display libraries of synthetic diversity and I demonstrate how increasing the scale of both target production and library selection still results in the capture of antibodies to over 50% of targets. In my second data chapter, I present the construction and validation of a novel scFv-phage library that will serve as the first step in my proposed intrabody pipeline. Antibodies obtained from this library will be screened for functionality using a novel yeast-two-hybrid approach and have numerous downstream applications. This high-throughput pipeline is amenable to automation and can be scaled up to thousands of domains, resulting in the potential generation of many novel therapeutic reagents.

phage display

high-throughput

intrabody

antibody

intrabodies

antibodies

0307

The Generation of Affinity Reagents Using High-throughput Phage Display and Building the Foundations of a Novel High-throughput Intrabody Pipeline

Economopoulos, Nicolas

07 December 2011

Phage display technology has emerged as the dominant approach in antibody engineering. Here I describe my work in developing a high-throughput method of reliably generating intracellular antibodies. In my first data chapter, I present the first known high-throughput pipeline for antibody-phage display libraries of synthetic diversity and I demonstrate how increasing the scale of both target production and library selection still results in the capture of antibodies to over 50% of targets. In my second data chapter, I present the construction and validation of a novel scFv-phage library that will serve as the first step in my proposed intrabody pipeline. Antibodies obtained from this library will be screened for functionality using a novel yeast-two-hybrid approach and have numerous downstream applications. This high-throughput pipeline is amenable to automation and can be scaled up to thousands of domains, resulting in the potential generation of many novel therapeutic reagents.

phage display

high-throughput

intrabody

antibody

intrabodies

antibodies

0307

Elimination of TDP-43 inclusions linked to amyotrophic lateral sclerosis by a misfolding-specific intrabody with dual proteolytic signals / 分解型細胞内抗体によるTDP-43凝集体の除去効果 / # ja-Kana

Tamaki, Yoshitaka

25 September 2018

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第21339号 / 医博第4397号 / 新制||医||1031(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 井上 治久, 教授 宮本 享, 教授 林 康紀 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Amyotrophic lateral sclerosis

TDP-43

Intrabody

Chaperone-mediated autophagy

Heat shock protein 70

490

Sélection et caractérisation d'anticorps et de fragments d'anticorps pour l'immunociblage intracellulaire / Antibodies and antibody fragments selection and characterization for intracellular immunotargeting

Freund, Guillaume

31 January 2014

Les anticorps thérapeutiques sont des molécules de choix pour le traitement standard de nombreuses formes de cancers. Leur application est à ce jour restreinte au compartiment extracellulaire à cause de leur taille trop importante qui les empêche de traverser la membrane cellulaire. Comme la plupart des cibles thérapeutiques du cancer semblent être situées dans le milieu intracellulaire, ce serait un plus de pouvoir exploiter les propriétés des anticorps dans les cellules pour étudier et perturber l’activité de ces cibles. Néanmoins, l’utilisation des anticorps dans le milieu intracellulaire constitue un véritable challenge, notamment à cause de la membrane cellulaire et de l’environnement réducteur du cytoplasme. L’ensemble des travaux de thèse présentés dans ce manuscrit ont permis d’établir les bases de plusieurs stratégies innovantes d’immunociblage intracellulaire et de mettre en lumière l’importance des différentes étapes de validation d’anticorps ou de fragments dérivés utilisés comme anticorps intracellulaires. La vectorisation d’anticorps complets par électroporation, le développement d’un intracorps bispécifique original anti-PCNA et la mise au point d’une méthode de mutagenèse inspirée de l’hypermutation somatique constituent les principales avancées apportées par ce travail dans le domaine de la recherche technologique en immuno biotechnologie. / Therapeutic antibodies are interesting molecules used to treat numerous pathologies such as cancer. Because of their size, their application is currently limited to the extracellular space. Indeed, antibodies cannot cross the cell membrane. Almost all therapeutic targets in cancer seem to be located inside cells, it would be beneficial to take advantage of antibodies in cells in order to neutralize the activity of these targets. The use of antibodies inside the cells is a real challenge, because of the cell membrane and the reducing environment of the cytoplasm. Several strategies of intracellular immunotargeting are presented in this thesis.

Anticorps

ScFv

Intracorps

PCNA

Gankyrin

Immunociblage intracellulaire

Maturation d’affinité

Imagerie de cellules vivantes

Antibody

ScFv

Intrabody

PCNA

Gankyrin

Intracellular immunotargeting

Affinity maturation

Live-cell imaging

572.8

571.96

616.99