Towards Personalized Cancer Therapy : New Diagnostic Biomarkers and Radiosensitization Strategies

Spiegelberg, Diana

January 2015

This thesis focuses on the evaluation of biomarkers for radio-immunodiagnostics and radio-immunotherapy and on radiosensitization strategies after HSP90 inhibition, as a step towards more personalized cancer medicine. There is a need to develop new tracers that target cancer-specific biomarkers to improve diagnostic imaging, as well as to combine treatment strategies to potentiate synergistic effects. Special focus has been on the cell surface molecule CD44 and its oncogenic variants, which were found to exhibit unique expression patterns in head and neck squamous cell carcinoma (HNSCC). The variant CD44v6 seems to be a promising target, because it is overexpressed in this cancer type and is associated with radioresistance. Two new radioconjugates that target CD44v6, namely, the Fab fragment AbD15179 and the bivalent fragment AbD19384, were investigated with regard to specificity, biodistribution and imaging performance. Both conjugates were able to efficiently target CD44v6-positive tumors in vitro and in vivo. PET imaging of CD44v6 with 124I-AbD19384 revealed many advantages compared with the clinical standard 18F-FDG. Furthermore, the efficacy of the novel HSP90 inhibitor AT13387 and its potential use in combination with radiation treatment were evaluated. AT13387 proved to be a potent new cancer drug with favorable pharmacokinetics. Synergistic combination effects at clinically relevant drug and radiation doses are promising for both radiation dose reduction and minimization of side effects, or for an improved therapeutic response. The AT13387 investigation indicated that CD44v6 is not dependent on the molecular chaperone HSP90, and therefore, radio-immunotargeting of CD44v6 in combination with the HSP90 inhibitor AT13387 might potentiate treatment outcomes. However, EGFR expression levels did correlate with HSP90 inhibition, and therefore, molecular imaging of EGFR-positive tumors may be used to assess the treatment response to HSP90 inhibitors. In conclusion, these results demonstrate how tumor targeting with radiolabeled vectors and chemotherapeutic compounds can provide more specific and sensitive diagnostic tools and treatment options, which can lead to customized treatment decisions and a functional diagnosis that provides more precise and safer drug prescribing, as well as a more effective treatment for each patient.

tumor targeting

radionuclide targeting

HSP90 inhibition

AT13387

radiosensitization

molecular imaging

combination treatment

EGFR

CD44v6

The Shiga Toxin B-Subunit : a Promising Scaffold for the Targeting of Tumor Specific Glycosphingolipids / Exploitation de l’échafaudage moléculaire de la sous-unité B de la Toxine de Shiga pour le ciblage des glycosphingolipides tumoraux

Murarasu, Thomas

13 December 2017

Le cancer représente la second cause de décès au monde. Le développement de traitements innovants contre le cancer repose aujourd’hui sur l’identification de biomarqueurs des tumeurs et le développement de produits thérapeutiques capables de reconnaitre ces marqueurs de façon spécifique. Ces produits thérapeutiques de nouvelles générations ont le potentiel d’éliminer spécifiquement les cellules tumorales et donc de réduire les effets secondaires des traitements ainsi que les risques de rechute. Malheureusement, un certain nombre de patients ne peuvent bénéficier de ces traitements, du fait de l’absence de biomarqueurs connus à la surface de leur tumeur. Ce projet a ainsi pour ambition de développer de nouvelles thérapies ciblées en exploitant une nouvelle classe de biomarqueurs et ainsi de venir enrichir l’arsenal thérapeutique disponible pour le traitement des cancers. / Cancer is the second cause of death worldwide. Recent advance in cancer treatments involved the identification of cancer biomarkers and the development of efficient therapeutic products able to specifically recognize them. This new class of products has the ability to specifically target tumor cells, with the major advantages to decrease or abolish treatments side effects and relapses of the disease. Unfortunately, a certain number of patients do not respond to those treatments lacking the expression of those biomarkers on their tumor. This project aims at developing new targeted therapies by exploiting a new class of cancer biomarkers, which would potentially extend the therapeutics options against cancer.

Lectine synthétique

Phage display

Ciblage tumorale

Synthetic lectins

Phage display

Tumor targeting

Hypoxia-selective targeting by the bioreductive prodrug AQ4N in patients with solid tumors: results of a phase 1 study

Albertella, M.R., Loadman, Paul, Jones, P.H., Phillips, Roger M., Rampling, R., Burnet, N., Alcock, C., Anthoney, Alan, Vjaters, E., Dunk, C.R., Harris, P.A., Wong, A., Lalani, A.S., Twelves, Christopher J.

January 2008

No / PURPOSE: AQ4N is a novel bioreductive prodrug under clinical investigation. Preclinical evidence shows that AQ4N penetrates deeply within tumors and undergoes selective activation to form AQ4, a potent topoisomerase II inhibitor, in hypoxic regions of solid tumors. This proof-of-principle, phase I study evaluated the activation, hypoxic selectivity, and safety of AQ4N in patients with advanced solid tumors. EXPERIMENTAL DESIGN: Thirty-two patients with cancer (8 glioblastoma, 9 bladder, 8 head and neck, 6 breast, and 1 cervix) received a single 200 mg/m(2) dose of AQ4N before elective surgery. AQ4 and AQ4N levels in 95 tissues (tumor, healthy tissue) were assessed by liquid chromatography-tandem mass spectrometry. Tissue sections were also analyzed for AQ4 fluorescence using confocal microscopy, and for expression of the hypoxia-regulated glucose transporter, Glut-1. RESULTS: Activated AQ4 was detected in all tumor samples with highest levels present in glioblastoma (mean 1.2 microg/g) and head and neck (mean 0.65 microg/g) tumors; 22 of 32 patients had tumor AQ4 concentrations > or = 0.2 microg/g, levels previously shown to be active in preclinical studies. In 24 of 30 tumor samples, AQ4 was detected at higher concentrations than in adjacent normal tissue (tumor to normal ratio range 1.1-63.6); distant skin samples contained very low concentrations of AQ4 (mean 0.037 microg/g). Microscopic evaluation of tumor sections revealed that AQ4 colocalized within regions of Glut-1+ hypoxic cells. CONCLUSIONS: AQ4N was activated selectively in hypoxic regions in human solid tumors. Intratumoral concentrations of AQ4 exceeded those required for activity in animal models and support the evaluation of AQ4N as a novel tumor-targeting agent in future clinical studies.

AQ4N

Self-Assembling Peptide Amphiphile Contrast Agents as a Tumor Diagnostic Tool

Haverick, Mark Anthony

20 October 2011

No description available.

Chemistry

pH responsive

self-assembly

peptide amphiphile

cancer

tumor targeting

hybrid

contrast agent

Rening av bi- och multispecifika cancer-terapeutiska affinitets-proteiner och c-terminalt modifierade anti-HER3 affibodies för avbildningsdiagnostik / Purification of bi- and multispecific cancer therapeutic affinity proteins and c-terminally modified anti-HER3 affibody imaging agents

Dahlsson Leitao, Charles

January 2016

Affibody molecules are small protein scaffolds that have been engineered to bind to a variety of targets with diversetherapeutic and diagnostic applications. In this study, an array of affibody containing therapeutic constructs,targeting HER2 and HER3, and diagnostic anti-HER3 imaging agents have been purified in preparation for subsequentcancer cell assays and imaging studies in tumour-bearing mice respectively. Herein, the workflow for severalpurification techniques is delineated.

Affibody

protein therapeutic

cancer

HER3 medical imaging

tumor targeting

Other Biological Topics

Annan biologi

Targeting of peptide-binding receptors on cancer cells with peptide-drug conjugates

Worm, Dennis J., Els-Heindl, Sylvia, Beck-Sickinger, Annette G.

05 June 2023

Specifically addressing cell surface molecules on cancer cells facilitates targeted cancer therapies that offer the potential to selectively destroy malignant cells, while sparing healthy tissue. Thus, undesired side-effects in tumor patients are highly reduced. Peptide-binding receptors are frequently overexpressed on cancer cells and therefore promising targets for selective tumor therapy. In this review, peptide-binding receptors for anti-cancer drug delivery are summarized with a focus on peptide ligands as delivery agents. In the first part, some of the most studied peptide-binding receptors are presented, and the ghrelin receptor and the Y1 receptor are introduced as more recent targets for cancer therapy. Furthermore, nonpeptidic small molecules for receptor targeting on cancer cells are outlined. In the second part, peptide conjugates for the delivery of therapeutic cargos in cancer therapy are described. The essential properties of receptor-targeting peptides are specified, and recent developments in the fields of classical peptide-drug conjugates with toxic agents, radiolabeled peptides for radionuclide therapy, and boronated peptides for boron neutron capture therapy are presented.

info:eu-repo/classification/ddc/570

ddc:570

Tumorspezifische Targeting der humanen natürlichen Killerzellinie YT durch Gentransfer chimärer Immunglobulin-T-Zellrezeptoren

Schirrmann, Thomas

15 April 2005

Die spezifische adoptive Immuntherapie ist ein hoffnungsvoller Ansatz zur Behandlung von Tumoren. Die aufwendige individuelle Bereitstellung primärer Effektorlymphozyten könnte durch den Einsatz etablierter tumorantigenspezifischer Effektorzellinien vermieden werden. In dieser Arbeit wurde untersucht, ob sich ein Tumortargeting der humanen Natürlichen Killer-(NK)-Zellinie YT durch den Gentransfer chimärer Immunglobulin-T-Zellrezeptoren (cIgTCRs) erreichen läßt. Die cIgTCR-Konstrukte wurden aus single-chain-Fv-Fragmenten (scFv), dem IgG1-Fc-Teil und der CD3-Zeta-Signalkette erzeugt. Die scFv-Fragmente wurden aus den humanisierten Antikörpern BW431/26 und HuM195, die spezifisch für das karzinoembryonale Antigen (CEA) bzw. CD33 sind, konstruiert und zeigten als scFv-hFc-Fusionsproteine eine spezifische Bindung an Tumorzellen. Die YT-Zellen wurden mit den cIgTCR-Genkonstrukten über Elektroporation transfiziert und über immunologische Verfahren angereichert. In-vitro-Studien ergaben eine spezifische Lyse von CEA+ Kolonkarzinomzellinien durch die scBW431/26-hFcZeta+ YT-Zellen. Die Zytotoxizität korrelierte mit der Expression des cIgTCR-Antigens auf den Tumorzellen und wurde durch zirkulierendes CEA nicht gehemmt. Die scHuM195-hFcZeta+ YT-Zellen zeigten eine spezifische Lyse der CD33+ myeloischen Leukämiezellinie KG1. Die Bestrahlung wurde zur Wachstumsbegrenzung der YT-Zellen eingesetzt. Die spezifische Zytotoxizität der scBW431/26-hFcZeta+ YT-Zellen gegenüber CEA+ Tumorzellen war einen Tag nach Bestrahlung unverändert. Die Koinjektion von CEA+ Tumorzellen mit bestrahlten scBW431/26-hFcZeta+ YT-Zellen führte zu einer signifikanten Hemmung des Tumorwachstums in NOD/SCID-Mäusen. Die cIgTCR+ YT-Zellen zeigten in vitro eine geringe Sensibilität gegenüber allogenen Blutlymphozyten. Die Ergebnisse zeigen, daß die Zytotoxizität der NK-Zellinie YT tumorantigenspezifisch durch cIgTCR-Gentransfer erweitert wird und ein Potential zur Behandlung minimaler Tumorerkrankungen besteht. / The specific adoptive immunotherapy is a promising strategy for cancer treatment. The utilization of established tumor antigen specific effector cell lines could bypass the expendable individual preparation and often limited specificity of primary effector lymphocytes. This study investigated the tumor targeting of the human Natural Killer (NK) cell line YT by gene transfer of chimeric immunoglobulin T cell receptors (cIgTCRs). The cIgTCR constructs were generated of single chain antibody fragments (scFv), the IgG1 Fc part and the CD3 Zeta chain. The scFv fragments were constructed of the humanized antibodies BW431/26 and HuM195 with specificity for the carcinoembryonic antigen (CEA) and CD33, respectively, and showed as scFv-Fc fusion proteins a specific binding to tumor cells. YT cells were transfected with the cIgTCR gene constructs by electroporation and enriched by immunological cell separation. In vitro studies revealed a specific lysis of CEA+ colon carcinoma cell lines by scBW431/26-hFcZeta+ YT cells. The cytotoxicity correlated with the expression of the cIgTCR antigen on the tumor cells and was not inhibited in the presence of soluble CEA. The scHuM195-hFcZeta+ YT cells mediated a specific lysis of the CD33+ myeloic leukemia cell line KG1. The irradiation was used to limit the growth of the YT cell line. The specific cytotoxicity of the scBW431/26-hFcZeta+ YT cells against CEA+ tumor cells was unaltered one day after irradiation. The coinjection of CEA+ tumor cells and irradiated scBW431/26-hFcZeta+ YT cells led to a significant growth inhibition in NOD/SCID mice. The cIgTCR+ YT cells showed a low susceptibility to the cytotoxicity of allogeneic blood lymphocytes in vitro. The results demonstrated that the cytotoxicity of the human NK cell line YT can be specifically extended to tumor antigens by cIgTCR gene transfer. The employment of receptor gene modified YT cells could be a useful tool for the adoptive immunotherapy of minimal tumor diseases.

Gentransfer

Natürliche Killerzellen

chimäre Immunglobulin-T-Zellrezeptoren

adoptive Immuntherapie

Tumortargeting

Gene transfer

Natural Killer cells

chimeric immunoglobulin T cell receptors

adoptive immunotherapy

tumor targeting

570 Biowissenschaften, Biologie

32 Biologie

XH 2104

XH 3500

XD 3300

ddc:570