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CD49d-specific Single Domain Antibodies for the Treatment of Multiple SclerosisAlsughayyir, Jawaher January 2012 (has links)
Multiple sclerosis is a neurodegenerative disorder affecting the central nervous system (CNS). Currently, the disease is incurable and immunomodulating drugs are the only option to control the disease. CD49d is an adhesion receptor expressed on most immune cells. Antibodies that bind to CD49d and block immune cells from trafficking toward the CNS are being pursued as one class of therapeutics. In this work, by combining recombinant antibody and phage display technologies we isolated 10 anti-CD49d single domain antibodies from a synthetic antibody light chain variable domain (VL) phage display library. Isolated VLs (~ 12 kDa) were expressed in Escherichia coli, purified and analysed for biophysical characteristics. The majority were expressed in good yields and were non-aggregating. All 10 VLs bound recombinant CD49d by ELISA, and 7 bound to CD49d-expressing cells in flow cytometry experiments. To empower the VLs for better therapeutic efficacy (thru increasing avidity and half-life), three of the lead VLs were re-engineered as fusions to fragment crystallisable (Fc) of human immunoglobulin gamma (IgG). The engineered hFc-VL fragments (~ 70 – 90 kDa) retained their specificity for CD49d by flow cytometry. With (i) being less immunogenic due to their human nature, (ii) their efficient access to cryptic epitopes (iii) having half-lives comparable to IgGs’ and (iv) being more cost effective compared to IgGs, these novel antibody fragments (monovalent VLs and bivalent hFc-VLs) provide a promising therapeutic platform against multiple sclerosis.
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Lysis of 'Escherichia coli' for the Recovery of Pentamerised Single-Domain Antibody Used for the Gender Specific Separation of Bovine SpermO'Reilly, Jordan January 2016 (has links)
Gender of animal offspring is of great interest to farmers where gender selection is achieved via the separation of male-bearing from female-bearing sperms prior to performing artificial insemination. A start-up company (Ab Biotech Inc.) has developed a technique for gender selection based on the production of an intracellular single-domain antibody (sdAb) using the bacterium Escherichia coli capable of sexing bovine sperm. The purpose of this research was to provide a recommendation to Ab Biotech Inc. for the lysis of E. coli. An efficient lysis technique was required in order to release the intracellular sdAb. In the dairy industry, sexing for female calves is preferred since male calves are not useful for the purpose of milk production. Multiple lysis techniques were tested in order to provide a feasible recommendation for Ab Biotech Inc. These techniques included high pressure homogenization, sonication, bead milling and enzymatic/chemical lysis using lysozymes and Triton X-100. Required lysis time, extent of lysis and potential operating costs were contributing factors for determining an optimal technique. The extent of lysis was determined by quantifying the total amount of released protein using SDS-PAGE densitometry. It was recommended to choose bead milling for potential process upscaling since a large amount of fractional lysis (0.70) was obtained over a short amount of lysis time (3 min) with an inexpensive ($9.50/kg) 0.3 mm mixture of glass beads.
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Développement d' outils innovants pour le diagnostic et la découverte de cibles dans le cancer du seinEven, Klervi 25 May 2012 (has links)
Au cours de sa vie, 1 femme sur 9 sera atteinte du cancer du sein, 1 sur 27 sera emportée par cette maladie et 10 à 15 % des patientes développeront des métastases dans les trois années suivant le diagnostic. Le diagnostic précis et personnalisé du cancer du sein ainsi que l'évaluation de son potentiel métastatique est donc un enjeu majeur. Une analyse plus précise des caractéristiques moléculaires d'une tumeur primaire devrait conduire à une médecine personnalisée, un traitement et un suivi plus efficace. La détection de biomarqueurs sériques serait un moyen de diagnostiquer un cancer métastatique. Dans le but de découvrir de nouveaux marqueurs, l'analyse protéomique d'échantillons de patient a un fort potentiel mais souffre de limitations techniques, incluant le manque d'anticorps stables reconnaissant des marqueurs tumoraux d'intérêt. Par l'utilisation de fragments d'anticorps aux propriétés remarquables nommé single domain antibody (sdAb), et grâce à la mise au point d'une stratégie innovante de phages display, ce travail apporte d'importantes réponses en termes de disponibilité d'anticorps, d'analyse spécifique d'échantillon et de découverte de nouvelles cibles. Nous avons élaboré une stratégie permettant la découverte de biomarqueurs et l'isolement des anticorps correspondants. Après la construction de banques de sdAb à partir de lamas immunisés par des biopsies, une nouvelles stratégie de sélection in vitro par phage display, la sélection masquée, nous a permis d'isoler des anticorps spécifiques du cancer du sein. / In a lifetime, 1 in 9 women will develop breast cancer, 1 of 27 will be swept away by the disease and from 10 to 15% of patients will develop metastases within three years of diagnosis. Accurate and personalized diagnosis of breast cancer and the detection of its metastatic potential is a major challenge. It is essential to develop new analytical methods allowing an effective monitoring of breast cancer. A closer analysis of the molecular characteristics of a primary tumor should lead to more effective personalized medicine, treatment and monitoring. The efficient detection of serum biomarkers would be a way to diagnose metastatic cancer and to modify treatment based on these results. Toward this goal, the proteomic analysis of patient samples has great potential but suffers from technical limitations, including the lack of a wide variety of antibodies and tumor marker. By the use of innovative antibody fragments with remarkable properties named single domain antibody (sdAb), and through the development of a new innovative strategy of phage display, this work provides important answers in terms of availability of antibody, specific proteomic analysis of sample and new target discovery. We have developed a strategy allowing the simultaneous discovery of new biomarkers and the isolation of corresponding antibodies. After the construction of sdAb libraries from llamas immunized with biopsies, and using a new in vitro selection strategy by phage display named masked selection, we have isolated breast cancer-specific antibodies.
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Expression of Biotinylated Multivalent Peptide Antigens in Bacteria for Rapid and Effective Generation of Single Domain Antibodies from Phage-displayed Antibody LibrariesAlturki, Norah 19 November 2012 (has links)
In the present study, two insulin-like growth factor-binding protein 7 (IGFBP7) C-terminal-peptides were expressed as fusion proteins to bacterial verotoxin pentamerization domain as shown by Western blotting, ELISA and mass spectroscopy. Both in vivo-biotinylated recombinant products were purified from bacterial lysates by IMAC and used directly for panning along with the recombinant IGFBP7 protein using the LAC-M Camelidae naïve single domain antibody (sdAb) library. Target-specific sdAbs to both parental protein and peptide fusions were identified by phage ELISA. Twelve different clones were isolated by phage-ELISA screening and their sdAb genes were sequenced. Soluble sdAbs and their pentameric formats were expressed in TG1 E. coli, purified by IMAC and characterized by ELISA and SPR. Several sdAbs are currently under study, however anti-IGFBP7 (P12/M12) was extensively characterized and exhibited promising anti-tumorigenic effect on PANC-1 cell lines by blocking IGFBP7 promoting activity. This study provides the basis for developing a novel imaging/therapeutic reagent for targeting and treating brain tumor angiogenesis in early stages of tumorogenesis and can also be used as a molecular tool to monitor the degree of angiogenesis in gliomas which may help to improve the clinical management of brain tumors.
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Expression of Biotinylated Multivalent Peptide Antigens in Bacteria for Rapid and Effective Generation of Single Domain Antibodies from Phage-displayed Antibody LibrariesAlturki, Norah January 2012 (has links)
In the present study, two insulin-like growth factor-binding protein 7 (IGFBP7) C-terminal-peptides were expressed as fusion proteins to bacterial verotoxin pentamerization domain as shown by Western blotting, ELISA and mass spectroscopy. Both in vivo-biotinylated recombinant products were purified from bacterial lysates by IMAC and used directly for panning along with the recombinant IGFBP7 protein using the LAC-M Camelidae naïve single domain antibody (sdAb) library. Target-specific sdAbs to both parental protein and peptide fusions were identified by phage ELISA. Twelve different clones were isolated by phage-ELISA screening and their sdAb genes were sequenced. Soluble sdAbs and their pentameric formats were expressed in TG1 E. coli, purified by IMAC and characterized by ELISA and SPR. Several sdAbs are currently under study, however anti-IGFBP7 (P12/M12) was extensively characterized and exhibited promising anti-tumorigenic effect on PANC-1 cell lines by blocking IGFBP7 promoting activity. This study provides the basis for developing a novel imaging/therapeutic reagent for targeting and treating brain tumor angiogenesis in early stages of tumorogenesis and can also be used as a molecular tool to monitor the degree of angiogenesis in gliomas which may help to improve the clinical management of brain tumors.
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The Use of Nucleotide Salvage Pathway Enzymes as Suitable Tumor Targets for Antibody-Based and Adoptive Cell TherapiesVelazquez, Edwin J. 29 March 2022 (has links)
Despite the progress made in cancer research, cancer remains one of the leading causes of death worldwide. Although the development of new cancer treatments has improved cancer patients' survival rate, a significant number of patients experience refractory and recurrence events with serious side effects. It is known that the immune system actively participates in eliminating cancer. However, cancer cells can develop mechanisms to evade the immune system resulting in immunotolerance. Immunotherapy aids the patient's immune system's ability to recognize and eliminate cancer cells. During the last three decades, immunotherapy has gradually emerged as an effective and more specific approach to treat cancer. Particularly monoclonal antibodies and adoptive cell therapies such as chimeric antigen receptor (CAR) T-cells have proven highly effective. Nevertheless, the success of these novel therapies depends on discovering suitable tumor targets. Recently, we reported localization of Thymidine Kinase 1 (TK1) to the plasma membrane of certain cancer cells but have not found such localization on normal cells. Similarly, another nucleotide salvage pathway enzyme Hypoxanthine Guanine Phosphoribosyltransferase (HPRT), has also been reported to be localized to the plasma membrane of certain cancer cells. Thus, TK1 and HPRT membrane-associated forms can be potential tumor targets for cancer immunotherapy. This dissertation describes the immunotargeting of TK1 for the selective elimination of tumor cells and the surface localization of HPRT on the plasma membrane of cancer cells. Using hybridoma and phage display technologies, we developed monoclonal antibodies (mAb) and isolated human single domain antibodies (sdAb) specific to human TK1. We confirmed that antibodies and sdAbs could target TK1 on the plasma membrane of lung, breast and colon cancer cells, but not on healthy cells. In addition, we demonstrated that cancer cells expressing membrane-associated TK1 (mTK1) co-cultured with human mononuclear cells (MNC) were selectively eliminated through antibody-dependent cell-mediated cytotoxicity (ADCC) when anti-TK1 mAbs were added. Furthermore, we designed novel TK1 specific tumor targeting receptors and expressed them in human T cells and human macrophages. Finally, we proposed using both TK1 and HPRT as biomarkers for the early detection and monitoring of follicular lymphoma (FL), a disease that is usually detected at advanced stages. The knowledge generated from the data presented in this dissertation indicates that TK1 and HPRT may be suitable immunotherapeutic targets for antibody-based and adoptive cell-based therapies against both liquid and solid malignancies. It also proposes the incorporation of TK1 and HPRT as molecular biomarkers for the early detection and monitoring of FL.
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Synthetic Studies of Therapeutic Targets and Their Application to the Development of Mirror-Image Single-Domain Antibodies / 治療標的タンパク質の化学合成研究と鏡像単一ドメイン抗体の開発への応用Aoki, Keisuke 25 March 2024 (has links)
付記する学位プログラム名: 京都大学卓越大学院プログラム「メディカルイノベーション大学院プログラム」 / 京都大学 / 新制・課程博士 / 博士(薬科学) / 甲第25227号 / 薬科博第189号 / 新制||薬科||21(附属図書館) / 京都大学大学院薬学研究科医薬創成情報科学専攻 / (主査)教授 大野 浩章, 教授 二木 史朗, 教授 掛谷 秀昭 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM
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Large-Scale Production in 'Escherichia coli' TG1 and Purification of Llama Single Domain Antibody ToxA5.1 Against 'Clostridium difficile' Toxin AParisien, Albert 16 October 2013 (has links)
Drug resistant strains of Clostridium difficile are a major health concern with over 3 million cases costing over 1 billion $ per year in the United-States. The diseases associated with these bacteria (CDAD) are toxin-mediated which offers a mean of treating and lessening the severity of CDAD symptoms. Toxin inactivation via antibodies therapy can drastically reduce CDAD morbidity and this project was aiming at investigating the large-scale production and recovery of a novel llama single domain antibody (pSJF2H-ToxA5.1) in recombinant Escherichia coli TG1 targeting C. difficile enterotoxin A (TcdA). In order to achieve these objectives, the project was divided into four segments: 1) ToxA5.1 being an intracellular recombinant protein, obtaining a high biomass production was the first step towards large-scale production. To achieve HCDC, effects of initial glucose concentration and pH-stat feeding strategy were studied; 2) Upon achieving HCDC, effects of parameters such as temperature, induction timing and media supplementation with complex nitrogen sources were investigated; 3) Once large-scale production of ToxA5.1 was obtained, the recombinant protein needed to be recovered and a selective cell lysis scheme where synergistic lysis effects of Triton X-100 and temperature were studied. And finally 4) Single-step purification using nickel nanoparticles (NNP) synthesized via a modified polyol method was studied.
Combining the HCDC strategy with a temperature shift and yeast extract addition at the time of induction, ToxA5.1 concentration of 127 mg/L was obtained. Synergistic and selective cell lysis using Triton X-100 and temperature was achieved where 95% of the available ToxA5.1 was recovered and still functional while ToxA5.1 fraction in the resulting lysate increased to 27% in the cell lysate. Single-step purification was achieved using the synthesized NNP which proved to be highly selective and could be used up to five times. Diameter of the NNP synthesized was controlled by using various concentration of ranging from 131 ± 80 nm to 47 ± 20 nm. Using experimental data from binding isotherm, the ToxA5.1-NNP system was modeled.
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Large-Scale Production in 'Escherichia coli' TG1 and Purification of Llama Single Domain Antibody ToxA5.1 Against 'Clostridium difficile' Toxin AParisien, Albert January 2013 (has links)
Drug resistant strains of Clostridium difficile are a major health concern with over 3 million cases costing over 1 billion $ per year in the United-States. The diseases associated with these bacteria (CDAD) are toxin-mediated which offers a mean of treating and lessening the severity of CDAD symptoms. Toxin inactivation via antibodies therapy can drastically reduce CDAD morbidity and this project was aiming at investigating the large-scale production and recovery of a novel llama single domain antibody (pSJF2H-ToxA5.1) in recombinant Escherichia coli TG1 targeting C. difficile enterotoxin A (TcdA). In order to achieve these objectives, the project was divided into four segments: 1) ToxA5.1 being an intracellular recombinant protein, obtaining a high biomass production was the first step towards large-scale production. To achieve HCDC, effects of initial glucose concentration and pH-stat feeding strategy were studied; 2) Upon achieving HCDC, effects of parameters such as temperature, induction timing and media supplementation with complex nitrogen sources were investigated; 3) Once large-scale production of ToxA5.1 was obtained, the recombinant protein needed to be recovered and a selective cell lysis scheme where synergistic lysis effects of Triton X-100 and temperature were studied. And finally 4) Single-step purification using nickel nanoparticles (NNP) synthesized via a modified polyol method was studied.
Combining the HCDC strategy with a temperature shift and yeast extract addition at the time of induction, ToxA5.1 concentration of 127 mg/L was obtained. Synergistic and selective cell lysis using Triton X-100 and temperature was achieved where 95% of the available ToxA5.1 was recovered and still functional while ToxA5.1 fraction in the resulting lysate increased to 27% in the cell lysate. Single-step purification was achieved using the synthesized NNP which proved to be highly selective and could be used up to five times. Diameter of the NNP synthesized was controlled by using various concentration of ranging from 131 ± 80 nm to 47 ± 20 nm. Using experimental data from binding isotherm, the ToxA5.1-NNP system was modeled.
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Optimization of tools for multiplexed super resolution imaging of the synapseSograte Idrissi, Shama 16 October 2019 (has links)
No description available.
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