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Recombinant DNA in Medicine Industry- Monoclonal Antibodies Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Introduction As soon as first successful cloning experiments were reported in 1973, applications for this powerful technology quickly followed- Proteins were produced through recombinant DNA technology for : •Somatostatin (1976)- 14 aminoacids peptide neurtransmitter *Treatment of numerous diseases •Insulin for the treatment of diabetes •Human Growth Hormone •Food Production •MAb development •etc Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Expression Systems are developed to Produce Recombinant Proteins Cloning the gene or cDNA encoding a particular proteins is only the first of many steps needed to produce a recombinant protein Next step: put he gene into a host cell for production Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Expression Systems Expression system Bacterial cells (B. subtilis) Positive Simplicity Short generation times Large yields of product Can be induced to secrete the product into the culture medium Ej: Bacterial production of human growth hormone (hGH) Negative Although some proteins are expressed to high levels, they often the fail to fold properly and form insoluble inclusion bodies Foreign proteins are sometimes toxic to bacteria Lack enzymes that are present in eukaryotic cells and add posttranslational modifications (phosphates, sugars) Yeast Simple eukaryote that resembles mammalian cells in may ways but can be grown as quickly and cheaply as bacteria can Can be induced to secrete the product into the culture medium Perform posttranslational modifications Active proteases that degrade foreign proteins (reducing yield of product) Insects cell by baculovirus vectors High level expression Correct folding Posttranslational modifications Ej: Vaccine for the AIDS virus has been prepared by producing on of the HIV glycoproteins with this system Higher costs than bacteria and yeast, but lower than mammal cells Mammalian cells Checking the function of a newly cloned gene and as a quick methods for assessing the function of engineered proteins. Ej: large scale production for proteins such as tissue plasmoninogen activator Cost Still in development The choice of which cell is used dependes on the project goal and on the properties of the protein to be produced Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Monoclonal Antibodies Function •Antibodies are exquisitely selective proteins that can bind to a single target among millions of irrelevant sites •Could effectively seek and destroy tumor cells and infectious agents wherever the reside Major limitation in the therapeutic use of antibodies Producing a useful antibody in large quantities Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Researchers tested myelomas Reserchers tested myelomas Development of monoclonal antibody technology Lack to produce an antibody to their specifications Hybridoma- produce antibodies specified by the lymphocyte from the immunized animal •Monoclonal antibodies are already widely used for the diagnostic of infections and cancer and for the imaging of tumors for radiotherapy •Preparing specfic antibodies: abzyme- antibodies with catalytic activity, birecognition, etc Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Hybridoma Recombinant DNA- Watson, Gilman, Witkowski, Zoller. Scientific American Books. 1992 Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Bypassing fusion step Direct cloning antibody cDNAs from the lymphocytes of immunized mice Recombinant DNA- Watson, Gilman, Witkowski, Zoller. Scientific American Books. 1992 Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte More Monoclonal antibodyes Humanized MAb Bispecific antibodies Effector Domains modification Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte More Monoclonal antibodyesHumanized Monoclonal antibodies Usually mouse protein What about this foreing proteins in human system? Humanized monoclonal antibodies Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Humanized monoclonal antibodies The variable regions differ in sequence from on antiblody to another, this is the region of the protein that binds the antigen First method: encoded proteins in which the variable regions from the mouse antibody were fused the constant regions from a human antibody Not fully humanized Recombinant DNA- Watson, Gilman, Witkowski, Zoller. Scientific American Books. 1992 Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Humanized monoclonal antibodies Few of the hundred aminoacids in Variable region contact the antigen (complementary determining regions CDRs) Just CDR to be transferred Humanized MAb in clinical trials as an immunosuppressant and for treatment of lymphoid tumors. Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Humanized monoclonal antibodies Review article Supported by a grant from Zeneca Pharmaceuticals Humanized antibodies as potential therapeutic drugs Surender K Vaswani, MD and Robert G Hamilton, PhD Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Humanized monoclonal antibodies Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Bispecific antibodies Bispecific antibodies in cancer therapy. Segal DM, Weiner GJ, Weiner LM. Immune Targeting Section, Experimental Immunology Branch, National Cancer Institute, Building 10 Room 4B36, National Institutes of Health, Bethesda, MD 20892-1360, USA. [email protected] http://users.telenet.be/nmertens/U11/IM_bispecific_antibodies.htm Based upon in vitro and animal studies, a number of Phase I and II clinical trials have been initiated to test whether bispecific antibodies could redirect immune effectors against tumor cells in cancer patients. Recently, results from those trials showed beneficial effects in some patients but it is clear many problems remain to be solved. In addition, molecular engineering approaches are providing new and improved sources of clinically relevant bispecific antibodies. Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte Thanks for your attention Topics in Nanobiotechnology- April 2004- Maria Viviana Duarte