Antibody discovery and engineering using the anchored periplasmic expression (APEx) Escherichia coli display system with flow cytometric selection

Van Blarcom, Thomas John

05 February 2010

The development of recombinant proteins for therapeutic applications has revolutionized the pharmaceutical industry. In particular, monoclonal antibodies are the safest class of all therapeutic molecules and account for the majority of recombinant proteins currently undergoing clinical trials. A variety of technologies exist to engineer antibodies with a desired binding specificity and affinity, both of which are a prerequisite for therapeutic applications. This dissertation describes the implementation of a novel combinatorial library screening technology for the discovery and engineering of antibodies with unique binding properties. Combinatorial library screening technologies are used for the in vitro isolation of antibodies from large ensembles of proteins (libraries) typically produced by microorganisms using molecular biology techniques. Our lab has developed a powerful antibody discovery technology that relies on E. coli display by anchored periplasmic expression, otherwise known as APEx. First, I compared the effects of using combinatorial libraries comprising either smaller, monovalent single-chain antibody fragments (scFv), or the much larger, bifunctional full-length IgG antibodies. These technologies were used to isolate a small panel of antigen specific antibodies from the same library of antibody variable domains amplified from a mouse immunized with the Protective Antigen (PA) component from Bacillus anthracis, the causative agent of anthrax. Overall, IgG display resulted in the isolation of a broader panel of variable domain sequences. Most of these variable domains exhibited substantially reduced affinity when expressed as scFvs, which is consistent with the finding that none of these could be isolated from the equivalent scFv library. These results indicate that the antibody format used during in vitro selection affects which antibody variable domains will be discovered. Second, I developed several modifications of the APEx methodology to allow for more efficient recovery of antibodies with desired properties. Specifically, the system was reengineered to simultaneously account for antibody binding and expression levels in order to isolate the highest affinity antibodies with favorable expression characteristics. Third, the new approach, coupled with optimized fluorescence activated cell sorting (FACS) settings, was used to increase the affinity of an antibody by 35-fold resulting in a K[subscript D] of 100 pM. It was demonstrated that genetic transfer of this high affinity antibody specific for the V antigen of Yersinia pestis, the etiologic agent of the plague, conferred increased protection against intranasal challenge with a 363 LD₅₀ of Y. pestis in mice. / text

Recombinant proteins

Monoclonal antibodies

Anchored periplasmic expression

APEx

Escherichia Coli

High affinity antibodies

Papel das citocinas IL-5 e IL-17A na diferenciação de células produtoras de anticorpos de vida longa (ASC) induzida pelo veneno do peixe Thalassophryne nattereri / The role of IL-5 and IL-17A in the differentiation of long-lived antibody secreting cells (ASC) induced by Thalassophryne nattereri fish venom

Grund, Lidiane Zito

15 September 2009

O veneno do T.nattereri induz uma resposta de memória com a diferenciação de células B B220neg, indicativo de células produtoras de anticorpos de vida longa (ASC). Para avaliar o efeito do veneno na diferenciação de ASCs, camundongos BALB/c foram imunizados e sacrificados nos dias 21, 28, 48, 74 e 120 para avaliação de anticorpos plasmáticos e células B no peritônio, baço e medula óssea. O veneno induziu intensa esplenomegalia, formação de centros germinativos e persistentes níveis de anticorpos específicos IgG1, IgG2a e IgE anafilática. Células B1a e ASC apareceram rapidamente e a população de ASC CD138pos foi dividida em três subtipos (B220highCD43high, B220lowCD43low, e B220negCD43high) que persistiram em diferentes níveis em todos compartimentos. Finalmente, por métodos de neutralização nós sugerimos um papel importante da IL-5 e IL-17 A no desenvolvimento de ASC B220neg e na população B1a e mais ainda, a produção de TNF-a, IL-1b, IL-6, KC bem como a retenção do veneno nas células dendríticas foliculares parece promover os mecanismos para manutenção das ASCs. / T. nattereri fish venom induces a memory immune response with the differentiation of B cells B220neg, an indicative of long-lived antibody-secreting cells - ASC. To assess the effect of the venom on differentiation of ASCs, BALB/c mice were immunized with venom and sacrificed at days 21, 28, 48, 74 and 120 to evaluate plasmatic antibodies and B cell subtypes in peritoneum, spleen and bone marrow. The venom promoted splenomegaly, germinal centers formation and persistent levels of specific antibodies IgG1, IgG2a and anaphylactic IgE. B1a cells and ASC emerged rapidly and CD138pos ASCs can be divided into three subsets (B220high CD43high, B220low CD43low, and B220neg CD43high) that persist at different levels in all compartments. Finally, by neutralization methods we suggested an important role for IL-5 and IL-17A on development of B220neg ASCs and B1a population and moreover the production of TNF-a, IL-1b, IL-6, KC as well as the venom retained in follicular dendritic cells seem to provide mechanisms to explain the maintenance of ASCs.

Anticorpos de alta afinidade

Bia cells

Célula B1a

Citocinas IL-5 e IL-17A

Fish venom

High-affinity antibodies

IL-5 and IL-17A cytokines

Immunological memory

Memória imunológica

Plasmócito de vida longa (ASC)

Veneno de peixe

Papel das citocinas IL-5 e IL-17A na diferenciação de células produtoras de anticorpos de vida longa (ASC) induzida pelo veneno do peixe Thalassophryne nattereri / The role of IL-5 and IL-17A in the differentiation of long-lived antibody secreting cells (ASC) induced by Thalassophryne nattereri fish venom

Lidiane Zito Grund

15 September 2009

O veneno do T.nattereri induz uma resposta de memória com a diferenciação de células B B220neg, indicativo de células produtoras de anticorpos de vida longa (ASC). Para avaliar o efeito do veneno na diferenciação de ASCs, camundongos BALB/c foram imunizados e sacrificados nos dias 21, 28, 48, 74 e 120 para avaliação de anticorpos plasmáticos e células B no peritônio, baço e medula óssea. O veneno induziu intensa esplenomegalia, formação de centros germinativos e persistentes níveis de anticorpos específicos IgG1, IgG2a e IgE anafilática. Células B1a e ASC apareceram rapidamente e a população de ASC CD138pos foi dividida em três subtipos (B220highCD43high, B220lowCD43low, e B220negCD43high) que persistiram em diferentes níveis em todos compartimentos. Finalmente, por métodos de neutralização nós sugerimos um papel importante da IL-5 e IL-17 A no desenvolvimento de ASC B220neg e na população B1a e mais ainda, a produção de TNF-a, IL-1b, IL-6, KC bem como a retenção do veneno nas células dendríticas foliculares parece promover os mecanismos para manutenção das ASCs. / T. nattereri fish venom induces a memory immune response with the differentiation of B cells B220neg, an indicative of long-lived antibody-secreting cells - ASC. To assess the effect of the venom on differentiation of ASCs, BALB/c mice were immunized with venom and sacrificed at days 21, 28, 48, 74 and 120 to evaluate plasmatic antibodies and B cell subtypes in peritoneum, spleen and bone marrow. The venom promoted splenomegaly, germinal centers formation and persistent levels of specific antibodies IgG1, IgG2a and anaphylactic IgE. B1a cells and ASC emerged rapidly and CD138pos ASCs can be divided into three subsets (B220high CD43high, B220low CD43low, and B220neg CD43high) that persist at different levels in all compartments. Finally, by neutralization methods we suggested an important role for IL-5 and IL-17A on development of B220neg ASCs and B1a population and moreover the production of TNF-a, IL-1b, IL-6, KC as well as the venom retained in follicular dendritic cells seem to provide mechanisms to explain the maintenance of ASCs.

Anticorpos de alta afinidade

Célula B1a

Citocinas IL-5 e IL-17A

Memória imunológica

Plasmócito de vida longa (ASC)

Veneno de peixe

Bia cells

Fish venom

High-affinity antibodies

IL-5 and IL-17A cytokines

Immunological memory