Antibody Engineering

Research Topics

Since 2004, we have been working on the development of a totally new way to engineer antibodies. We have realized that is it possible to introduce antigen binding sites into constant domains of antibodies by randomizing certain loop sequences in these domains and then selecting specifically binding domains from large surface display libraries. By this, it is possible to design so-called Fcabs (Fc antigen binding), which are Fc fragments with antigen binding sites in the CH3 domains. An Fcab combines all attractive properties of a complete antibody (antigen binding, effector functions and long in vivo half life) in a molecule of only one third the size.

When an Fcab is used as a module in a complete immunoglobulin, an antibody is generated that has, in addition to its natural antigen binding sites in the variable domains, an additional antigen binding site in the constant CH3 domains. Due to this added functionality, which can be used for the design and engineering of bispecific or oligovalent monoclonal antibodies, this novel antibody format is called mab2.

It is also possible to engineer constant domains in Fab fragments, thus creating bispecific or bivalent Fabs with two independent binding sites. Such proteins are called Fabcab (Fab with antigen binding sites in the constant domains)

We are using knowledge-based protein engineering methods as well as in vitro directed evolution to select and improve Fcabs with specific antigen binding properties. To achieve these aims, we employ yeast surface display as well as phage surface display methods, bacterial, yeast and mammalian cell expression systems, as well as the full range of biochemical, biophasical and immunological analytical and preparative methods.

An important aspect of our work is to analyze and improve the biophysical properties of selected antibodies and antibody fragments, by employing state of the art methods such as differential scanning calorimetry, circular dichroism spectroscopy, UV-VIS and fluorescence spectroscopy surface plasmon resonance and biolayer interferometry methods, isothermal titration calorimetry and many more.

Our patented Modular Antibody Engineering technology has led to the founding of F-star, a BOKU spin-off company (www.f-star.com) in 2006 by Florian Rüker, Gordana Wozniak-Knopp, Gottfried Himmler and Geert Mudde. F-star is located in Cambridge, UK, and currently employs a staff of more than 100. F-star currently has three tetravalent bispecific antibodies for cancer immunotherapy in clinical phases 1 and 2, respectively, and further bispecific immunotherapeutic antibodies in preclinical development. Since November 2020, F-star Therapeutics, Inc. is listed on Nasdaq (FSTX).

Ribbon model of an Fcab. Antigen binding sites in the CH3 domains are colored

Space fill model of an Fcab

mAb2 structure, with CDR-mediated antigen binding sites (blue) at the top and constant-domain (Fcab)-mediated antigen binding sites (green) at the bottom.

BOKU-Spin-off goes NASDAQ - und strahlt auf dem Times Square!