Ole Henrik Brekke scite author profile

Antibodies are highly specific, naturally evolved molecules that recognize and eliminate pathogenic and disease antigens. The past 30 years of antibody research have hinted at the promise of new versatile therapeutic agents to fight cancer, autoimmune diseases and infection. Technology development and the testing of new generations of antibody reagents have altered our view of how they might be used for prophylactic and therapeutic purposes. The therapeutic antibodies of today are genetically engineered molecules that are designed to ensure high specificity and functionality. Some antibodies are loaded with toxic modules, whereas others are designed to function naturally, depending on the therapeutic application. In this review, we discuss various aspects of antibodies that are relevant to their use as as therapeutic agents.

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The structural requirements for complement activation by IgG: does it hinge on the hinge?

Brekke¹,

Michaelsen²,

Sandlie³

1995

Immunology Today

131

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Identification of scFv antibody fragments that specifically recognise the heroin metabolite 6-monoacetylmorphine but not morphine

Moghaddam¹,

Borgen²,

Stacy³

et al. 2003

Journal of Immunological Methods

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Lysine 322 in the human IgG3 CH2 domain is crucial for antibody dependent complement activation

Thommesen

Michaelsen

Løset

et al. 2000

Molecular Immunology

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Functional phage display of two murine α/β T-cell receptors is strongly dependent on fusion format, mode and periplasmic folding assistance

Løset¹,

Lunde²,

Bogen³

et al. 2007

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Phage display has been instrumental for the success of antibody (Ab) technology. The aim of the present study was to explore phage display of soluble T-cell receptors (TCRs). A library platform that supports engineering and selection of improved TCRs to be used as detection reagents for specific antigen presentation will be very useful. In such applications, high, equal and clone independent display levels are a prerequisite for 'fair' selection. Therefore, we explored how different pIII fusion formats and modes affected the display levels of two murine alpha/beta TCRs. Both are derived from T-cell clones associated with the MOPC315 myeloma model. The results show that the design of the pIII fusion particle significantly affects the subsequent display levels. Furthermore, successful display may be obtained both in phagemid and phage versions. Importantly, improvement of poor display can be achieved by over-expressing the periplasmic chaperone FkpA.

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