Holger Kropp scite author profile

Holger Kropp

5Publications

26Citation Statements Received

0Citation Statements Given

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Affiliations

Leibniz University Hannover, Hannoversche Informationstechnologien (Germany), Institut für Informationsverarbeitung

Publications

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PK modulation of haptenylated peptides via non-covalent antibody complexation

Hoffmann¹,

Konkar

Dziadek

et al. 2013

Journal of Controlled Release

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We applied noncovalent complexes of digoxigenin (Dig) binding antibodies with digoxigeninylated peptide derivatives to modulate their pharmacokinetic properties. A peptide derivative which activates the Y2R receptor was selectively mono-digoxigeninylated by reacting a NHS-Dig derivative with an ε-amino group of lysine 2. This position tolerates modifications without destroying receptor binding and functionality of the peptide. Dig-peptide derivatives can be loaded onto Dig-binding IgGs in a simple and robust reaction, thereby generating peptide-IgG complexes in a defined two to one molar ratio. This indicates that each antibody arm becomes occupied by one haptenylated peptide. In vitro receptor binding and signaling assays showed that Dig-peptides as well as the peptide-antibody complexes retain better potency than the corresponding pegylated peptides. In vivo analyses revealed prolonged serum half-life of antibody-complexed peptides compared to unmodified peptides. Thus, complexes are of sufficient stability for PK modulation. We observed more prolonged weight reduction in a murine diet-induced obesity (DIO) model with antibody-complexed peptides compared to unmodified peptides. We conclude that antibody-hapten complexation can be applied to modulate the PK of haptenylated peptides and in consequence improve the therapeutic efficacy of therapeutic peptides.

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A flexible implementation of high-performance FIR filters on Xilinx FPGAs

Kropp

Reuter

et al. 1998

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Implementation of pipelined multipliers on Xilinx FPGAs

Kropp

Schwiegershausen

et al. 1997

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Benefits of macro-based multi-FPGA partitioning for video processing applications

Martin-Langerwerf

Reuter

Kropp

et al.

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The video and image processing emulation system VIPES

Kropp

Reuter²,

Pirsch³

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Holger Kropp

PK modulation of haptenylated peptides via non-covalent antibody complexation

A flexible implementation of high-performance FIR filters on Xilinx FPGAs

Implementation of pipelined multipliers on Xilinx FPGAs

Benefits of macro-based multi-FPGA partitioning for video processing applications

The video and image processing emulation system VIPES

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