Oliver Gresch scite author profile

Primary cells are a valuable tool for researchers and are often preferred over transformed or immortalized cell lines since they are biologically more relevant and resemble the in vivo situation much closer. Unfortunately, efficient gene transfer in primary cells is still limited. Whereas viral strategies are time consuming and involve safety risks, nonviral methods are often inefficient for most primary cells. Nucleofection has been proven to overcome these limitations. Here, we describe the Nucleofection protocol for efficient transfection of human umbilical vein endothelial cells. Using a combination of a cell type-specific solution and electrical conditions, transfection efficiencies up to 90% can be achieved while survival rate is more than 70%.

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Functional humanization of an anti-CD30 Fab fragment for the immunotherapy of Hodgkin's lymphoma using an in vitro evolution approach

Schlapschy

Gruber²,

Gresch³

et al. 2005

Protein Engineering Design and Selection

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CD30, the so-called Reed-Sternberg antigen, constitutes a promising cell-specific target for the treatment of Hodgkin's lymphoma. Starting from the previously characterized cognate HRS3 mouse monoclonal antibody, the bacterially produced functional Fab fragment was humanized by grafting the CDRs from the mouse antibody framework on to human immunoglobulin consensus sequences. This procedure led to a 10-fold decreased antigen affinity, which surprisingly was found to be mainly due to the VH domain. To improve the antigen-binding activity, an in vitro evolution strategy was employed, wherein random mutations were introduced into the humanized VH domain by means of error-prone PCR, followed by a filter sandwich Escherichia coli colony screening assay for functional Fab fragments using a recombinant extracellular domain of the CD30 antigen. After three cycles of in vitro affinity maturation, the optimized Fab fragment huHRS3-VH-EP3/1 was identified, which carried four exchanged residues within or close to the VH CDRs and had an affinity that was almost identical with that of the murine HRS3 Fab fragment. The resulting humanized Fab fragment was fully functional with respect to CD30 binding both in ELISA with the recombinant antigen and in FACS experiments with CD30-positive L540CY cells. In the light of the previously successful clinical application of an alphaCD30 x alphaCD16 bispecific mouse quadroma antibody derived from HRS3, the humanized Fab fragment comprises an important step towards the construction of a fully recombinant therapeutic agent. The combination of random mutagenesis and colony filter screening assay that was successfully applied here should be generally useful as a method for the rapid functional optimization of humanized antibody fragments.

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Molecular Ultrasound Imaging of Junctional Adhesion Molecule A Depicts Acute Alterations in Blood Flow and Early Endothelial Dysregulation

Curaj

Wu²,

Rix

et al. 2018

ATVB

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Temporary blood flow variations induce endothelial rearrangement of JAM-A, which can be visualized using JAM-A-targeted microbubbles. Thus, JAM-A may be considered as a marker of acute endothelial activation and dysfunction. Its imaging may facilitate the early detection of cardiovascular risk areas, and it enables the therapeutic prevention of their progression toward an irreversible pathological state.

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Cell fusion is not involved in the generation of giant cells in the Hodgkin‐Reed Sternberg cell line L1236

et al. 2001

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Oliver Gresch

New non-viral method for gene transfer into primary cells

Transfection of Difficult-to-Transfect Primary Mammalian Cells

Functional humanization of an anti-CD30 Fab fragment for the immunotherapy of Hodgkin's lymphoma using an in vitro evolution approach

Molecular Ultrasound Imaging of Junctional Adhesion Molecule A Depicts Acute Alterations in Blood Flow and Early Endothelial Dysregulation

Cell fusion is not involved in the generation of giant cells in the Hodgkin‐Reed Sternberg cell line L1236

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