Jeannette Gerspach scite author profile

In an attempt to improve TRAIL's (tumor necrosis factor-related apoptosis-inducing ligand) tumor selective activity a variant was designed, in which the three TRAIL protomers are expressed as a single polypeptide chain (scTRAIL). By genetic fusion with a single-chain antibody fragment (scFv) recognizing the extracellular domain of ErbB2, we further equipped scTRAIL with tumor-targeting properties. We studied tumor targeting and apoptosis induction of scFv–scTRAIL in comparison with non-targeted scTRAIL. Importantly, the tumor antigen-targeted scTRAIL fusion protein showed higher apoptotic activity in vitro, with a predominant action by TRAIL-R2 signaling. Pharmacokinetic studies revealed increased plasma half-life of the targeted scTRAIL fusion protein compared with scTRAIL. In vivo studies in a mouse tumor model with xenotransplanted Colo205 cells confirmed greater response to the ErbB2-specific scTRAIL fusion protein compared with non-targeted scTRAIL both under local and systemic application regimen. Together, in vitro and in vivo data give proof of concept of higher therapeutic activity of tumor-targeted scFv–scTRAIL molecules. Further, we envisage that through targeting of scTRAIL, potential side effects should be minimized. We propose that scFv-mediated tumor targeting of single-chain TRAIL represents a promising strategy to improve TRAIL's antitumoral action and to minimize potential unwanted actions on normal tissues.

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Tumor necrosis factor-receptor 2 is up-regulated on lamina propria T cells in Crohn's disease and promotes experimental colitis in vivo

Holtmann¹,

Douni

Schutz³

et al. 2002

Eur. J. Immunol.

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Generation of a FasL-based Proapoptotic Fusion Protein Devoid of Systemic Toxicity due to Cell-surface Antigen-restricted Activation

Samel

Müller

Gerspach

et al. 2003

Journal of Biological Chemistry

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Engineering death receptor ligands for cancer therapy

2013

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Single-Chain TNF, a TNF Derivative with Enhanced Stability and Antitumoral Activity

Krippner‐Heidenreich¹,

Grunwald

Zimmermann

et al. 2008

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The inflammatory and proapoptotic cytokine TNF possesses a compelling potential as an antitumoral therapeutic agent. Possible target cells include the malignant cells themselves, the tumor vasculature, or the immune system. As the clinical use of TNF is limited by systemic toxicity, targeting strategies using TNF-based fusion proteins are currently used. A major obstacle, however, is that homotrimeric TNF ligands are prone to activity loss due to dissociation into their monomers. In this study, we report the construction of single-chain TNF molecule, a TNF mutant consisting of three TNF monomers fused by short peptide linkers. In comparison to wild-type TNF, single-chain TNF was found to possess increased stability in vitro and in vivo, displayed reduced systemic toxicity yet slightly enhanced antitumoral activity in mouse models. Creation of single-chain variants is a new approach for improvement of functional activity of therapeutics based on TNF family ligands.

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TNF-Selectokine: a novel prodrug generated for tumor targeting and site-specific activation of tumor necrosis factor

et al. 2002

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We describe a TNF fusion protein designated TNFSelectokine, which is a homo-trimeric molecule comprised of a single chain antibody (scFv) targeting module, a trimerization domain and TNF. TNFSelectokine exerts high bioactivity towards the targeted and adjacent, antigen negative cells. Membrane targeting dependent immobilization of the TNF-Selectokine induced cell death in TNFR1 and TNFR2 dependent manner, thus cell bound TNF-Selectokine mimicks membrane TNF. To restrict TNF activity to the tumor, a prototype of a TNF-Selectokine prodrug was constructed by insertion of a TNFR1 fragment, separated from TNF by a protease-sensitive linker. The prodrug exerts minimal TNF activity, but can be activated in vitro several thousand-fold by proteolytic digest, showing the principal feasibility of this approach. Choice of cleavage site(s) recognized by protease(s) typically associated with a given carcinoma should allow high dose systemic application of the respective TNF prodrug that unveils its specific bioactivity only in targeted tissues.

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Long-term NR2B expression in the cerebellum alters granule cell development and leads to NR2A down-regulation and motor deficits

Schlett

Pieri

Metzger

et al. 2004

Molecular and Cellular Neuroscience

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N-methyl-D-aspartate receptor (NMDAR) composition in granule cells changes characteristically during cerebellar development. To analyze the importance of NR2B replacement by NR2C and NR2A subunits until the end of the first month of age, we generated mice with lasting NR2B expression but deficiency for NR2C (NR2C-2B mice). Mutant phenotype was different from NR2C knock-out mice as loss of granule cells and morphological changes in NR2C/2B cerebellar architecture were already evident from the second postnatal week. Increased NR2B subunit levels led also to a gradual down-regulation of cerebellar NR2A levels, preceding the development of motor impairment in adult animals. Therefore, cerebellar NR2A is important for proper motor coordination and cannot be replaced by long-term expression of NR2B. Consequently, the physiological exchange of NMDA receptor subunits during cerebellar granule cell maturation is important for accurate postnatal development and function.

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