Nadine Schnepel scite author profile

Caspase-8 is frequently mutated or silenced in several tumors including hepatocellular carcinomas (HCC) thereby potentially contributing to chemoresistance. The aim of our present study was to evaluate if chemotherapeutic drugs may mediate their effects through up-regulation of caspase-8 gene transcription. Huh7 hepatoma cells were transfected with a caspase-8 promoter construct fused to a luciferase reporter gene followed by stimulation with a subset of different chemotherapeutic drugs. Several drugs slightly induced caspase-8 promoter activity. However, strong caspase-8 promoter induction was found after Mitomycin C (MMC) treatment and this correlated with an increase in endogenous caspase-8 mRNA expression. Further molecular analysis demonstrated that MMC controls caspase-8 transcription via a c-jun/AP1 site located in the promoter in close proximity to the transcription start site. Inactivation of this c-jun/AP1 site using a dominant-negative c-jun adenovirus or site-directed mutagenesis inhibited MMC-dependent promoter induction. MMC treatment resulted in higher caspase-8 enzymatic activity and apoptosis and could be synergistically enhanced by co-stimulation with interferon-alpha (IFNalpha) via independent transcriptional mechanisms. In summary MMC controls caspase-8 expression via a c-jun/AP1 element in its promoter region. MMC-induced up-regulation of caspase-8 triggers apoptosis in target cells which can be further enhanced by IFNalpha. Therefore these findings also provide a potential new therapeutic approach to treat cancer cells.

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Intestinal organoid-based 2D monolayers mimic physiological and pathophysiological properties of the pig intestine

Hoffmann¹,

Schnepel²,

Langeheine³

et al. 2021

PLoS ONE

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Gastrointestinal infectious diseases remain an important issue for human and animal health. Investigations on gastrointestinal infectious diseases are classically performed in laboratory animals leading to the problem that species-specific models are scarcely available, especially when it comes to farm animals. The 3R principles of Russel and Burch were achieved using intestinal organoids of porcine jejunum. These organoids seem to be a promising tool to generate species-specific in vitro models of intestinal epithelium. 3D Organoids were grown in an extracellular matrix and characterized by qPCR. Organoids were also seeded on permeable filter supports in order to generate 2D epithelial monolayers. The organoid-based 2D monolayers were characterized morphologically and were investigated regarding their potential to study physiological transport properties and pathophysiological processes. They showed a monolayer structure containing different cell types. Moreover, their functional activity was demonstrated by their increasing transepithelial electrical resistance over 18 days and by an active glucose transport and chloride secretion. Furthermore, the organoid-based 2D monolayers were also confronted with cholera toxin derived from Vibrio cholerae as a proof of concept. Incubation with cholera toxin led to an increase of short-circuit current indicating an enhanced epithelial chloride secretion, which is a typical characteristic of cholera infections. Taken this together, our model allows the investigation of physiological and pathophysiological mechanisms focusing on the small intestine of pigs. This is in line with the 3R principle and allows the reduction of classical animal experiments.

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Modulation of growth hormone receptor-insulin-like growth factor 1 axis by dietary protein in young ruminants

Firmenich¹,

Schnepel²,

Hansen³

et al. 2019

Br J Nutr

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A reduced protein intake causes a decrease in insulin-like growth factor 1 (IGF1) concentrations and modulates Ca homoeostasis in young goats. IGF1 is synthesised by the liver in response to stimulation by growth hormone (GH). Due to rumino-hepatic circulation of urea, ruminants are suitable for investigating the effects of protein reduction despite sufficient energy intake. The present study aimed to investigate the impact of a protein-reduced diet on the expression of components of the somatotropic axis. Male young goats were divided into two feeding groups receiving either a control diet (20 % crude protein (CP)) or a reduced-protein diet (9 % CP). Blood concentrations of IGF1 and GH were measured, and a 24-h GH secretion profile was compiled. Moreover, ionised Ca and insulin concentrations as well as mRNA and protein expression levels of hepatic proteins involved in GH signalling were quantified. Due to the protein-reduced diet, concentrations of ionised Ca, insulin and IGF1 decreased significantly, whereas GH concentrations remained unchanged. Expression levels of the hepatic GH receptor (GHR) decreased during protein reduction. GHR expression was down-regulated due to diminished insulin concentrations as both parameters were positively correlated. Insulin itself might be reduced due to reduced blood Ca levels that are involved in insulin release. The protein-reduced diet had an impact on the expression of components of the somatotropic axis as a disruption of the GH-IGF1 axis brought about by diminished GHR expression was shown in response to a protein-reduced diet.

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Nadine Schnepel

Influence of 25-hydroxyvitamin D3 and 1,25-dihydroxyvitamin D3 on expression of P-glycoprotein and cytochrome P450 3A in sheep

Molecular mechanism of Mitomycin C-dependent caspase-8 regulation: implications for apoptosis and synergism with interferon-α signalling

Intestinal organoid-based 2D monolayers mimic physiological and pathophysiological properties of the pig intestine

Modulation of growth hormone receptor-insulin-like growth factor 1 axis by dietary protein in young ruminants

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