Josephine Kemna scite author profile

Josephine Kemna

4Publications

55Citation Statements Received

156Citation Statements Given

How they've been cited

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150

Affiliations

Max Delbrück Center for Molecular Medicine, Charité - Universitätsmedizin Berlin

Publications

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High Salt Inhibits Tumor Growth by Enhancing Anti-tumor Immunity

et al. 2019

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Excess salt intake could affect the immune system by shifting the immune cell balance toward a pro-inflammatory state. Since this shift of the immune balance is thought to be beneficial in anti-cancer immunity, we tested the impact of high salt diets on tumor growth in mice. Here we show that high salt significantly inhibited tumor growth in two independent murine tumor transplantation models. Although high salt fed tumor-bearing mice showed alterations in T cell populations, the effect seemed to be largely independent of adaptive immune cells. In contrast, depletion of myeloid-derived suppressor cells (MDSCs) significantly reverted the inhibitory effect on tumor growth. In line with this, high salt conditions almost completely blocked murine MDSC function in vitro . Importantly, similar effects were observed in human MDSCs isolated from cancer patients. Thus, high salt conditions seem to inhibit tumor growth by enabling more pronounced anti-tumor immunity through the functional modulation of MDSCs. Our findings might have critical relevance for cancer immunotherapy.

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IFNγ binding to extracellular matrix prevents fatal systemic toxicity

et al. 2023

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Interferon-γ (IFNγ) is an important mediator of cellular immune responses, but high systemic levels of this cytokine are associated with immunopathology. IFNγ binds to its receptor (IFNγR) and to extracellular matrix (ECM) via four positively charged C-terminal amino acids (KRKR), the ECM-binding domain (EBD). Across evolution, IFNγ is not well conserved, but the EBD is highly conserved, suggesting a critical function. Here, we show that IFNγ lacking the EBD (IFNγΔKRKR) does not bind to ECM but still binds to the IFNγR and retains bioactivity. Overexpression of IFNγΔKRKR in tumors reduced local ECM binding, increased systemic levels and induced sickness behavior, weight loss and toxicity. To analyze the function of the EBD during infection, we generated IFNγΔKRKR mice lacking the EBD by using CRISPR–Cas9. Infection with lymphocytic choriomeningitis virus resulted in higher systemic IFNγΔKRKR levels, enhanced sickness behavior, weight loss and fatal toxicity. We conclude that local retention of IFNγ is a pivotal mechanism to protect the organism from systemic toxicity during prolonged immune stimulation.

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“Designer cytokines” targeting the tumor vasculature—think global and act local

2020

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Tumor necrosis factor (TNF) was discovered in 1975 as a lipopolysaccharide‐induced serum factor that causes necrosis of tumors (Carswell et al, 1975). It was later found that TNF and cachectin, a factor causing wasting disease, were one and the same molecule (Beutler et al, 1985). Studies on the inflammatory activity of TNF have been translated into clinical success, namely blocking antibodies used to suppress autoimmune diseases. Research on TNF anti‐tumor activity, in contrast, has not yet resulted in a therapeutic breakthrough. This may change, based on a study by Huyghe et al (2020) describing novel “designer cytokines” (TNF and interferon‐γ) that increase local activity by targeting the CD13‐positive tumor vasculature, while simultaneously lowering the binding affinity to the respective cytokine receptor, thereby reducing off‐target effects on normal cells.

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Publisher Correction: IFNγ binding to extracellular matrix prevents fatal systemic toxicity

et al. 2023

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Josephine Kemna

High Salt Inhibits Tumor Growth by Enhancing Anti-tumor Immunity

IFNγ binding to extracellular matrix prevents fatal systemic toxicity

“Designer cytokines” targeting the tumor vasculature—think global and act local

Publisher Correction: IFNγ binding to extracellular matrix prevents fatal systemic toxicity

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