Lars Behrend scite author profile

Ever since ROS (reactive oxygen species) were shown to meet the criteria of true signalling molecules, such as regulated production and a specific biological function, many efforts have been made to understand the precise role of ROS. The function of ROS in pathological mechanisms is taking a more and more central role in various fields of biomedical research, including neurobiology, cardiology and cancer. An elevated oxidative status has been found in many types of cancer cells, and the introduction of chemical and enzymological antioxidants can inhibit tumour cell proliferation, pointing to a critical role of ROS in mediating loss of growth control. The present review describes ROS-regulated mechanisms that are associated with cancer and tumour invasiveness. The cellular processes that are linked to these ROS functions are mitogenic signalling and cell motility, while ROS have also been implicated in apoptosis and cellular senescence, two mechanisms regarded as being anti-tumorigenic. This "two-faced" character of free radicals will be discussed and placed in the context of the physiological conditions of the tumour cell, the different molecular backgrounds, and the specific ROS. More detailed understanding of the signalling pathways regulated by ROS in tumour cells will open up new prospects for chemo- or gene-therapeutic interventions.

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IC261, a specific inhibitor of the protein kinases casein kinase 1-delta and -epsilon, triggers the mitotic checkpoint and induces p53-dependent postmitotic effects

Behrend

et al. 2000

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The p53-targeted kinases casein kinase 1d (CK1d) and casein kinase 1e (CK1e) have been proposed to be involved in regulating DNA repair and chromosomal segregation. Recently, we showed that CK1d localizes to the spindle apparatus and the centrosomes in cells with mitotic failure caused by DNA-damage prior to mitotic entry. We provide here evidence that 3-[(2,4,6-trimethoxyphenyl)methylidenyl]-indolin-2-one (IC261), a novel inhibitor of CK1d and CK1e, triggers the mitotic checkpoint control. At low micromolar concentrations IC261 inhibits cytokinesis causing a transient mitotic arrest. Cells containing active p53 arrest in the postmitotic G1 phase by blockage of entry into the S phase. Cells with non-functional p53 undergo postmitotic replication developing an 8N DNA content. The increase of DNA content is accompanied by a high amount of micronucleated and apoptotic cells. Immun¯uorescence images show that at low concentrations IC261 leads to centrosome ampli®cation causing multipolar mitosis. Our data are consistent with a role for CK1d and CK1e isoforms in regulating key aspects of cell division, possibly through the regulation of centrosome or spindle function during mitosis. Oncogene (2000) 19, 5303 ± 5313.

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Betulinic acid as new activator of NF-κB: molecular mechanisms and implications for cancer therapy

et al. 2005

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Interaction of casein kinase 1 delta (CK1δ) with post-Golgi structures, microtubules and the spindle apparatus

Behrend

Stöter

Kurth

et al. 2000

European Journal of Cell Biology

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Lars Behrend

Reactive oxygen species in oncogenic transformation

IC261, a specific inhibitor of the protein kinases casein kinase 1-delta and -epsilon, triggers the mitotic checkpoint and induces p53-dependent postmitotic effects

Betulinic acid as new activator of NF-κB: molecular mechanisms and implications for cancer therapy

Interaction of casein kinase 1 delta (CK1δ) with post-Golgi structures, microtubules and the spindle apparatus

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