Kenneth Bivén scite author profile

Cytokeratins are released from carcinoma cells by unclear mechanisms and are commonly used serum tumor markers (TPA, TPS, and CYFRA 21-1). We here report that soluble cytokeratin-18 (CK18) is released from human carcinoma cells during cell death. During necrosis, the cytosolic pool of soluble CK18 was released, whereas apoptosis was associated with significant release of caspase-cleaved CK18 fragments. These results suggested that assessments of different forms of CK18 in patient sera could be used to examine cell death modes. Therefore, CK18 was measured in local venous blood collected during operation of patients with endometrial tumors. In most patient sera, caspase-cleaved fragments constituted a minor fraction of total CK18, suggesting that tumor apoptosis is not the main mechanism for generation of circulating CK18. Monitoring of different CK18 forms in peripheral blood during chemotherapy of prostate cancer patients showed individual differences in the patterns of release. Importantly, several examples were observed where the increase of apoptosis-specific caspase-cleaved CK18 fragments constituted only a minor fraction of the total increase. These results suggest that cell death of epithelially derived tumors can be assessed in patient serum and suggest that tumor apoptosis may not necessarily be the dominating death mode in many tumors in vivo.

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Measurement of an apoptotic product in the sera of breast cancer patients

Ueno

Toi

Bivén

et al. 2003

European Journal of Cancer

112

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A Novel High-Through-Put Assay for Screening of Pro-Apoptotic Drugs

et al. 2002

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Screening for anti-cancer substances is commonly conducted using viability assays. An inherent problem with this approach is that all compounds that are toxic and growth inhibitory, irrespective of mechanism of action, will score positive. It would be beneficial to be able to screen for compounds that specifically induce apoptosis. We here describe an ELISA-assay based on a monoclonal antibody (M30) which recognizes a neo-epitope on cytokeratin 18 exposed after cleavage by caspases during apoptosis. We show that this assay detects apoptosis in epithelial cells and that the sensitivity is sufficient for screening in the 96-well format. We used the M30-ELISA assay to screen 500 low molecular weight compounds from a chemical library from the National Cancer Institute and identified 16 drugs with strong pro-apoptotic activity, suggesting that the assay is a useful tool for discovery of pro-apoptotic drugs.

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Untitled

Bivén

2003

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We have developed an apoptosis assay based on measurement of a neoepitope of cytokeratin-18 (CK18-Asp396) exposed after caspase-cleavage and detected by the monoclonal antibody M30. The total amount of caspase-cleaved CK18 which has accumulated in cells and tissue culture media during apoptosis is measured by ELISA. The sensitivity is sufficient for use in the 96-well format to allow high-through-put screening of drug libraries. We here describe strategies allowing classification of pro-apoptotic compounds according to their profiles of induction of apoptosis in the presence of pharmacological inhibitors. The time course of induction of CK18 cleavage can furthermore be used to distinguish structurally similar compounds. We propose that compounds that induce rapid CK18 cleavage have mechanisms of actions distinct from conventional genotoxic and microtubuli-targeting agents, and we present one example of an agent that induces almost immediate mitochondrial depolarization and cytochrome c release. Finally, CK18-Asp396 cleavage products are released from cells in tissue culture, and presumably from tumor cells in vivo. These products can be measured in sera from cancer patients. We present evidence suggesting that it will be possible to use the M30-ELISA assay for measuring chemotherapy-induced apoptosis in patient sera, opening possibilities for monitoring therapy.

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Kenneth Bivén

Differentiation between Cell Death Modes Using Measurements of Different Soluble Forms of Extracellular Cytokeratin 18

Measurement of an apoptotic product in the sera of breast cancer patients

A Novel High-Through-Put Assay for Screening of Pro-Apoptotic Drugs

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