Irena Zore scite author profile

Irena Zore

3Publications

36Citation Statements Received

73Citation Statements Given

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Cathepsin B/Cystatin C Complex Levels in Sera from Patients with Lung and Colorectal Cancer

Zore¹,

Krašovec²,

Cimerman³

et al. 2001

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A sandwich-type ELISA has been developed for quantification of the complex between the cysteine proteinase cathepsin B (CB) and its reversible tight-binding inhibitor cystatin C (CC) in normal and pathological sera. The assay is based on a combination of catching Ab (3E1), raised against CB, and a horseradish peroxidase-labelled detection Ab (1A2), raised against CC. Only the CB/CC complex is able to evoke a signal in this assay. The detection limit of the assay was 15.5 nM and the working range between 31.3-200 nM. The within and between-run coefficients of variance (CV) varied from 4.7% to 9.4% and 11% to 12.8%, respectively, demonstrating satisfactory reproducibility of the method. The concentration of the CB/CC complex was determined in sera from 90 healthy controls, 32 patients with non-cancerous lung diseases, 148 patients with lung and 32 patients with colorectal cancer. The CB/CC complex was significantly less abundant in sera of patients bearing malignant lung tumours than in those with non-cancerous lung diseases or healthy controls (p<0.001). In colorectal cancer sera its level was significantly lower in advanced stages C and D than in early Dukes' stages A and B (p=0.02). Our results show that the increased levels of CB in malignant sera are not impaired effectively by CC and support the hypothesis of hindered inhibitory capability during cancer progression.

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Cysteine-Specific PEGylation of rhG-CSF via Selenylsulfide Bond

Kunstelj¹,

Fidler²,

Skrajnar³

et al. 2013

Bioconjugate Chem.

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A new PEGylation reagent enabling selective modification of free thiol groups is described in this article. The reagent was synthesized by attaching linear polyethylene glycol (PEG) N-hydroxysuccinimide to selenocystamine. The reaction was very fast, resulting in over 95% conversion yield. The active group of this new PEG-Se reagent is a diselenide, reacting with thiols via thiol/diselenide exchange reaction. Recombinant human granulocyte colony-stimulating factor (rhG-CSF) with an unpaired cysteine at the position 18 (Cys18) was used as a model protein. It was comparatively PEGylated with the new PEG-Se reagent, as well as with commercially available maleimide (PEG-Mal) and ortho-pyridyl disulfide (PEG-OPSS) PEG reagents. The highest PEGylation yield was obtained with PEG-Mal, followed by PEG-OPSS and PEG-Se. The reaction rates of PEG-Mal and PEG-Se were comparable, while the reaction rate of PEG-OPSS was lower. Purified monoPEGylated rhG-CSF conjugates were characterized and compared. Differences in activity, stability, and in vivo performance were observed, although all conjugates contained a 20 kDa PEG attached to the Cys18. Minor conformational changes were observed in the conjugate prepared with PEG-Mal. These changes were also reflected in low in vitro biological activity and aggregate formation of the maleimide conjugate. The conjugate prepared with PEG-Se had the highest in vitro biological activity, while the conjugate prepared with PEG-OPSS had the best in vivo performance.

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Cathepsin B/Cystatin C Complex Levels in Sera from Patients with Lung and Colorectal Cancer

Zore¹,

Krašovec²,

Cimerman³

et al. 2001

Biological Chemistry

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A sandwich-type ELISA has been developed for quantification of the complex between the cysteine proteinase cathepsin Β (CB) and its reversible tight-binding inhibitor cystatin C (CC) in normal and pathological sera. The assay is based on a combination of catching Ab (3E1), raised against CB, and a horseradish peroxidase-labelled detection Ab (1A2), raised against CC. Only the CB/CC complex is able to evoke a signal in this assay. The detection limit of the assay was 15.5 ΠΜ and the working range between 31.3-200 nM. The within and between-run coefficients of variance (CV) varied from 4.7% to 9.4% and 11% to 12.8%, respectively, demonstrating satisfactory reproducibility of the method. The concentration of the CB/CC complex was determined in sera from 90 healthy controls, 32 patients with non-cancerous lung diseases, 148 patients with lung and 32 patients with colorectal cancer. The CB/CC complex was significantly less abundant in sera of patients bearing malignant lung tumours than in those with non-cancerous lung diseases or healthy controls (p<0.001). In colorectal cancer sera its level was significantly lower in advanced stages C and D than in early Dukes' stages A and Β (p=0.02). Our results show that the increased levels of CB in malignant sera are not impaired effectively by CC and support the hypothesis of hindered inhibitory capability during cancer progression.Keywords: Cathepsin B/Colorectal Cancer/Complex/ Cystatin C/Lung Cancer. Yan, S., Sameni, M. and Sloane, B.F. (1998). Cathepsin Β in human tumor progresión: a review. Biol. Chem. 379, 113-123. Warwas, M., Haczynska, H., Gerber, J. and Nowak, M. (1997). Cathepsin B-like activity as a serum tumor marker in ovarian carcinoma. Eur. J. Clin. Chem. Clin. Biochem. 35, 301 -304.

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Irena Zore

Cathepsin B/Cystatin C Complex Levels in Sera from Patients with Lung and Colorectal Cancer

Cysteine-Specific PEGylation of rhG-CSF via Selenylsulfide Bond

Cathepsin B/Cystatin C Complex Levels in Sera from Patients with Lung and Colorectal Cancer

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