Blocking heat shock protein-90 inhibits the invasive properties and hepatic growth of human colon cancer cells and improves the efficacy of oxaliplatin in <i>p53</i>-deficient colon cancer tumors <i>in vivo</i>

Moser, Christian; Lang, Sven A.; Kainz, Silvia; Gäumann, Andreas; Fichtner‐Feigl, Stefan; Koehl, Gudrun E.; Schlitt, Hans J.; Geissler, Edward K.; Stoeltzing, Oliver

doi:10.1158/1535-7163.mct-07-0410

Cited by 55 publications

(47 citation statements)

References 33 publications

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“…These results are comparable to the effects seen with other HSP90 inhibitors. Treatment with 17-AAG and 17-(dimethylaminoethylamino)-17-demethoxygeldanamycin (17-DMAG, or alvespimycin), a water-soluble geldanamycin analog, decreased MVD in gastric, colon, and hepatocellular carcinoma xenograft models (7,11,22,23). Additionally, 17-DMAG downregulated VEGF-R2 protein expression on endothelial cells, inhibited VEGF-A-induced Erk and Akt activation, and downregulated total Akt expression (24).…”

Section: Discussionmentioning

confidence: 99%

⁸⁹Zr-Bevacizumab PET of Early Antiangiogenic Tumor Response to Treatment with HSP90 Inhibitor NVP-AUY922

Nagengast¹,

Korte²,

Munnink³

et al. 2010

J Nucl Med

106

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Angiogenesis is a critical step in tumor development, in which vascular endothelial growth factor (VEGF) is a key growth aspect. Heat shock protein 90 (HSP90), a molecular chaperone, is essential for the activity of key proteins involved in VEGF transcription. Currently, no biomarkers to predict the effect of, or monitor, HSP90 inhibition therapy in individual patients exist. 89 Zr-bevacizumab PET provides a noninvasive tool to monitor tumor VEGF levels. The aim of this study was to investigate 89 Zr-bevacizumab PET for early antiangiogenic tumor response evaluation of treatment with the new HSP90 inhibitor NVP-AUY922. In xenografts of A2780 and its cisplatin-resistant CP70 human ovarian cancer subline, 89 Zr-bevacizumab smallanimal PET was performed before and after NVP-AUY922 treatment and verified with histologic response and ex vivo tumor VEGF levels. Compared with pretreatment values, 2 wk of NVP-AUY922 treatment decreased 89 Zr-bevacizumab uptake by 44.4% (P 5 0.0003) in A2780 xenografts, whereas tumor uptake was not affected in CP70 xenografts. The same pattern was observed in A2780 and CP70 tumor VEGF levels, measured with enzyme-linked immunosorbent assay, and mean vessel density after NVP-AUY922 treatment. These findings coincided with reduction in the proliferation rate, assessed by Ki67 staining, in A2780 tumor tissue only. Conclusion: 89 Zr-bevacizumab PET was in line with the antiangiogenic response and direct antitumor effects after NVP-AUY922 treatment, supporting the specificity of 89 Zr-bevacizumab PET as a sensitive technique to monitor the antiangiogenic response of HSP90 inhibition in vivo.

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Section: Discussionmentioning

confidence: 99%

⁸⁹Zr-Bevacizumab PET of Early Antiangiogenic Tumor Response to Treatment with HSP90 Inhibitor NVP-AUY922

Nagengast¹,

Korte²,

Munnink³

et al. 2010

J Nucl Med

106

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“…Stabilization of these client proteins that are often overexpressed in tumors prevents their degradation by the proteasome and consequently contributes to tumor development and cell survival (Brown et al 2007). Blocking of HSP90 was shown to result in reduced invasiveness in vitro and in decreased tumor cell proliferation, vascularization as well as an improved efficacy of conventional therapy strategies in vivo (Moser et al 2007). Further, HSP90 expressed by cancer cells protects against apoptosis (Rashmi et al 2003), down-regulates tumorsuppressing signals such as TP53 (Lin et al 2008) and enables replicative immortality through enhanced telomerase assembly (Akalin et al 2001).…”

Section: Introductionmentioning

confidence: 99%

Impact of butyrate on PKM2 and HSP90β expression in human colon tissues of different transformation stages: a comparison of gene and protein data

Jahns

Wilhelm

Greulich³

et al. 2011

Genes Nutr

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Due to protection of oncogenic proteins from degradation and enhancement of glycolytic phosphometabolites for synthetic processes, respectively, heat shock protein 90 (HSP90) and pyruvate kinase type M2 (PKM2) are important proteins for tumor growth. The present study was undertaken to investigate the susceptibility of both proteins and their encoding genes to the chemopreventive agent butyrate in human colon cells. Matched tissue of different transformation stages derived from 20 individual colon cancer patients was used for the experiments. The results of quantitative real-time PCR revealed a moderate increase of HSP90b and PKM2 mRNA in colon tumors (P \ 0.01) compared to normal tissues without relation to clinical parameters. The expression pattern could be confirmed for PKM2 protein by Western blot but not for HSP90b. During culturing with butyrate, the amount of PKM2 transcripts decreased in all three tissue types with the strongest effects observed in tumors (median fold decrease 45%, P \ 0.05). The protein data have not reflected this influence supposing a more gradual degradation rate due to a longer half-life of PKM2. In contrast,

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“…Since this discovery, other platinum compounds such as Carboplatin and Oxaliplatin have become available for the treatment of cancer [2,3]. In order to improve activity and to reduce toxicity, much attention has been focused on designing Cisplatin analogues with reduced toxicity and/or broader antitumor spectrum, leading to successful developmentof several new anticancer platinum drugs including Nedaplatin, Lobaplatin and Eptaplatin.…”

Section: Discussionmentioning

confidence: 99%

Crystal structure of monoaqua(tetraammine)oxalatodiplatinum(II) dinitrate, [Pt2(H2O)(C2O4)(NH3)4][NO3]2

Chen¹,

Zhong²,

Dai³

et al. 2010

Zeitschrift Für Kristallographie - New Crystal Structures

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Source of materialThe title binuclear platinum(II) complex was prepared in afourstep reaction. First, K 2PtCl4 (2.0 mmol in 50 ml water) reacted with potassium iodide (4.0 mmol) to produce the cis- [PtCl 2I2] 2-. In the second step, amixture of the cis isomer and potassium oxalate monohydrate (2.5 mmol) was stirred at 343 Kfor 1day. The light green powder product was filtered, washed with distilled water and re-crystallized from hot (343 K) distilled water. Green needle-like crystals were obtained by drying in the air at 313 K (yield 80 %). Third, after adding the desired ammonium nitrate the mixture was adjusted to pH =7w ith NaOH solution and stirred at 323 Kf or 3h ,p roducing the intermediate product 98 mmol). The mixture was allowed to stir in the dark place. As the AgI was removed, the mixture was stirred for further 12 hat room temperature. Filtering off the remaining solid, alight yellow solution was obtained. The filtrate was left at room temperature for slow evaporation. Light yellow crystals suitable for X-ray diffraction analysis were obtained in the air at 313 K during two weeks (yield 56 %). DiscussionThe use of Cisplatin in cancer chemotherapy was initiated by [1]. Since this discovery, other platinum compounds such as Carboplatin and Oxaliplatin have become available for the treatment of cancer [2,3]. In order to improve activity and to reduce toxicity, much attention has been focused on designing Cisplatin analogues with reduced toxicity and/or broader antitumor spectrum, leading to successful developmentof several new anticancer platinum drugs including Nedaplatin, Lobaplatin and Eptaplatin. The title crystal structure is comprised of binuclear [Pt 2 (H 2 O)(NH 3 ) 4 (C 2 O 4 )] 2+ cations and nitrate anions. The two Pt(II) atoms are crystallographically identical. Each Pt(II) is in a square pyramidal coordination by one Pt(II) atom, two amine N atoms, one O atom of water molecule and one carboxylate O atom of acetate. The latter four ligands form the basal plane, while another Pt(II) atom occupies the apical site. The O1W atom as the bridging ligand links the two center metal Pt(II) cations. There is a direct interaction between two Pt(II) atoms with a Pt1-Pt1 bond distance of 3.1649(7) Å, which is shorter than the van der Waals contact distance for Pt-Pt of 3.40 Å [4,5]. In addition, an intramolecular hydrogen bond is formed from one O atom of nitrate anion and two amine with d(N1-H1A···O5) = 2.884 Å and ∠N1-H1A···O5 = 172.05°. In the unit cell, each molecule is involved in three types of intermolecular hydrogen bonds. One occurs between the nitrate anion oxygen group and the amine nitrogen group of the next two molecules, another type is between the nitrate anion oxygen group and the bridging water molecule, the third type is between the O atoms of nitrate anion and the amine of the next molecule. Through these hydrogen bonds, the title molecules are linked into a three-dimensional framework.

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Blocking heat shock protein-90 inhibits the invasive properties and hepatic growth of human colon cancer cells and improves the efficacy of oxaliplatin in p53-deficient colon cancer tumors in vivo

Cited by 55 publications

References 33 publications

⁸⁹Zr-Bevacizumab PET of Early Antiangiogenic Tumor Response to Treatment with HSP90 Inhibitor NVP-AUY922

⁸⁹Zr-Bevacizumab PET of Early Antiangiogenic Tumor Response to Treatment with HSP90 Inhibitor NVP-AUY922

Impact of butyrate on PKM2 and HSP90β expression in human colon tissues of different transformation stages: a comparison of gene and protein data

Crystal structure of monoaqua(tetraammine)oxalatodiplatinum(II) dinitrate, [Pt2(H2O)(C2O4)(NH3)4][NO3]2

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Blocking heat shock protein-90 inhibits the invasive properties and hepatic growth of human colon cancer cells and improves the efficacy of oxaliplatin in p53-deficient colon cancer tumors in vivo

Cited by 55 publications

References 33 publications

89Zr-Bevacizumab PET of Early Antiangiogenic Tumor Response to Treatment with HSP90 Inhibitor NVP-AUY922

89Zr-Bevacizumab PET of Early Antiangiogenic Tumor Response to Treatment with HSP90 Inhibitor NVP-AUY922

Impact of butyrate on PKM2 and HSP90β expression in human colon tissues of different transformation stages: a comparison of gene and protein data

Crystal structure of monoaqua(tetraammine)oxalatodiplatinum(II) dinitrate, [Pt2(H2O)(C2O4)(NH3)4][NO3]2

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⁸⁹Zr-Bevacizumab PET of Early Antiangiogenic Tumor Response to Treatment with HSP90 Inhibitor NVP-AUY922

⁸⁹Zr-Bevacizumab PET of Early Antiangiogenic Tumor Response to Treatment with HSP90 Inhibitor NVP-AUY922