Sensitization of lung cancer cells by altered dimerization of HSP27.

Byeol Choi,You Na Park,Younghwa Na,Soo-Yeon Kwak,Youngjoo Kwon,Seul-Ki Choi,Hwa Jeong Lee,Yun-Sil Lee

doi:10.18632/oncotarget.22192

Byeol Choi, You Na Park + Show 6 more

Open Access

https://doi.org/10.18632/oncotarget.22192

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Journal: Oncotarget	Publication Date: Oct 31, 2017
Citations: 24	License type: cc-by

Affiliation: Ewha Womans University, CHA University

Abstract

Heat shock protein 27 (HSP27, HSPB1) induces resistance to anticancer drugs in various cancer types, including non-small cell lung cancer (NSCLC). Therefore, pharmacological inhibition of HSP27 in NSCLC may be a good strategy for anticancer therapy. Unlike other HSPs such as HSP90 and HSP70, small molecule approaches for neutralization of HSP27 are not well established because of the absence of an ATP binding domain. Previously, small molecules with altered cross linking activity of HSP27, were identified to inhibit building a large oligomer led to sensitization in combination with radiation and chemotherapeutic drugs. In this study, a chromene compound, J2 that exhibited better cross-linking activity of HSP27 than xanthone compound, SW15 which was previously identified, was yielding sensitization to NSCLC cells with high expression of HSP27 when combined with HSP90 inhibitor and standard anticancer modalities such as taxol and cisplatin. In vivo xenograft system also showed sensitization activity of J2, as well as in vitro cell viability, cell death or apoptosis detection assay. For better druggability, several quinolone compounds, an (bio) isostere of chromone and one of well-known core in many marketed medicine, was designed and synthesized by replacement of oxygen with nitrogen in 4-pyron structure of J2. However, the cross linking activity of HSP27 disappeared by quinolone compounds and the sensitizing effects on the anticancer drugs disappeared as well, suggesting oxygene moiety of 4-pyron structure of J2 may be a pharmacophore for induction of cross linking of HSP27 and sensitization to cancer cells. In conclusion, combination of chemotherapy with small molecules that induces altered cross-linking of HSP27 may be a good strategy to overcome the resistance of anticancer drugs in HSP27-over-expressing cancer cells.

Highlights

Heat shock protein 27 (HSPB1, HSP27 in human and HSP25 in murine) is a member of small HSPs and ATP-independent chaperons
The cross linking activity of HSP27 disappeared by quinolone compounds and the sensitizing effects on the anticancer drugs disappeared as well, suggesting oxygene moiety of 4-pyron structure of J2 may be a pharmacophore for induction of cross linking of HSP27 and sensitization to cancer cells
To elucidate whether cross linking activity of J2 is specific for HSP27, HSP27 high expressed lung cancer cells, NCI-H460 and HSP27 low expressed lung cancer cells, NCI-H1299 cells was compared with HSP27 cross linking activity of J2 and found that J2 showed stronger cross linking activity in HSP27 high expressed lung cancer cells and J2 was more profound activity than SW15 (Figure 1C)

Summary

Introduction

Heat shock protein 27 (HSPB1, HSP27 in human and HSP25 in murine) is a member of small HSPs and ATP-independent chaperons. HSP27 is presented in all human tissues, including primary neuronal cells and astrocytes but mainly in cardiac, skeletal muscles [1]. Its structure contains an NH2-terminal sequence including WDPF-motif, conservative α-crystallin domain, and a short COOH-terminal sequence. Both WDPF-motif and α-crystallin domain seem to be crucial for oligomerization. HSP27 is highly homologous with other small HSP27 family, containing the conserved α-crystallin domain and differing in the C- and N-terminal regions [2,3,4,5]

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