Abstract 13: Chromatin unfolding small molecules as a novel type of anticancer agents

Abstract

Abstract Although targeted therapy was the major focus of anti-cancer drug development, recently revealed enormous heterogeneity of tumors planted a seed of doubt in it as a potential cure for cancer. Very few universal cancer targets are known and they lack cancer specificity. DNA is one of this sort, but activity of drugs targeting DNA was traditionally attributed to their ability to block DNA replication and cause DNA damage with a plethora of harmful long lasting effects in normal cells. We have found that reversible binding of DNA by non-DNA damaging small molecules, curaxins, has strong anticancer effect in different preclinical models without deleterious consequences associated with DNA damage (REF). In this study we explained the mechanism of activity of curaxin clinical lead, CBL0137, through alteration of chromatin organization in tumor cells. Intercalation of the curaxin carbazole moiety between base pairs and DNA major and minor groove binding with curaxin side chains cause an increase in inter base pair distance and untwisting of the double helix (~18o). Such alteration of DNA helical shape leads to decreased nucleosome stability and chromatin opening, creating sites for the high affinity binding of histone chaperone complex FACT. We named this phenomenon “chromatin trapping of FACT” or c-trapping. Consequences of C-trapping are much more deleterious for tumor, than for normal cells. First, c-trapping is an equivalent of functional inactivation of FACT. FACT is critical for oncogenic transformation and tumor, but not normal cell, viability and growth (REF). FACT is essential for the activity of several transcription factors, such as NF-kappaB, HSF1, MYC etc., with important roles in tumor cell proliferation and survival (REF). Further, deregulation of transcription caused by curaxin-dependent chromatin decondensation leads to upregulation of transcription from heterochromatin. This leads to the formation of double stranded RNAs from centromeric and pericentromeric repetitive elements, which mimics a viral infection and induces an IFN response, a powerful inhibitor of tumor cell growth. Additionally, c-trapping of FACT leads to casein kinase 2 mediated phosphorylation and activation of wild type p53 leading to p53-dependent death of cells. Thus non-DNA damaging DNA binding small molecules compromise cancer cell viability via alteration of nucleosome stability and chromatin organization. This is a novel mechanism of anti-cancer activity of small molecules with broad applicability to different types of cancer while lacking the harmful effects of DNA damaging chemotherapy. Citation Format: Katerina V. Gurova. Chromatin unfolding small molecules as a novel type of anticancer agents [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 13. doi:10.1158/1538-7445.AM2017-13