PURPOSE: KML001 (sodium metaarsenite) is an orally bioavailable arsenic compound that has entered phase I/II clinical trials in prostate cancer. In this study, we elucidated the mode of action of KML001 and investigated its effects on telomerase and telomeres. EXPERIMENTAL DESIGN: We compared telomere length to KML001 cytotoxic activity in a panel of human solid tumor cell lines. Duration of exposure and concentrations of KML001 that affect telomerase and telomeres were evaluated in relation to established mechanisms of arsenite action such as reactive oxygen species-related DNA damage induction. Binding of KML001 to telomeres was assessed by matrix-assisted laser desorption/ionization mass spectrometry. RESULTS: We established a significant inverse correlation (r(2) = 0.9) between telomere length and cytotoxicity. KML001 exhibited activity in tumor cells with short telomeres at concentrations that can be achieved in serum of patients. We found that telomerase is not directly inhibited by KML001. Instead, KML001 specifically binds to telomeric sequences at a ratio of one molecule per three TTAGGG repeats leading to translocation of the telomerase catalytic subunit into the cytoplasm. In prostate cancer cells with short telomeres, KML001 caused telomere-associated DNA damage signaling as shown by gamma-H2AX induction and chromatin immunoprecipitation assays as well as a rapid telomere erosion shown by metaphase fluorescence in situ hybridization. These effects were not seen in a lung cancer cell line with long telomeres. Importantly, arsenification of telomeres preceded DNA lesions caused by reactive oxygen species production. CONCLUSIONS: Sodium metaarsenite is a telomere targeting agent and should be explored for the treatment of tumors with short telomeres.
PURPOSE:KML001 (sodium metaarsenite) is an orally bioavailable arsenic compound that has entered phase I/II clinical trials in prostate cancer. In this study, we elucidated the mode of action of KML001 and investigated its effects on telomerase and telomeres. EXPERIMENTAL DESIGN: We compared telomere length to KML001 cytotoxic activity in a panel of human solid tumor cell lines. Duration of exposure and concentrations of KML001 that affect telomerase and telomeres were evaluated in relation to established mechanisms of arsenite action such as reactive oxygen species-related DNA damage induction. Binding of KML001 to telomeres was assessed by matrix-assisted laser desorption/ionization mass spectrometry. RESULTS: We established a significant inverse correlation (r(2) = 0.9) between telomere length and cytotoxicity. KML001 exhibited activity in tumor cells with short telomeres at concentrations that can be achieved in serum of patients. We found that telomerase is not directly inhibited by KML001. Instead, KML001 specifically binds to telomeric sequences at a ratio of one molecule per three TTAGGG repeats leading to translocation of the telomerase catalytic subunit into the cytoplasm. In prostate cancer cells with short telomeres, KML001 caused telomere-associated DNA damage signaling as shown by gamma-H2AX induction and chromatin immunoprecipitation assays as well as a rapid telomere erosion shown by metaphase fluorescence in situ hybridization. These effects were not seen in a lung cancer cell line with long telomeres. Importantly, arsenification of telomeres preceded DNA lesions caused by reactive oxygen species production. CONCLUSIONS:Sodium metaarsenite is a telomere targeting agent and should be explored for the treatment of tumors with short telomeres.
Authors: Ping Wang; Joey Leung; Alice Lam; Seoyeon Lee; Daniel R Calabrese; Steven R Hays; Jeffery A Golden; Jasleen Kukreja; Jonathan P Singer; Paul J Wolters; Qizhi Tang; John R Greenland Journal: J Heart Lung Transplant Date: 2021-11-25 Impact factor: 13.569
Authors: Jin Sun Yoon; Deok Won Hwang; Eun Shil Kim; Jung Soon Kim; Sujong Kim; Hwa Jin Chung; Sang Kook Lee; Jun Ho Yi; Jieun Uhm; Young Woong Won; Byeong Bae Park; Jung Hye Choi; Young Yiul Lee Journal: Invest New Drugs Date: 2015-11-18 Impact factor: 3.850
Authors: Dalsan You; Yunlim Kim; Myoung Jin Jang; Chunwoo Lee; In Gab Jeong; Yong Mee Cho; Jung Jin Hwang; Jun Hyuk Hong; Hanjong Ahn; Choung-Soo Kim Journal: PLoS One Date: 2015-09-09 Impact factor: 3.240
Authors: Chang Hoon Moon; Seung Ju Lee; Ho Yong Lee; Jong Cheol Lee; Heejeong Cha; Wha Ja Cho; Jeong Woo Park; Hyun Jin Park; Jin Seo; Young Han Lee; Ho-Taek Song; Young Joo Min Journal: PLoS One Date: 2013-01-11 Impact factor: 3.240