BACKGROUND: Despite recent success toward discovery of more effective anticancer drugs, chemoresistance remains a major cause of treatment failure. There is emerging evidence that epigenetics plays a key role in the development of the resistance. Epigenetic regulators such as histone acetyltransferases (HATs) and histone deacetylases (HDACs) play an important role in gene expression. The latter are found to be commonly linked with many types of cancers and influence cancer development. Overall, histone acetylation is being investigated as a therapeutic target because of its importance in regulating gene expression. This review summarizes mechanisms of the anticancer effects of histone deacetylase (HDAC) inhibitors and the results of clinical studies. RESULTS: Different HDAC inhibitors induce cancer cell death by different mechanisms that include changes in gene expression and alteration of both histone and non-histone proteins. Enhanced histone acetylation in tumors results in modification of expression of genes involved in cell signaling. Inhibition of HDACs causes changed expression in 2-10 % of genes involved in important biological processes. The results of experiments and clinical studies demonstrate that combination of HDAC inhibitors with some anticancer drugs have synergistic or additive effects. CONCLUSIONS: Even though many biological effects of HDAC inhibitors have been found, most of the mechanisms of their action remain unclear. In addition, their use in combination with other drugs and the combination regime need to be investigated. The discovery of predictive factors is also necessary. Finally, a key question is whether the pan-HDAC inhibitors or the selective inhibitors will be more efficient for different types of cancers.
BACKGROUND: Despite recent success toward discovery of more effective anticancer drugs, chemoresistance remains a major cause of treatment failure. There is emerging evidence that epigenetics plays a key role in the development of the resistance. Epigenetic regulators such as histone acetyltransferases (HATs) and histone deacetylases (HDACs) play an important role in gene expression. The latter are found to be commonly linked with many types of cancers and influence cancer development. Overall, histone acetylation is being investigated as a therapeutic target because of its importance in regulating gene expression. This review summarizes mechanisms of the anticancer effects of histone deacetylase (HDAC) inhibitors and the results of clinical studies. RESULTS: Different HDAC inhibitors induce cancer cell death by different mechanisms that include changes in gene expression and alteration of both histone and non-histone proteins. Enhanced histone acetylation in tumors results in modification of expression of genes involved in cell signaling. Inhibition of HDACs causes changed expression in 2-10 % of genes involved in important biological processes. The results of experiments and clinical studies demonstrate that combination of HDAC inhibitors with some anticancer drugs have synergistic or additive effects. CONCLUSIONS: Even though many biological effects of HDAC inhibitors have been found, most of the mechanisms of their action remain unclear. In addition, their use in combination with other drugs and the combination regime need to be investigated. The discovery of predictive factors is also necessary. Finally, a key question is whether the pan-HDAC inhibitors or the selective inhibitors will be more efficient for different types of cancers.
Authors: Katrina V Good; Alexia Martínez de Paz; Monica Tyagi; Manjinder S Cheema; Anita A Thambirajah; Taylor L Gretzinger; Gilda Stefanelli; Robert L Chow; Oliver Krupke; Michael Hendzel; Kristal Missiaen; Alan Underhill; Nicoletta Landsberger; Juan Ausió Journal: Epigenetics Date: 2017-12-05 Impact factor: 4.528
Authors: Tao Yan-Fang; Li Zhi-Heng; Xu Li-Xiao; Fang Fang; Lu Jun; Li Gang; Cao Lan; Wang Na-Na; Du Xiao-Juan; Sun Li-Chao; Zhao Wen-Li; Xiao Pei-Fang; Zhao He; Su Guang-Hao; Li Yan-Hong; Li Yi-Ping; Xu Yun-Yun; Zhou Hui-Ting; Wu Yi; Jin Mei-Fang; Liu Lin; Ni Jian; Hu Shao-Yan; Zhu Xue-Ming; Feng Xing; Wang Jian; Pan Jian Journal: PLoS One Date: 2015-07-15 Impact factor: 3.240
Authors: Eva Juengel; Snigdha Nowaz; Jasmina Makarevi; Iyad Natsheh; Isabella Werner; Karen Nelson; Michael Reiter; Igor Tsaur; Jens Mani; Sebastian Harder; Georg Bartsch; Axel Haferkamp; Roman A Blaheta Journal: Mol Cancer Date: 2014-06-16 Impact factor: 27.401