Sequence and expression analysis of histone deacetylases in rice

Histone acetylation levels are determined by the action of histone acetyltransferases and histone deacetylases (HDACs). Sequence similarity and profile searching tools were used to analyze the genome sequence of rice (Oryzae sativa) for genes encoding HDAC proteins. The rice RPD3/HDA1-family HDAC proteins can be divided into four classes based on sequence similarity and phylogenetic analysis of sequences obtained from the rice genome. The spatial expression pattern of rice HDACs genes indicated that some HDAC genes have different expression profiles. Furthermore, our analysis indicated that expression of HDA705, HDT701, and HDT702 could be affected by salicylic acid, jasmonic acid or abscisic acid. Expression of HDA714, SRT702, and SRT701 could be modulated by abiotic stresses, such as cold, mannitol and salt. These results indicate that different HDAC genes have distinct expression patterns and members of rice HDAC families may be involved in plant response to environmental stresses.     

Subcellular localization of rice histone deacetylases in organelles

Histone deacetylases (HDACs) are known to function in the nucleus. Here, we report on the organellar localization of three rice HDACs, OsSIR2b, OsHDAC6, and OsHDAC10. The 35S:OsSIR2b-GFP and 35S:OsHDAC10-GFP constructs were introduced into tobacco BY2 cells. Co-localization analysis of the green fluorescent protein and MitoTracker fluorescent signals in the transformed BY2 cells indicated that OsSIR2b and OsHDAC10 are localized in the mitochondria. Transgenic Arabidopsis lines harboring 35S:OsHDAC6-GFP and 35S:OsHDAC10-GFP constructs were similarly analyzed, revealing that OsHDAC6-GFP is localized exclusively in chloroplasts, whereas OsHDAC10-GFP is localized in both mitochondria and chloroplasts. The presence of OsHDAC6-GFP and OsHDAC10-GFP in chloroplasts was verified by immunodetection.     

Role of class I and class II histone deacetylases in carcinoma cells using siRNA

The role of the individual histone deacetylases (HDACs) in the regulation of cancer cell proliferation was investigated using siRNA-mediated protein knockdown. The siRNA for HDAC3 and HDAC1 demonstrated significant morphological changes in HeLa S3 consistent with those observed with HDAC inhibitors. SiRNA for HDAC 4 or 7 produced no morphological changes in HeLa S3 cells. HDAC1 and 3 siRNA produced a concentration-dependent inhibition of HeLa cell proliferation; whereas, HDAC4 and 7 siRNA showed no effect. HDAC3 siRNA caused histone hyperacetylation and increased the percent of apoptotic cells. These results demonstrate that the Class I HDACs such as HDACs 1 and 3 are important in the regulation of proliferation and survival in cancer cells. These results and the positive preclinical results with non-specific inhibitors of the HDAC enzymes provide further support for the development of Class I selective HDAC inhibitors as cancer therapeutics.