Histone methylation is believed to play important roles in epigenetic memory in various biological processes. However, questions like whether the methylation marks themselves are faithfully transmit- ted into daughter...Histone methylation is believed to play important roles in epigenetic memory in various biological processes. However, questions like whether the methylation marks themselves are faithfully transmit- ted into daughter cells and through what mechanisms are currently under active investigation. Previ- ously, methylation was considered to be irreversible, but the recent discovery of histone lysine de- methylases revealed a dynamic nature of histone methylation regulation on four of the main sites of methylation on histone H3 and H4 tails (H3K4, H3K9, H3K27 and H3K36). Even so, it is still unclear whether demethylases specific for the remaining two sites, H3K79 and H4K20, exist. Furthermore, be- sides histone proteins, the lysine methylation and demethylation also occur on non-histone proteins, which are probably subjected to similar regulation as histones. This review discusses recent pro- gresses in protein lysine methylation regulation focusing on the above topics, while referring readers to a number of recent reviews for the biochemistry and biology of these enzymes.展开更多
Flaviviruses are a group of positive-stranded RNA viruses that cause a broad spectrum of severe illnesses in humans worldwide.Clinical manifestations of flavivirus infections range from mild febrile illness to hemorrh...Flaviviruses are a group of positive-stranded RNA viruses that cause a broad spectrum of severe illnesses in humans worldwide.Clinical manifestations of flavivirus infections range from mild febrile illness to hemorrhage,shock,and neurological manifestations.Flavivirus infections cause a substantial global health impact,with an estimated more than 400 million cases of infections annually.Hence,an understanding of flavivirus-host interaction is urgently needed for new antiviral therapeutic strategies.In recent years,many aspects concerning epigenetic therapy for viral infections have been addressed,including methylation of the genome,acetylation/deacetylation of histone complex and microRNA regulation.In this context,we surveyed and reviewed the literature and summarized the epigenetic effects of resveratrol,a natural polyphenol with potential anti-viral properties,on flavivirus infections.展开更多
Pancreatic ductal adenocarcinoma(PDAC)is one of the most lethal neoplasms worldwide and represents the vast majority of pancreatic cancer cases.Understanding the molecular pathogenesis and the underlying mechanisms in...Pancreatic ductal adenocarcinoma(PDAC)is one of the most lethal neoplasms worldwide and represents the vast majority of pancreatic cancer cases.Understanding the molecular pathogenesis and the underlying mechanisms involved in the initiation,maintenance,and progression of PDAC is an urgent need,which may lead to the development of novel therapeutic strategies against this deadly cancer.Here,we review the role of SET and MYND domaincontaining protein 2(SMYD2)in initiating and maintaining PDAC development through methylating multiple tumor suppressors and oncogenic proteins.Given the broad substrate specificity of SMYD2 and its involvement in diverse oncogenic signaling pathways in many other cancers,the mechanistic extrapolation of SMYD2 from these cancers to PDAC may allow for developing new hypotheses about the mechanisms driving PDAC tumor growth and metastasis,supporting a proposition that targeting SMYD2 could be a powerful strategy for the prevention and treatment of PDAC.展开更多
文摘Histone methylation is believed to play important roles in epigenetic memory in various biological processes. However, questions like whether the methylation marks themselves are faithfully transmit- ted into daughter cells and through what mechanisms are currently under active investigation. Previ- ously, methylation was considered to be irreversible, but the recent discovery of histone lysine de- methylases revealed a dynamic nature of histone methylation regulation on four of the main sites of methylation on histone H3 and H4 tails (H3K4, H3K9, H3K27 and H3K36). Even so, it is still unclear whether demethylases specific for the remaining two sites, H3K79 and H4K20, exist. Furthermore, be- sides histone proteins, the lysine methylation and demethylation also occur on non-histone proteins, which are probably subjected to similar regulation as histones. This review discusses recent pro- gresses in protein lysine methylation regulation focusing on the above topics, while referring readers to a number of recent reviews for the biochemistry and biology of these enzymes.
基金funding from the Ministry of Higher Education,Malaysia for niche area research under the Higher Institution Centre of Excellence(HICoE)program(MO002-2019&TIDREC-2023).
文摘Flaviviruses are a group of positive-stranded RNA viruses that cause a broad spectrum of severe illnesses in humans worldwide.Clinical manifestations of flavivirus infections range from mild febrile illness to hemorrhage,shock,and neurological manifestations.Flavivirus infections cause a substantial global health impact,with an estimated more than 400 million cases of infections annually.Hence,an understanding of flavivirus-host interaction is urgently needed for new antiviral therapeutic strategies.In recent years,many aspects concerning epigenetic therapy for viral infections have been addressed,including methylation of the genome,acetylation/deacetylation of histone complex and microRNA regulation.In this context,we surveyed and reviewed the literature and summarized the epigenetic effects of resveratrol,a natural polyphenol with potential anti-viral properties,on flavivirus infections.
文摘Pancreatic ductal adenocarcinoma(PDAC)is one of the most lethal neoplasms worldwide and represents the vast majority of pancreatic cancer cases.Understanding the molecular pathogenesis and the underlying mechanisms involved in the initiation,maintenance,and progression of PDAC is an urgent need,which may lead to the development of novel therapeutic strategies against this deadly cancer.Here,we review the role of SET and MYND domaincontaining protein 2(SMYD2)in initiating and maintaining PDAC development through methylating multiple tumor suppressors and oncogenic proteins.Given the broad substrate specificity of SMYD2 and its involvement in diverse oncogenic signaling pathways in many other cancers,the mechanistic extrapolation of SMYD2 from these cancers to PDAC may allow for developing new hypotheses about the mechanisms driving PDAC tumor growth and metastasis,supporting a proposition that targeting SMYD2 could be a powerful strategy for the prevention and treatment of PDAC.