Hepatocyte nuclear factor 1 alpha(HNF1A),hepatocyte nuclear factor 4 alpha(HNF4A),and forkhead box protein A2(FOXA2)are key transcription factors that regulate a complex gene network in the liver,cre-ating a regulator...Hepatocyte nuclear factor 1 alpha(HNF1A),hepatocyte nuclear factor 4 alpha(HNF4A),and forkhead box protein A2(FOXA2)are key transcription factors that regulate a complex gene network in the liver,cre-ating a regulatory transcriptional loop.The Encode and ChIP-Atlas databases identify the recognition sites of these transcription factors in many glycosyltransferase genes.Our in silico analysis of HNF1A,HNF4A.and FOXA2 binding to the ten candidate glyco-genes studied in this work confirms a significant enrich-ment of these transcription factors specifically in the liver.Our previous studies identified HNF1A as a master regulator of fucosylation,glycan branching,and galactosylation of plasma glycoproteins.Here,we aimed to functionally validate the role of the three transcription factors on downstream glyco-gene transcriptional expression and the possible effect on glycan phenotype.We used the state-of-the-art clus-tered regularly interspaced short palindromic repeats/dead Cas9(CRISPR/dCas9)molecular tool for the downregulation of the HNF1A,HNF4A,and FOXA2 genes in HepG2 cells-a human liver cancer cell line.The results show that the downregulation of all three genes individually and in pairs affects the transcrip-tional activity of many glyco-genes,although downregulation of glyco-genes was not always followed by an unambiguous change in the corresponding glycan structures.The effect is better seen as an overall change in the total HepG2 N-glycome,primarily due to the extension of biantennary glycans.We propose an alternative way to evaluate the N-glycome composition via estimating the overall complexity of the glycome by quantifying the number of monomers in each glycan structure.We also propose a model showing feedback loops with the mutual activation of HNF1A-FOXA2 and HNF4A-FOXA2 affecting glyco-genes and protein glycosylation in HepG2 cells.展开更多
Hepatocellular carcinoma(HCC)is a common malignant tumor with high incidence and cancer mortality worldwide.Post-translational modifications(PTMs)of proteins have a great impact on protein function.Almost all proteins...Hepatocellular carcinoma(HCC)is a common malignant tumor with high incidence and cancer mortality worldwide.Post-translational modifications(PTMs)of proteins have a great impact on protein function.Almost all proteins can undergo PTMs,including phosphorylation,acetylation,methylation,glycosylation,ubiquitination,and so on.Many studies have shown that PTMs are related to the occurrence and development of cancers.The findings provide novel therapeutic targets for cancers,such as glypican-3 and mucin-1.Other clinical implications are also found in the studies of PTMs.Diagnostic or prognostic value,and response to therapy have been identified.In HCC,it has been shown that glycosylated alpha-fetoprotein(AFP)has a higher detection rate for early liver cancer than conventional AFP.In this review,we mainly focused on the diagnostic and prognostic value of PTM,in order to provide new insights into the clinical implication of PTM in HCC.展开更多
基金the European Structural and Invest-ment Funded Grant"CardioMetabolic"(#KK.01.2.1.02.0321)the Croatian National Centre of Research Excellence in Personalized Healthcare Grant(#KK.01.1.1.01.0010)+2 种基金the European Regional Development Fund Grant,project"CRISPR/Cas9-CasMouse"(#KK.01.1.1.04.0085)the European Structural and Investment Funded Project of Centre of Competence in Molecular Diagnostics(#KK.01.2.2.03.0006)the Croatian National Centre of Research Excellence in Personalized Healthcare Grant(#KK.01.1.1.01.0010).
文摘Hepatocyte nuclear factor 1 alpha(HNF1A),hepatocyte nuclear factor 4 alpha(HNF4A),and forkhead box protein A2(FOXA2)are key transcription factors that regulate a complex gene network in the liver,cre-ating a regulatory transcriptional loop.The Encode and ChIP-Atlas databases identify the recognition sites of these transcription factors in many glycosyltransferase genes.Our in silico analysis of HNF1A,HNF4A.and FOXA2 binding to the ten candidate glyco-genes studied in this work confirms a significant enrich-ment of these transcription factors specifically in the liver.Our previous studies identified HNF1A as a master regulator of fucosylation,glycan branching,and galactosylation of plasma glycoproteins.Here,we aimed to functionally validate the role of the three transcription factors on downstream glyco-gene transcriptional expression and the possible effect on glycan phenotype.We used the state-of-the-art clus-tered regularly interspaced short palindromic repeats/dead Cas9(CRISPR/dCas9)molecular tool for the downregulation of the HNF1A,HNF4A,and FOXA2 genes in HepG2 cells-a human liver cancer cell line.The results show that the downregulation of all three genes individually and in pairs affects the transcrip-tional activity of many glyco-genes,although downregulation of glyco-genes was not always followed by an unambiguous change in the corresponding glycan structures.The effect is better seen as an overall change in the total HepG2 N-glycome,primarily due to the extension of biantennary glycans.We propose an alternative way to evaluate the N-glycome composition via estimating the overall complexity of the glycome by quantifying the number of monomers in each glycan structure.We also propose a model showing feedback loops with the mutual activation of HNF1A-FOXA2 and HNF4A-FOXA2 affecting glyco-genes and protein glycosylation in HepG2 cells.
基金funded by National Natural Science Foundation of China(81772982)the Special Innovation Fund of Department of Education of Guangdong Province(2019KTSCX049)+1 种基金Discipline Construction Project of Guang-dong Medical University(4SG23034G)Talent Development Foundation of The First Dongguan Affiliated Hospital of Guangdong Medical University(PF100-2-03).
文摘Hepatocellular carcinoma(HCC)is a common malignant tumor with high incidence and cancer mortality worldwide.Post-translational modifications(PTMs)of proteins have a great impact on protein function.Almost all proteins can undergo PTMs,including phosphorylation,acetylation,methylation,glycosylation,ubiquitination,and so on.Many studies have shown that PTMs are related to the occurrence and development of cancers.The findings provide novel therapeutic targets for cancers,such as glypican-3 and mucin-1.Other clinical implications are also found in the studies of PTMs.Diagnostic or prognostic value,and response to therapy have been identified.In HCC,it has been shown that glycosylated alpha-fetoprotein(AFP)has a higher detection rate for early liver cancer than conventional AFP.In this review,we mainly focused on the diagnostic and prognostic value of PTM,in order to provide new insights into the clinical implication of PTM in HCC.