AIM:To assess effects of heme on messenger RNA(mRNA) and microRNA(miRNA) profiles of liver cells derived from humans.METHODS:We exposed human hepatoma cell line Huh-7 cells to excess iron protoporphyrin(heme)(10 μmol...AIM:To assess effects of heme on messenger RNA(mRNA) and microRNA(miRNA) profiles of liver cells derived from humans.METHODS:We exposed human hepatoma cell line Huh-7 cells to excess iron protoporphyrin(heme)(10 μmol/L) or induced heme deficiency by addition of 4,6-dioxoheptanoic acid(500 μmol/L),a potent inhibitor of aminolevulinic acid dehydratase,for 6 h or 24 h.We harvested total RNA from the cells and performed both mRNA and miRNA array analyses,with use of Affymetrix chips,reagents,and instruments(human genome U133 plus 2.0 and miRNA 2.0 arrays).We assessed changes and their significance and interrelationships with Target Scan,Pathway Studios,and Ingenuity software.RESULTS:Changes in mRNA levels were most numerous and striking at 6 h after heme treatment but were similar and still numerous at 24 h.After 6 h of heme exposure,the increase in heme oxygenase 1 gene expression was 60-fold by mRNA and 88-fold by quantitative reverse transcription-polymerase chain reaction.We found striking changes,especially up-regulation by heme of nuclear erythroid-2 related factor-mediated oxidative stress responses,protein ubiquitination,glucocorticoid signaling,P53 signaling,and changes in RNAs that regulate intermediary metabolism.Fewer mRNAs were down-regulated by heme,and the fold decreases were less exuberant than were the increases.Notable decreases after 24 h of heme exposure were patatin-like phospholipase domain-containing protein 3(-6.5-fold),neuronal PAS domain protein 2(-1.93-fold),and protoporphyrinogen oxidase(-1.7-fold).CONCLUSION:Heme excess exhibits several toxic effects on liver and kidney,which deserve study in humans and in animal models of the human porphyrias or other disorders.展开更多
Acute ischemic stroke is a clinical emergency and a condition with high morbidity,mortality,and disability.Accurate predictive,diagnostic,and prognostic biomarkers and effective therapeutic targets for acute ischemic ...Acute ischemic stroke is a clinical emergency and a condition with high morbidity,mortality,and disability.Accurate predictive,diagnostic,and prognostic biomarkers and effective therapeutic targets for acute ischemic stroke remain undetermined.With innovations in high-throughput gene sequencing analysis,many aberrantly expressed non-coding RNAs(ncRNAs)in the brain and peripheral blood after acute ischemic stroke have been found in clinical samples and experimental models.Differentially expressed ncRNAs in the post-stroke brain were demonstrated to play vital roles in pathological processes,leading to neuroprotection or deterioration,thus ncRNAs can serve as therapeutic targets in acute ischemic stroke.Moreover,distinctly expressed ncRNAs in the peripheral blood can be used as biomarkers for acute ischemic stroke prediction,diagnosis,and prognosis.In particular,ncRNAs in peripheral immune cells were recently shown to be involved in the peripheral and brain immune response after acute ischemic stroke.In this review,we consolidate the latest progress of research into the roles of ncRNAs(microRNAs,long ncRNAs,and circular RNAs)in the pathological processes of acute ischemic stroke–induced brain damage,as well as the potential of these ncRNAs to act as biomarkers for acute ischemic stroke prediction,diagnosis,and prognosis.Findings from this review will provide novel ideas for the clinical application of ncRNAs in acute ischemic stroke.展开更多
基金Supported by A Grant from NIH/NIDDK (DK38825) to Bonkovsky HLInstitutional Funds from the Carolinas Health Care Foundation and Carolinas Medical Center
文摘AIM:To assess effects of heme on messenger RNA(mRNA) and microRNA(miRNA) profiles of liver cells derived from humans.METHODS:We exposed human hepatoma cell line Huh-7 cells to excess iron protoporphyrin(heme)(10 μmol/L) or induced heme deficiency by addition of 4,6-dioxoheptanoic acid(500 μmol/L),a potent inhibitor of aminolevulinic acid dehydratase,for 6 h or 24 h.We harvested total RNA from the cells and performed both mRNA and miRNA array analyses,with use of Affymetrix chips,reagents,and instruments(human genome U133 plus 2.0 and miRNA 2.0 arrays).We assessed changes and their significance and interrelationships with Target Scan,Pathway Studios,and Ingenuity software.RESULTS:Changes in mRNA levels were most numerous and striking at 6 h after heme treatment but were similar and still numerous at 24 h.After 6 h of heme exposure,the increase in heme oxygenase 1 gene expression was 60-fold by mRNA and 88-fold by quantitative reverse transcription-polymerase chain reaction.We found striking changes,especially up-regulation by heme of nuclear erythroid-2 related factor-mediated oxidative stress responses,protein ubiquitination,glucocorticoid signaling,P53 signaling,and changes in RNAs that regulate intermediary metabolism.Fewer mRNAs were down-regulated by heme,and the fold decreases were less exuberant than were the increases.Notable decreases after 24 h of heme exposure were patatin-like phospholipase domain-containing protein 3(-6.5-fold),neuronal PAS domain protein 2(-1.93-fold),and protoporphyrinogen oxidase(-1.7-fold).CONCLUSION:Heme excess exhibits several toxic effects on liver and kidney,which deserve study in humans and in animal models of the human porphyrias or other disorders.
基金supported by the National Natural Science Foundation of China,Nos.82301486(to SL)and 82071325(to FY)Medjaden Academy&Research Foundation for Young Scientists,No.MJR202310040(to SL)+2 种基金Nanjing Medical University Science and Technique Development,No.NMUB20220060(to SL)Medical Scientific Research Project of Jiangsu Commission of Health,No.ZDA2020019(to JZ)Health China Buchang Zhiyuan Public Welfare Project for Heart and Brain Health,No.HIGHER202102(to QD).
文摘Acute ischemic stroke is a clinical emergency and a condition with high morbidity,mortality,and disability.Accurate predictive,diagnostic,and prognostic biomarkers and effective therapeutic targets for acute ischemic stroke remain undetermined.With innovations in high-throughput gene sequencing analysis,many aberrantly expressed non-coding RNAs(ncRNAs)in the brain and peripheral blood after acute ischemic stroke have been found in clinical samples and experimental models.Differentially expressed ncRNAs in the post-stroke brain were demonstrated to play vital roles in pathological processes,leading to neuroprotection or deterioration,thus ncRNAs can serve as therapeutic targets in acute ischemic stroke.Moreover,distinctly expressed ncRNAs in the peripheral blood can be used as biomarkers for acute ischemic stroke prediction,diagnosis,and prognosis.In particular,ncRNAs in peripheral immune cells were recently shown to be involved in the peripheral and brain immune response after acute ischemic stroke.In this review,we consolidate the latest progress of research into the roles of ncRNAs(microRNAs,long ncRNAs,and circular RNAs)in the pathological processes of acute ischemic stroke–induced brain damage,as well as the potential of these ncRNAs to act as biomarkers for acute ischemic stroke prediction,diagnosis,and prognosis.Findings from this review will provide novel ideas for the clinical application of ncRNAs in acute ischemic stroke.