Intestinal stem cells(ISCs)initiate intestinal epithelial regeneration and tumorigenesis,and they experi-ence rapid refilling upon various injuries for epithelial repair as well as tumor reoccurrence.It is crucial to ...Intestinal stem cells(ISCs)initiate intestinal epithelial regeneration and tumorigenesis,and they experi-ence rapid refilling upon various injuries for epithelial repair as well as tumor reoccurrence.It is crucial to reveal the mechanism underlying such plasticity for intestinal health.Recent studies have found that metabolic pathways control stem cell fate in homeostasis,but the role of metabolism in the regeneration of ISCs after damage has not been clarified.Here,we find that in a human colorectal cancer dataset,miR-29a and b(miR-29a/b)are metabolic regulators highly associated with intestinal tumorigenesis and worse prognostic value of radiotherapy.We also show that these two microRNAs are required for intesti-nal stemness maintenance in mice,and their expression is induced in regenerated ISCs after irradiation injury,resulting in skewed ISC fate from differentiation towards self-renewal.This upregulation of miR-29a/b expression in ISCs leads to suppression of fatty acid oxidation(FAO)and depression of oxidative phosphorylation,which in turn controls the balance between self-renewal and differentiation of ISCs.Deletion of miR-29a/b prevents these effects and thus impairs ISC-mediated epithelial recovery.Finally,we filter the potential targets of miR-29a/b and identify Hnf4g,a transcription factor,that drives this metabolic reprogramming through regulating FAO-related enzymes.Our work discovers an impor-tant metabolic mechanism of ISC-mediated regeneration and potentially pave the way for more targeted and effective therapeutic strategies for intestinal repair as well as tumor treatment.展开更多
Objective:To explore the mechanism that miR-29b and B7H3 regulate the polarization of macrophages and thus affect the differentiation of CD4^(+)T.Methods:1.PBMC was extracted from peripheral blood mononuclear cells of...Objective:To explore the mechanism that miR-29b and B7H3 regulate the polarization of macrophages and thus affect the differentiation of CD4^(+)T.Methods:1.PBMC was extracted from peripheral blood mononuclear cells of children with asthma and normal children in the affiliated Children's Hospital of Soochow University,and RNA was extracted and reverse transcribed.The expression of miR-29b and B7H3mRNA was determined by real-time quantitative polymerase chain reaction(Q-PCR).The family history of asthma and history of allergic diseases were collected.2.THP-1 cells were induced into macrophages,miR-29b interference,miR-29b overexpression and normal control were induced by LV526,LV527 and NC virus infection.After 24 hours of culture,the cells were collected to detect the expression of STAT3 and B7H3 genes and proteins.3.It was verified that STAT3 was the target gene of miR-29b:after inoculating THP-1 cells and culturing with PMA with final concentration of 50ng/ml for 6 hours,the macrophages without PMA were cultured for 24 hours,then the macrophages infected by LV528,LV529 and NC virus were induced to form miR-29b interference,miR29b overexpression and normal control group.Luciferase analysis was performed at 48 hours to verify that STAT3 was the target gene of miR-29b.STAT3-3'UTR luciferase reporter gene plasmids were constructed and divided into three groups:"miR-29b+STAT3-3'UTR","miR-29b+STAT3-mut-3'UTR"and"miR-29b+luciferase empty load".4.Macrophages with different treatments were co-cultured with initial T cells for 3 days.The relative expressions of T-bet,GATA3 and ROR-γt were detected by Q-PCR.Result:1.The incidence of allergic disease in the acute attack group(68%)was higher than that in the other two groups(34.8%,33.3%),and the family history of asthma in the normal group(0%)was much lower than that in the other two groups(52%,60.9%).The difference was statistically significant(P<0.05).2.The expression of B7H3 in PBMC in acute attack group was higher than that in non-acute attack group and normal group.The expression of miR-29b in PBMC in normal group was significantly higher than that in non-acute attack group and acute attack group(P<0.0001).The expression of miR-29b in non-acute attack group was significantly higher than that in acute attack group(P=0.007).3.After silencing the expression of miR-29b,IL-4Rα,IL-4,IL-5,IL-13 and CD206 of macrophages increased significantly,while IFN-γdecreased,suggesting that miR-29b can promote the polarization of macrophages to M2.4.The overexpression of miR-29b,STAT3 and B7H3 gene and protein level in macrophages decreased,while the increase of miR-29b,STAT3 and B7H3 gene and protein expression was inhibited.5.There was a significant positive correlation between the expression of STAT3 and B7H3mRNA in macrophages(r=0.9737,P<0.0001).6.STAT3 is the target gene of miR-29b.7.Co-culture of macrophages with CD4^(+)T cells can promote the differentiation of primary T cells,namely Th 0 cells,into Th2,and the promoting effect of macrophages with downregulation of miR-29b is more obvious.Conclusion:The expression of miR-29b in PBMC of children with asthma is lower than that of normal children,while the expression of B7H3 is higher than that of normal children.It is speculated that miR-29b has a protective effect on children with asthma,while B7H3 aggravates the inflammatory response.Down-regulation of miR-29b,in macrophages can promote macrophages to M2 polarization,increase the expression of B7H3 and STAT3 in macrophages,make Th0 cells differentiate into Th2 cells,and aggravate the inflammatory response in patients with asthma.展开更多
基金supported by the National Natural Science Foundation of China(32372247)the National Key Research and Development Program of China(2023YFF1104501)to Huiyuan Guo.
文摘Intestinal stem cells(ISCs)initiate intestinal epithelial regeneration and tumorigenesis,and they experi-ence rapid refilling upon various injuries for epithelial repair as well as tumor reoccurrence.It is crucial to reveal the mechanism underlying such plasticity for intestinal health.Recent studies have found that metabolic pathways control stem cell fate in homeostasis,but the role of metabolism in the regeneration of ISCs after damage has not been clarified.Here,we find that in a human colorectal cancer dataset,miR-29a and b(miR-29a/b)are metabolic regulators highly associated with intestinal tumorigenesis and worse prognostic value of radiotherapy.We also show that these two microRNAs are required for intesti-nal stemness maintenance in mice,and their expression is induced in regenerated ISCs after irradiation injury,resulting in skewed ISC fate from differentiation towards self-renewal.This upregulation of miR-29a/b expression in ISCs leads to suppression of fatty acid oxidation(FAO)and depression of oxidative phosphorylation,which in turn controls the balance between self-renewal and differentiation of ISCs.Deletion of miR-29a/b prevents these effects and thus impairs ISC-mediated epithelial recovery.Finally,we filter the potential targets of miR-29a/b and identify Hnf4g,a transcription factor,that drives this metabolic reprogramming through regulating FAO-related enzymes.Our work discovers an impor-tant metabolic mechanism of ISC-mediated regeneration and potentially pave the way for more targeted and effective therapeutic strategies for intestinal repair as well as tumor treatment.
基金National Natural Science Foundation of China(No.81570016,81771676,81970027)。
文摘Objective:To explore the mechanism that miR-29b and B7H3 regulate the polarization of macrophages and thus affect the differentiation of CD4^(+)T.Methods:1.PBMC was extracted from peripheral blood mononuclear cells of children with asthma and normal children in the affiliated Children's Hospital of Soochow University,and RNA was extracted and reverse transcribed.The expression of miR-29b and B7H3mRNA was determined by real-time quantitative polymerase chain reaction(Q-PCR).The family history of asthma and history of allergic diseases were collected.2.THP-1 cells were induced into macrophages,miR-29b interference,miR-29b overexpression and normal control were induced by LV526,LV527 and NC virus infection.After 24 hours of culture,the cells were collected to detect the expression of STAT3 and B7H3 genes and proteins.3.It was verified that STAT3 was the target gene of miR-29b:after inoculating THP-1 cells and culturing with PMA with final concentration of 50ng/ml for 6 hours,the macrophages without PMA were cultured for 24 hours,then the macrophages infected by LV528,LV529 and NC virus were induced to form miR-29b interference,miR29b overexpression and normal control group.Luciferase analysis was performed at 48 hours to verify that STAT3 was the target gene of miR-29b.STAT3-3'UTR luciferase reporter gene plasmids were constructed and divided into three groups:"miR-29b+STAT3-3'UTR","miR-29b+STAT3-mut-3'UTR"and"miR-29b+luciferase empty load".4.Macrophages with different treatments were co-cultured with initial T cells for 3 days.The relative expressions of T-bet,GATA3 and ROR-γt were detected by Q-PCR.Result:1.The incidence of allergic disease in the acute attack group(68%)was higher than that in the other two groups(34.8%,33.3%),and the family history of asthma in the normal group(0%)was much lower than that in the other two groups(52%,60.9%).The difference was statistically significant(P<0.05).2.The expression of B7H3 in PBMC in acute attack group was higher than that in non-acute attack group and normal group.The expression of miR-29b in PBMC in normal group was significantly higher than that in non-acute attack group and acute attack group(P<0.0001).The expression of miR-29b in non-acute attack group was significantly higher than that in acute attack group(P=0.007).3.After silencing the expression of miR-29b,IL-4Rα,IL-4,IL-5,IL-13 and CD206 of macrophages increased significantly,while IFN-γdecreased,suggesting that miR-29b can promote the polarization of macrophages to M2.4.The overexpression of miR-29b,STAT3 and B7H3 gene and protein level in macrophages decreased,while the increase of miR-29b,STAT3 and B7H3 gene and protein expression was inhibited.5.There was a significant positive correlation between the expression of STAT3 and B7H3mRNA in macrophages(r=0.9737,P<0.0001).6.STAT3 is the target gene of miR-29b.7.Co-culture of macrophages with CD4^(+)T cells can promote the differentiation of primary T cells,namely Th 0 cells,into Th2,and the promoting effect of macrophages with downregulation of miR-29b is more obvious.Conclusion:The expression of miR-29b in PBMC of children with asthma is lower than that of normal children,while the expression of B7H3 is higher than that of normal children.It is speculated that miR-29b has a protective effect on children with asthma,while B7H3 aggravates the inflammatory response.Down-regulation of miR-29b,in macrophages can promote macrophages to M2 polarization,increase the expression of B7H3 and STAT3 in macrophages,make Th0 cells differentiate into Th2 cells,and aggravate the inflammatory response in patients with asthma.
