Objectives:Thyroid cancer(THCA)is the most common malignant tumor in endocrine system and the incidence has been increasing worldwide.And the number of patients dying from THCA has also gradually risen because the inc...Objectives:Thyroid cancer(THCA)is the most common malignant tumor in endocrine system and the incidence has been increasing worldwide.And the number of patients dying from THCA has also gradually risen because the incidence continues to increase,so the mechanisms related to effective targets is necessary to improve the survival.This study was to preliminarily investigate the effects of the COL4A2 gene on the regulation of thyroid cancer(THCA)cell proliferation and the associated pathways.Methods:Bioinformatics analysis revealed that COL4A2 was closely associated with cancer development.COL4A2 expression in THCA tissues was analyzed using immunohistochemistry,and survival information was determined via Kaplan-Meier curves.The expression of COL4A2 and AKT pathway-related genes were analyzed using qPCR and western blot analyses.Colony formation as well as CCK-8 assays exhibited the cell proliferation level and cell activity,respectively.Downstream of COL4A2 was identified by Gene set enrichment analysis(GSEA).The effects of the COL4A2 and AKT pathways on THCA tumor growth in vivo were determined using a mouse model.Results:Bioinformatics analysis exhibited that COL4A2 plays a significant role in cancer and that the AKT pathway is downstream of COL4A2.THCA patients with high COL4A2 expression had shorter recurrence-free survival.Upregulation of COL4A2 gene expression in 2 THCA cell lines promoted tumor cell growth and activity.The use of AKT pathway blockers also restrained the growth and activity of the 2 THCA cell lines.The use of AKT pathway blockers reduced tumor volume and mass and prolonged mouse survival.Conclusions:COL4A2 can promote the growth as well as development of THCA through the AKT pathway and COL4A2 could be used as a target for THCA.展开更多
NR4A2 is a transcription factor belonging to the steroid orphan nuclear receptor superfamily.It was originally considered to be essential in the generation and maintenance of dopaminergic neurons,and associated with n...NR4A2 is a transcription factor belonging to the steroid orphan nuclear receptor superfamily.It was originally considered to be essential in the generation and maintenance of dopaminergic neurons,and associated with neurological disorders such as Parkinson's disease.Recently,NR4A2 has been found to play a critical role in some inflammatory diseases and cancer.NR4A2 can be efficiently trans-activated by some proinflammatory cytokines,such as tumor necrosis factor-α,interleukin-1β,and vascular endothelial growth factor(VEGF).The nuclear factor-κB signaling pathway serves as a principal regulator of inducible NR4A expression in immune cells.NR4A2 can trans-activate Foxp3,a hallmark specifically expressed in regulatory T(Treg) cells,and plays a critical role in the differentiation,maintenance,and function of Treg cells.NR4A2 in T lymphocytes is pivotal for Treg cell induction and suppression of aberrant induction of Th1 under physiological and pathological conditions.High density of Foxp3 + Treg cells is significantly associated with gastrointestinal inflammation,tumor immune escape,and disease progression.NR4A2 is produced at high levels in CD133 + colorectal carcinoma(CRC) cells and significantly upregulated by cyclooxygenase-2-derived prostaglandin E 2 in a cyclic adenosine monophosphate(cAMP)/protein kinase A(PKA)-dependent manner in CRC cells.The cAMP/PKA signaling pathway is the common pathway of NR4A2-related inflammation and cancer.NR4A2 trans-activates osteopontin,a direct target of the Wnt/β-catenin pathway associated with CRC invasion,metastasis,and poor prognosis.Knockdown of endogenous NR4A2 expression attenuates VEGF-induced endothelial cell proliferation,migration and in vivo angiogenesis.Taken together,NR4A2 emerges as an important nuclear factor linking gastrointestinal inflammation and cancer,especially CRC,and should serve as a candidate therapeutic target for inflammation-related gastrointestinal cancer.展开更多
[Objectives]The CRISPR/Cas9(Clustered regulatory interspaced short palindromic repeat/Cas9)gene editing technology is the third generation of"genome fixed-point editing technology"following the"zinc fin...[Objectives]The CRISPR/Cas9(Clustered regulatory interspaced short palindromic repeat/Cas9)gene editing technology is the third generation of"genome fixed-point editing technology"following the"zinc finger endonuclease(ZFN)"and"transcription activator effector nuclease(TALEN)".Glucotransferase genes UGT84A2 and UGT84A4,can simultaneously convert hydroxycinnamate into 1-O-β-glucose esters as isozymes.The CRISPR/Cas9 technology was used to construct double mutants of Arabidopsis thaliana ugt84a2/ugt84a4.[Methods]A CRISPR/Cas9 double mutant expression vector was constructed using UGT84A2 and UGT84A4 as the target genes.The Agrobacterium-mediated dip dyeing method was used to transform wild-type A.thaliana,and the CRISPR/Cas9system was used to target and knock out A.thaliana UGT84A2 and UGT84A4 genes.[Results]The descendants of A.thaliana with the UGT84A2/UGT84A4 gene were sequenced and analyzed.Thirteen positively transformed plants obtained were analyzed according to the sequencing results,and the ugt84a2/ugt84a4 double mutants were screened.[Conclusions]This study provides a reference for the functional study of UGT84A2 and UGT84A4 isoenzyme genes in other species,as well as strong theoretical and method support for accelerating the development and utilization of UGT84A2/UGT84A4 functional gene resources.展开更多
目的:构建含Nr4a2基因的绿色荧光慢病毒载体,并检测其体外表达目的基因的水平。方法:设计Nr4a2基因的引物,采用聚合酶链反应(PCR)扩增,插入经AgeⅠ/AgeⅠ酶切的GV287慢病毒载体构建GV287-Nr4a2慢病毒质粒。PCR鉴定、测序验证后,将其与pH...目的:构建含Nr4a2基因的绿色荧光慢病毒载体,并检测其体外表达目的基因的水平。方法:设计Nr4a2基因的引物,采用聚合酶链反应(PCR)扩增,插入经AgeⅠ/AgeⅠ酶切的GV287慢病毒载体构建GV287-Nr4a2慢病毒质粒。PCR鉴定、测序验证后,将其与pHelper1.0载体、pHelper2.0载体共同转染293T细胞(人胚肾细胞),48小时后收集含慢病毒颗粒的细胞上清液,经浓缩并测定滴度后感染293T细胞,72h后观察增强型绿色荧光蛋白(enhanced green fluorescent protein,EGFP)的表达。结果:酶切及测序鉴定证实成功构建了重组慢病毒载体GV287-Nr4a2;荧光显微镜下可见绿色荧光高度表达;Nr4a2蛋白能在293T细胞中有效表达;包装过表达慢病毒并测其浓缩滴度为2.0×108TU/ML。结论:成功构建Nr4a2慢病毒载体且在293T细胞中良好表达,为进一步转染大鼠骨髓间充质干细胞,基因治疗帕金森病奠定基础。展开更多
BACKGROUND Genetic factors of chronic intestinal ulcers are increasingly garnering attention.We present a case of chronic intestinal ulcers and bleeding associated with mu-tations of the activin A receptor type II-lik...BACKGROUND Genetic factors of chronic intestinal ulcers are increasingly garnering attention.We present a case of chronic intestinal ulcers and bleeding associated with mu-tations of the activin A receptor type II-like 1(ACVRL1)and phospholipase A2 group IVA(PLA2G4A)genes and review the available relevant literature.CASE SUMMARY A 20-year-old man was admitted to our center with a 6-year history of recurrent abdominal pain,diarrhea,and dark stools.At the onset 6 years ago,the patient had received treatment at a local hospital for abdominal pain persisting for 7 d,under the diagnosis of diffuse peritonitis,acute gangrenous appendicitis with perforation,adhesive intestinal obstruction,and pelvic abscess.The surgical treat-ment included exploratory laparotomy,appendectomy,intestinal adhesiolysis,and pelvic abscess removal.The patient’s condition improved and he was dis-charged.However,the recurrent episodes of abdominal pain and passage of black stools started again one year after discharge.On the basis of these features and results of subsequent colonoscopy,the clinical diagnosis was established as in-flammatory bowel disease(IBD).Accordingly,aminosalicylic acid,immunotherapy,and related symptomatic treatment were administered,but the symptoms of the patient did not improve significantly.Further investigations revealed mutations in the ACVRL1 and PLA2G4A genes.ACVRL1 and PLA2G4A are involved in angiogenesis and coagulation,respectively.This suggests that the chronic intestinal ulcers and bleeding in this case may be linked to mutations in the ACVRL1 and PLA2G4A genes.Oral Kangfuxin liquid was administered to promote healing of the intestinal mucosa and effectively manage clinical symptoms.CONCLUSION Mutations in the ACVRL1 and PLA2G4A genes may be one of the causes of chronic intestinal ulcers and bleeding in IBD.Orally administered Kangfuxin liquid may have therapeutic potential.展开更多
文摘Objectives:Thyroid cancer(THCA)is the most common malignant tumor in endocrine system and the incidence has been increasing worldwide.And the number of patients dying from THCA has also gradually risen because the incidence continues to increase,so the mechanisms related to effective targets is necessary to improve the survival.This study was to preliminarily investigate the effects of the COL4A2 gene on the regulation of thyroid cancer(THCA)cell proliferation and the associated pathways.Methods:Bioinformatics analysis revealed that COL4A2 was closely associated with cancer development.COL4A2 expression in THCA tissues was analyzed using immunohistochemistry,and survival information was determined via Kaplan-Meier curves.The expression of COL4A2 and AKT pathway-related genes were analyzed using qPCR and western blot analyses.Colony formation as well as CCK-8 assays exhibited the cell proliferation level and cell activity,respectively.Downstream of COL4A2 was identified by Gene set enrichment analysis(GSEA).The effects of the COL4A2 and AKT pathways on THCA tumor growth in vivo were determined using a mouse model.Results:Bioinformatics analysis exhibited that COL4A2 plays a significant role in cancer and that the AKT pathway is downstream of COL4A2.THCA patients with high COL4A2 expression had shorter recurrence-free survival.Upregulation of COL4A2 gene expression in 2 THCA cell lines promoted tumor cell growth and activity.The use of AKT pathway blockers also restrained the growth and activity of the 2 THCA cell lines.The use of AKT pathway blockers reduced tumor volume and mass and prolonged mouse survival.Conclusions:COL4A2 can promote the growth as well as development of THCA through the AKT pathway and COL4A2 could be used as a target for THCA.
基金Supported by National Natural Science Foundation of China, No.81025015,30921006,91129301
文摘NR4A2 is a transcription factor belonging to the steroid orphan nuclear receptor superfamily.It was originally considered to be essential in the generation and maintenance of dopaminergic neurons,and associated with neurological disorders such as Parkinson's disease.Recently,NR4A2 has been found to play a critical role in some inflammatory diseases and cancer.NR4A2 can be efficiently trans-activated by some proinflammatory cytokines,such as tumor necrosis factor-α,interleukin-1β,and vascular endothelial growth factor(VEGF).The nuclear factor-κB signaling pathway serves as a principal regulator of inducible NR4A expression in immune cells.NR4A2 can trans-activate Foxp3,a hallmark specifically expressed in regulatory T(Treg) cells,and plays a critical role in the differentiation,maintenance,and function of Treg cells.NR4A2 in T lymphocytes is pivotal for Treg cell induction and suppression of aberrant induction of Th1 under physiological and pathological conditions.High density of Foxp3 + Treg cells is significantly associated with gastrointestinal inflammation,tumor immune escape,and disease progression.NR4A2 is produced at high levels in CD133 + colorectal carcinoma(CRC) cells and significantly upregulated by cyclooxygenase-2-derived prostaglandin E 2 in a cyclic adenosine monophosphate(cAMP)/protein kinase A(PKA)-dependent manner in CRC cells.The cAMP/PKA signaling pathway is the common pathway of NR4A2-related inflammation and cancer.NR4A2 trans-activates osteopontin,a direct target of the Wnt/β-catenin pathway associated with CRC invasion,metastasis,and poor prognosis.Knockdown of endogenous NR4A2 expression attenuates VEGF-induced endothelial cell proliferation,migration and in vivo angiogenesis.Taken together,NR4A2 emerges as an important nuclear factor linking gastrointestinal inflammation and cancer,especially CRC,and should serve as a candidate therapeutic target for inflammation-related gastrointestinal cancer.
基金Supported by Natural Science Foundation of Shandong Province(ZR2017PC007)Project of Shandong(Linyi)Institute of Modern Agriculture of Zhejiang University for Serving Local Economic Development(ZDNY-2020-FWLY02007)Doctoral Program of China West Normal University(18Q051)。
文摘[Objectives]The CRISPR/Cas9(Clustered regulatory interspaced short palindromic repeat/Cas9)gene editing technology is the third generation of"genome fixed-point editing technology"following the"zinc finger endonuclease(ZFN)"and"transcription activator effector nuclease(TALEN)".Glucotransferase genes UGT84A2 and UGT84A4,can simultaneously convert hydroxycinnamate into 1-O-β-glucose esters as isozymes.The CRISPR/Cas9 technology was used to construct double mutants of Arabidopsis thaliana ugt84a2/ugt84a4.[Methods]A CRISPR/Cas9 double mutant expression vector was constructed using UGT84A2 and UGT84A4 as the target genes.The Agrobacterium-mediated dip dyeing method was used to transform wild-type A.thaliana,and the CRISPR/Cas9system was used to target and knock out A.thaliana UGT84A2 and UGT84A4 genes.[Results]The descendants of A.thaliana with the UGT84A2/UGT84A4 gene were sequenced and analyzed.Thirteen positively transformed plants obtained were analyzed according to the sequencing results,and the ugt84a2/ugt84a4 double mutants were screened.[Conclusions]This study provides a reference for the functional study of UGT84A2 and UGT84A4 isoenzyme genes in other species,as well as strong theoretical and method support for accelerating the development and utilization of UGT84A2/UGT84A4 functional gene resources.
文摘目的:构建含Nr4a2基因的绿色荧光慢病毒载体,并检测其体外表达目的基因的水平。方法:设计Nr4a2基因的引物,采用聚合酶链反应(PCR)扩增,插入经AgeⅠ/AgeⅠ酶切的GV287慢病毒载体构建GV287-Nr4a2慢病毒质粒。PCR鉴定、测序验证后,将其与pHelper1.0载体、pHelper2.0载体共同转染293T细胞(人胚肾细胞),48小时后收集含慢病毒颗粒的细胞上清液,经浓缩并测定滴度后感染293T细胞,72h后观察增强型绿色荧光蛋白(enhanced green fluorescent protein,EGFP)的表达。结果:酶切及测序鉴定证实成功构建了重组慢病毒载体GV287-Nr4a2;荧光显微镜下可见绿色荧光高度表达;Nr4a2蛋白能在293T细胞中有效表达;包装过表达慢病毒并测其浓缩滴度为2.0×108TU/ML。结论:成功构建Nr4a2慢病毒载体且在293T细胞中良好表达,为进一步转染大鼠骨髓间充质干细胞,基因治疗帕金森病奠定基础。
基金Supported by the Science and Technology Research Foundation of Guizhou Province,No.QKHJC-ZK[2022]YB642Science and Technology Research Foundation of Hubei Province,No.2022BCE030+2 种基金Science and Technology Research Foundation of Zunyi City,No.ZSKH-HZ(2022)344Research Project on Traditional Chinese Medicine and Ethnic Medicine Science and Technology of Guizhou Provincial Administration of Traditional Chinese Medicine,No.QZYY-2023-021Science and Technology Research Foundation of Bijie City,No.BKH[2022]8.
文摘BACKGROUND Genetic factors of chronic intestinal ulcers are increasingly garnering attention.We present a case of chronic intestinal ulcers and bleeding associated with mu-tations of the activin A receptor type II-like 1(ACVRL1)and phospholipase A2 group IVA(PLA2G4A)genes and review the available relevant literature.CASE SUMMARY A 20-year-old man was admitted to our center with a 6-year history of recurrent abdominal pain,diarrhea,and dark stools.At the onset 6 years ago,the patient had received treatment at a local hospital for abdominal pain persisting for 7 d,under the diagnosis of diffuse peritonitis,acute gangrenous appendicitis with perforation,adhesive intestinal obstruction,and pelvic abscess.The surgical treat-ment included exploratory laparotomy,appendectomy,intestinal adhesiolysis,and pelvic abscess removal.The patient’s condition improved and he was dis-charged.However,the recurrent episodes of abdominal pain and passage of black stools started again one year after discharge.On the basis of these features and results of subsequent colonoscopy,the clinical diagnosis was established as in-flammatory bowel disease(IBD).Accordingly,aminosalicylic acid,immunotherapy,and related symptomatic treatment were administered,but the symptoms of the patient did not improve significantly.Further investigations revealed mutations in the ACVRL1 and PLA2G4A genes.ACVRL1 and PLA2G4A are involved in angiogenesis and coagulation,respectively.This suggests that the chronic intestinal ulcers and bleeding in this case may be linked to mutations in the ACVRL1 and PLA2G4A genes.Oral Kangfuxin liquid was administered to promote healing of the intestinal mucosa and effectively manage clinical symptoms.CONCLUSION Mutations in the ACVRL1 and PLA2G4A genes may be one of the causes of chronic intestinal ulcers and bleeding in IBD.Orally administered Kangfuxin liquid may have therapeutic potential.