MicroRNA-298 determines the radio-resistance of colorectal cancer cells by directly targeting human dual-specificity tyrosine(Y)-regulated kinase 1A

BACKGROUND Radiotherapy stands as a promising therapeutic modality for colorectal cancer(CRC);yet,the formidable challenge posed by radio-resistance significantly undermines its efficacy in achieving CRC remission.AIM To elucidate the role played by microRNA-298(miR-298)in CRC radio-resistance.METHODS To establish a radio-resistant CRC cell line,HT-29 cells underwent exposure to 5 gray ionizing radiation that was followed by a 7-d recovery period.The quantification of miR-298 levels within CRC cells was conducted through quantitative RT-PCR,and protein expression determination was realized through Western blotting.Cell viability was assessed by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay and proliferation by clonogenic assay.Radio-induced apoptosis was discerned through flow cytometry analysis.RESULTS We observed a marked upregulation of miR-298 in radio-resistant CRC cells.MiR-298 emerged as a key determinant of cell survival following radiation exposure,as its overexpression led to a notable reduction in radiation-induced apoptosis.Intriguingly,miR-298 expression exhibited a strong correlation with CRC cell viability.Further investigation unveiled human dual-specificity tyrosine(Y)-regulated kinase 1A(DYRK1A)as miR-298’s direct target.CONCLUSION Taken together,our findings underline the role played by miR-298 in bolstering radio-resistance in CRC cells by means of DYRK1A downregulation,thereby positioning miR-298 as a promising candidate for mitigating radioresistance in CRC.

Diabetes and high-glucose could upregulate the expression of receptor for activated C kinase 1 in retina

BACKGROUND Diabetic retinopathy(DR)is a major ocular complication of diabetes mellitus,leading to visual impairment.Retinal pigment epithelium(RPE)injury is a key component of the outer blood retinal barrier,and its damage is an important indicator of DR.Receptor for activated C kinase 1(RACK1)activates protein kinase C-ε(PKC-ε)to promote the generation of reactive oxygen species(ROS)in RPE cells,leading to apoptosis.Therefore,we hypothesize that the activation of RACK1 under hypoxic/high-glucose conditions may promote RPE cell apoptosis by modulating PKC-ε/ROS,thereby disrupting the barrier effect of the outer blood retinal barrier and contributing to the progression of DR.AIM To investigate the role and associated underlying mechanisms of RACK1 in the development of early DR.METHODS In this study,Sprague-Dawley rats and adult RPE cell line-19(ARPE-19)cells were used as in vivo and in vitro models,respectively,to explore the role of RACK1 in mediating PKC-εin early DR.Furthermore,the impact of RACK1 on apoptosis and barrier function of RPE cells was also investigated in the former model.RESULTS Streptozotocin-induced diabetic rats showed increased apoptosis and upregulated expression of RACK1 and PKC-εproteins in RPE cells following a prolonged modeling.Similarly,ARPE-19 cells exposed to high glucose and hypoxia displayed elevated mRNA and protein levels of RACK1 and PKC-ε,accompanied by an increases in ROS production,apoptosis rate,and monolayer permeability.However,silencing RACK1 significantly downregulated the expression of PKC-εand ROS,reduced cell apoptosis and permeability,and protected barrier function.CONCLUSION RACK1 plays a significant role in the development of early DR and might serve as a potential therapeutic target for DR by regulating RPE apoptosis and barrier function.

Overexpression of mitogen-activated protein kinase phosphatase-1 in endothelial cells reduces blood-brain barrier injury in a mouse model of ischemic stroke

Ischemic stroke can cause blood-brain barrier(BBB)injury,which worsens brain damage induced by stroke.Abnormal expression of tight junction proteins in endothelial cells(ECs)can increase intracellular space and BBB leakage.Selective inhibition of mitogen-activated protein kinase,the negative regulatory substrate of mitogen-activated protein kinase phosphatase(MKP)-1,improves tight junction protein function in ECs,and genetic deletion of MKP-1 aggravates ischemic brain injury.However,whether the latter affects BBB integrity,and the cell type-specific mechanism underlying this process,remain unclear.In this study,we established an adult male mouse model of ischemic stroke by occluding the middle cerebral artery for 60 minutes and overexpressed MKP-1 in ECs on the injured side via lentiviral transfection before stroke.We found that overexpression of MKP-1 in ECs reduced infarct volume,reduced the level of inflammatory factors interleukin-1β,interleukin-6,and chemokine C-C motif ligand-2,inhibited vascular injury,and promoted the recovery of sensorimotor and memory/cognitive function.Overexpression of MKP-1 in ECs also inhibited the activation of cerebral ischemia-induced extracellular signal-regulated kinase(ERK)1/2 and the downregulation of occludin expression.Finally,to investigate the mechanism by which MKP-1 exerted these functions in ECs,we established an ischemic stroke model in vitro by depriving the primary endothelial cell of oxygen and glucose,and pharmacologically inhibited the activity of MKP-1 and ERK1/2.Our findings suggest that MKP-1 inhibition aggravates oxygen and glucose deprivation-induced cell death,cell monolayer leakage,and downregulation of occludin expression,and that inhibiting ERK1/2 can reverse these effects.In addition,co-inhibition of MKP-1 and ERK1/2 exhibited similar effects to inhibition of ERK1/2.These findings suggest that overexpression of MKP-1 in ECs can prevent ischemia-induced occludin downregulation and cell death via deactivating ERK1/2,thereby protecting the integrity of BBB,alleviating brain injury,and improving post-stroke prognosis.

Death-associated protein kinase 1 is associated with cognitive dysfunction in major depressive disorder

We previously showed that death-associated protein kinase 1(DAPK1)expression is increased in hippocampal tissue in a mouse model of major depressive disorde and is related to cognitive dysfunction in Alzheimer's disease.In addition,depression is a risk factor for developing Alzheimer's disease,as well as an early clinical manifestation of Alzheimer's disease.Meanwhile,cognitive dysfunction is a distinctive feature of major depressive disorder.Therefore,DAPK1 may be related to cognitive dysfunction in major depressive disorder.In this study,we established a mouse model of major depressive disorder by housing mice individually and exposing them to chronic,mild,unpredictable stressors.We found that DAPK1 and tau protein levels were increased in the hippocampal CA3 area,and tau was hyperphosphorylated at Thr231,Ser262,and Ser396 in these mice.Furthermore,DAPK1 shifted from axonal expression to overexpression on the cell membrane.Exercise and treatment with the antidepressant drug citalopram decreased DAPK1 expression and tau protein phosphorylation in hippocampal tissue and improved both depressive symptoms and cognitive dysfunction.These results indicate that DAPK1 may be a potential reason and therapeutic target of cognitive dysfunction in major depressive disorder.

Suppressing high mobility group box-1 release alleviates morphine tolerance via the adenosine5'-monophosphate-activated protein kinase/heme oxygenase-1 pathway

Opioids,such as morphine,are the most potent drugs used to treat pain.Long-term use results in high tolerance to morphine.High mobility group box-1(HMGB1) has been shown to participate in neuropathic or inflammatory pain,but its role in morphine tolerance is unclear.In this study,we established rat and mouse models of morphine tolerance by intrathecal injection of morphine for 7 consecutive days.We found that morphine induced rat spinal cord neurons to release a large amount of HMGB1.HMGB1 regulated nuclear factor κB p65 phosphorylation and interleukin-1β production by increasing Toll-like receptor 4receptor expression in microglia,thereby inducing morphine tolerance.Glycyrrhizin,an HMGB1 inhibito r,markedly attenuated chronic morphine tole rance in the mouse model.Finally,compound C(adenosine 5’-monophosphate-activated protein kinase inhibitor) and zinc protoporphyrin(heme oxygenase-1 inhibitor)alleviated the morphine-induced release of HMGB1 and reduced nuclear factor κB p65 phosphorylation and interleukin-1β production in a mouse model of morphine tolerance and an SH-SY5Y cell model of morphine tole rance,and alleviated morphine tolerance in the mouse model.These findings suggest that morphine induces HMGB1 release via the adenosine 5’-monophosphate-activated protein kinase/heme oxygenase-1 signaling pathway,and that inhibiting this signaling pathway can effectively reduce morphine tole rance.

Deleted in liver cancer 1 suppresses the growth of prostate cancer cells through inhibiting Rho-associated protein kinase pathway

Objective:Deleted in liver cancer 1(DLC1)is a GTPase-activating protein that is reported as a suppressor in certain human cancers.However,the detailed biological function of DLC1 is still unclear in human prostate cancer(PCa).In the present study,we aimed to explore the function of DLC1 in PCa cells.Methods:Silencing and overexpression of DLC1 were induced in an androgen-sensitive PCa cell line(LNCaP)using RNA interference and lentiviral vector transduction.The Cell Counting Kit-8 assay was performed to determine cell proliferation.The cell cycle was examined by performing a propidium iodide staining assay.Results:Our results indicated that DLC1 overexpression markedly suppressed the proliferation and cell cycle progression of LNCaP cells.Moreover,DLC1 expression was negatively correlated with Rho-associated protein kinase(ROCK)expression in LNCaP cells.Importantly,this study showed that the ROCK inhibitor Y27632 restored the function of DLC1 in LNCaP cells and reduced the tumorigenicity of LNCaP cells in vivo.Conclusion:Our results indicated that DLC1 overexpression markedly suppressed the proliferation and cell cycle progression of PCa cells and negatively correlated with ROCK expression in PCa cells and tissue.

Low Selenium and Low Protein Exacerbate Myocardial Damage in Keshan Disease by Affecting the PINK1/Parkin-mediated Mitochondrial Autophagy Pathway

Objective Keshan disease(KD)is a myocardial mitochondrial disease closely related to insufficient selenium(Se)and protein intake.PTEN induced putative kinase 1(PINK1)/Parkin mediated mitochondrial autophagy regulates various physiological and pathological processes in the body.This study aimed to elucidate the relationship between PINK1/Parkin-regulated mitochondrial autophagy and KD-related myocardial injury.Methods A low Se and low protein animal model was established.One hundred Wistar rats were randomly divided into 5 groups(control group,low Se group,low protein group,low Se+low protein group,and corn from KD area group).The JC-1 method was used to detect the mitochondrial membrane potential(MMP).ELISA was used to detect serum creatine kinase MB(CK-MB),cardiac troponin I(cTnI),and mitochondrial-glutamicoxalacetic transaminase(M-GOT)levels.RT-PCR and Western blot analysis were used to detect the expression of PINK1,Parkin,sequestome 1(P62),and microtubule-associated proteins1A/1B light chain 3B(MAP1LC3B).Results The MMP was significantly decreased and the activity of CK-MB,cTnI,and M-GOT significantly increased in each experimental group(low Se group,low protein group,low Se+low protein group and corn from KD area group)compared with the control group(P<0.05 for all).The mRNA and protein expression levels of PINK1,Parkin and MAP1LC3B were profoundly increased,and those of P62 markedly decreased in the experimental groups compared with the control group(P<0.05 for all).Conclusion Low Se and low protein levels exacerbate myocardial damage in KD by affecting the PINK1/Parkin-mediated mitochondrial autophagy pathway.

阿江榄仁酸由AMPK/mTOR/HO-1信号通路调控自噬对糖尿病视网膜病变影响

目的探讨阿江榄仁酸(arjunolic acid,AA)对糖尿病视网膜病变(diabetic retinopathy,DR)大鼠视网膜细胞自噬及AMPK/mTOR/HO-1信号通路的影响。方法以健康SD大鼠为研究对象,构建链脲佐菌素(STZ)诱导的糖尿病大鼠模型,随机分为对照组(Con)组、模型(STZ)组、AA低剂量(AAL,10 mg/kg)组和AA高剂量(AAH,10 mg/kg)组。连续给药10周后,HE染色检测视网膜组织病理结构;qRT-PCR检测视网膜组织白介素(IL)-1β、IL-6和线粒体丙酮酸转运载体(MPC)-1的mRNA表达;二氢乙锭(DHE)染色评估视网膜组织ROS产生;Western blot检测自噬和AMPK/mTOR/HO-1信号通路相关蛋白表达。结果与Con组比较,STZ组大鼠视网膜出现肿胀和空泡样变化等病理变化,中央视网膜ONL层厚度和细胞核计数明显降低(P<0.01);IL-1β、IL-6和MCP-1的mRNA水平显著增高(P<0.05);视网膜外核层(ONL)、内核层(INL)和神经节细胞层(GCL)中ROS产生增加(P<0.01);LC3II/I比率、HO-1和p-AMPK/AMPK蛋白表达显著降低,p62和p-mTOR/mTOR表达升高(P<0.01)。与STZ组比较,AAL和AAH组大鼠视网膜ONL厚度和细胞核计数逐渐升高,结构相对规整(P<0.05);AAH组IL-1β、IL-6和MCP-1的mRNA表达明显降低(P<0.05);视网膜ONL、INL和GCL中ROS产生逐渐降低(P<0.01);LC3II/I比率、p-AMPK/AMPK和HO-1表达逐渐升高,p62和p-mTOR/mTOR表达逐渐降低(P<0.01)。结论阿江榄仁酸可能是治疗DR的候选药物,可能机制为通过AMPK/mTOR/HO-1调节的自噬途径保护视网膜细胞免受STZ诱导的氧化应激和炎症损伤。

中晚期宫颈癌患者血清HE4、TK1、DCLK1水平变化及其与化疗效果的关系

目的 分析中晚期宫颈癌患者血清人附睾蛋白4(HE4)、胸苷激酶1(TK1)、双皮质素样激酶1(DCLK1)变化及其与化疗效果的关系。方法 收集2020年1月至2023年1月于郑州大学第一附属医院接受化疗的215例中晚期宫颈癌患者的病历资料,根据纳入患者的化疗效果将其分为良好组和不良组,其中良好组疗效评估结果为完全缓解(CR)与部分缓解(PR),共173例,不良组疗效评估结果为稳定(SD)与进展(PD),共42例。比较两组血清HE4、TK1、DCLK1水平等临床资料,分析中晚期宫颈癌患者血清HE4、TK1、DCLK1水平与化疗效果的关系。结果 良好组临床分期为Ⅱ期比例、高分化比例、无淋巴结转移比例均高于不良组,肿瘤最大直径以及血清HE4、TK1、DCLK1水平均低于不良组,差异均有统计学意义(P<0.05);经logistic多因素分析显示,肿瘤的临床分期达到Ⅳ期、分化程度为中低分化、淋巴结转移以及血清HE4、TK1、DCLK1水平升高均为影响中晚期宫颈癌患者化疗效果的独立因素(P<0.05);经Spearman相关性分析显示,中晚期宫颈癌患者临床分期、淋巴结转移以及血清HE4、TK1、DCLK1水平与其化疗效果成负相关,分化程度与其化疗效果成正相关(P<0.05)。结论 中晚期宫颈癌患者临床分期越晚、分化程度越差、临床转移以及HE4、TK1、DCLK1水平越高,越不利于患者的化疗,上述指标对其预后均具有一定预测价值。

血清TK1、DKK1的表达与晚期非小细胞肺癌患者预后的关系

目的 观察晚期非小细胞肺癌(NSCLC)患者血清胸苷激酶1(TK1)、分泌型蛋白Dikkopf-1(DKK1)水平,并分析血清TK1、DKK1与NSCLC治疗预后的关系。方法 该研究采用前瞻性队列研究方法,纳入2020年1月至2021年6月上海市第六人民医院金山分院收治的91例晚期NSCLC化疗患者为研究对象。所有患者入院时均接受血清TK1、DKK1水平检测,均在上海市第六人民医院金山分院完成4个化疗周期,并随访3个月,参照相关标准评价患者疾病缓解率,将完全缓解、部分缓解纳入预后良好组,将病变稳定、进展纳入预后不良组,比较两组血清TK1、DKK1水平,采用Logistic回归分析血清TK1、DKK1水平与晚期NSCLC患者治疗预后的关系。结果 91例晚期NSCLC化疗患者中,预后良好58例(63.74%);预后不良33例(36.26%);预后不良组血清癌胚抗原(CEA)、TK1、DKK1水平均高于预后良好组(P<0.05);采用Logistic回归分析,血清TK1、DKK1高水平是晚期NSCLC患者治疗预后不良的影响因素(OR>1,P<0.05);绘制受试者工作特征曲线,结果显示,血清TK1、DKK1单独及联合预测晚期NSCLC患者预后不良的曲线下面积均>0.700,均有一定的预测价值,其中联合预测价值最高。结论 血清TK1、DKK1水平异常升高可能提示晚期NSCLC患者预后不良高风险,早期监测患者血清TK1、DKK1水平,对预测、评估患者治疗预后有一定积极意义。

受体相互作用蛋白激酶1调节癌症进展和免疫反应的研究现状

受体相互作用蛋白激酶1(receptor-interacting protein kinase 1,RIPK1)是一种多结构域丝氨酸/苏氨酸蛋白激酶。它通过磷酸化特定的蛋白质,引起下游的信号转导和生物效应。近年来,随着对RIPK1的深入研究,学者发现其在自身免疫性疾病、神经退行性疾病,以及多种实体瘤和血液肿瘤中具有重要意义。一方面,RIPK1通过激活特定通路如核因子-κB(nuclear factor-κB,NF-κB)和丝裂原活化蛋白激酶(mitogen-activated protein kinase,MAPK)等促进细胞存活及炎症反应。另一方面,RIPK1通过与胱天蛋白酶-8(cysteinyl aspartate specific proteinase-8,caspase-8)作用促进凋亡,或与RIPK3和混合谱系激酶结构域样假激酶(mixed lineage kinase domain-like protein,MLKL)作用促进坏死性凋亡的发生。RIPK1作为上游信号在不同肿瘤患者中表达水平不同。其支架功能和激酶活性可以调节癌症进展,也可以启动机体适应性免疫,抑制肿瘤进展;此外,还能产生免疫抑制性肿瘤微环境而促进肿瘤的发展。其双重作用在调节癌症的发生、发展及机体免疫反应方面都有所展现,可以作为新的治疗靶点控制癌症进展。该文从RIPK1的结构入手,深入探讨其功能,特别是其在调节癌症进展和免疫反应方面的功能,为癌症靶向药物的开发提供新的思路。

白藜芦醇通过调节SIRT1/AMPK信号通路介导自噬反应对膝关节骨性关节炎大鼠细胞凋亡的影响

目的:从沉默信息调节因子1(SIRT1)/腺苷酸活化蛋白激酶(AMPK)信号通路介导自噬角度,探讨白藜芦醇对大鼠膝关节骨性关节炎(KOA)软骨细胞凋亡的影响。方法:50只健康Wistar大鼠随机分为对照组、模型组、白藜芦醇组、白藜芦醇+SIRT1抑制剂组、自噬激活剂组,每组10只。除对照组外其余大鼠均通过注射弗氏完全佐剂造模法复制KOA大鼠模型,白藜芦醇组、白藜芦醇+AMPK抑制剂组、自噬激活剂组分别使用10μmol/kg白藜芦醇、10μmol/kg白藜芦醇+10 mg/kg EX527、2 mg/kg雷帕霉素进行干预,4周后,观察大鼠Lequesne MG膝关节级别;测定大鼠膝关节液中IL-6、肿瘤坏死因子β(TNF-β)水平;HE染色与TUNEL染色观测大鼠膝关节软骨组织形态及凋亡情况;透射电子显微镜观察大鼠软骨细胞自噬情况;Western blot法检测SIRT1、p-AMPK、AMPK、LC3、Beclin-1蛋白表达。结果:与对照组相比,模型组局部反应、步态反应、关节活动、关节肿胀程度加重(P<0.05);与模型组相比,白藜芦醇组、自噬激活剂组局部反应、步态反应、关节活动、关节肿胀程度减轻(P<0.05)。与对照组相比,模型组大鼠软骨组织细胞排列紊乱,粗糙,存在纤维化变性、边缘丘状隆起,细胞器减少,可见空泡变性,自噬小体数目增多,膝关节液IL-6、TNF-β水平、软骨细胞凋亡率、Beclin-1和LC3B/A升高(P<0.05),软骨组织SIRT1、p-AMPK/AMPK降低(P<0.05);与模型组相比,白藜芦醇组、自噬激活剂组大鼠软骨组织细胞排列紊乱、边缘丘状隆起等现象有改善,自噬小体数目增多,膝关节液IL-6、TNF-β水平、软骨细胞凋亡率降低(P<0.05),软骨组织SIRT1、p-AMPK/AMPK、Beclin-1和LC3B/A水平升高(P<0.05);SIRT1抑制剂可逆转白藜芦醇组对大鼠软骨细胞的保护作用。结论:白藜芦醇可能是通过激活SIRT1/AMPK通路介导自噬KOA大鼠软骨细胞凋亡,SIRT1抑制剂可逆转此过程。

金合欢素调节Sirt1/AMPK/Nrf2信号通路对糖尿病白内障大鼠氧化应激损伤的影响

目的探讨金合欢素对糖尿病白内障(DC)大鼠氧化应激损伤的影响及其对沉默调节蛋白1(Sirt1)/腺苷酸活化蛋白激酶(AMPK)/核因子E2相关因子2(Nrf2)信号通路的调控作用。方法60只SD大鼠随机分为对照组、模型组、金合欢素低剂量组、金合欢素高剂量组、金合欢素+Sirt1抑制剂(EX527)组,除对照组以外均构建DC大鼠模型,其中,金合欢素低剂量组、金合欢素高剂量组大鼠分别经颈部皮下注射10 mg·kg^(-1)、20 mg·kg^(-1)的金合欢素,金合欢素+EX527组大鼠经颈部皮下注射20 mg·kg^(-1)金合欢素,均为每天2次,同时金合欢素+EX527组大鼠经皮下埋入渗透微型泵每天泵入3.5 mg·kg^(-1)EX527,其余组别均泵入等量生理盐水,给药持续4周。给药结束后,测量血压和空腹血糖(FBG),裂隙灯照射法观察大鼠晶状体混浊状况,HE染色观察晶状体组织病理学变化,ELISA测定血清丙二醛(MDA)、超氧化物歧化酶(SOD)、谷胱甘肽过氧化物酶(GSH-Px)、白细胞介素(IL)-6、IL-1β的含量,Western blot检测Sirt1、p-AMPK、AMPK、Nrf2蛋白表达水平。结果与对照组相比,模型组大鼠晶状体上皮细胞呈片状、条索状,发生迁移性聚集,收缩压、FBG、晶状体混浊评分、MDA、IL-6、IL-1β水平均升高,SOD、GSH-Px含量及Sirt1、p-AMPK/AMPK、Nrf2蛋白表达水平均降低(均为P<0.05);与模型组比较,金合欢素低、高剂量组大鼠晶状体上皮细胞迁移性聚集现象改善,收缩压、FBG、晶状体混浊评分、MDA、IL-6、IL-1β水平均降低,SOD、GSH-Px含量及Sirt1、p-AMPK/AMPK、Nrf2蛋白表达水平均升高(均为P<0.05);与金合欢素高剂量组比较,金合欢素+EX527组晶状体上皮细胞形态改变和聚集现象加重,收缩压、FBG、晶状体混浊评分、MDA、IL-6、IL-1β水平均升高,SOD、GSH-Px含量及Sirt1、p-AMPK/AMPK、Nrf2蛋白表达水平均降低(均为P<0.05)。结论金合欢素可能通过激活Sirt1/AMPK/Nrf2通路保护DC大鼠免受氧化应激损伤。

葛根芩连汤通过IRS-1/PI3K/AKT通路对胃肠湿热型2型糖尿病大鼠糖脂代谢的影响

目的探究葛根芩连汤通过胰岛素受体底物-1(IRS-1)/磷脂酰肌醇3激酶(PI3K)/蛋白激酶B(AKT)通路对胃肠湿热型2型糖尿病大鼠糖脂代谢的影响。方法将40只SD大鼠随机分为正常组(2 mL生理盐水灌胃)、造模组(2 mL生理盐水灌胃)、二甲双胍组(4.17 mg/100 g二甲双胍灌胃)和葛根芩连汤组(1 g/100 g葛根芩连汤灌胃),每组10只。采用高脂高糖饲料加腹腔注射链脲佐菌素(STZ)构建2型糖尿病大鼠模型,随后喂食油脂、42°白酒及蜂蜜水构建胃肠湿热型2型糖尿病大鼠模型。测量各组大鼠不同时间节点体质量,血糖仪测定空腹血糖(FBG);ELISA检测空腹胰岛素(FINS)、三酰甘油(TG)、总胆固醇(TC)、白细胞介素-6(IL-6)、肿瘤坏死因子-α(TNF-α)水平变化、计算胰岛素抵抗指数(HOMA-IR);HE染色检测肝组织病理学变化;检测肝组织过氧化氢酶(CAT)、谷胱甘肽过氧化物酶(GSH-Px)、超氧化物歧化酶(SOD)及丙二醛(MDA)含量变化。Western blot检测肝组织IRS-1、PI3K、p-PI3K、AKT及p-AKT蛋白变化。结果与正常组比较,造模组大鼠体质量、FBG、FINS及HOMA-IR、GSH-Px、CAT、SOD、IRS-1、p-PI3K/PI3K及p-AKT/AKT水平均明显下降(P<0.05)、TG、TC、IL-6、TNF-α及MDA含量均显著升高(P<0.05),可见局灶性肝实质损失。与造模组比较,二甲双胍组及葛根芩连汤组大鼠体质量、FBG、FINS及HOMA-IR、GSH-Px、CAT、SOD、IRS-1、p-PI3K/PI3K及p-AKT/AKT水平均明显升高(P<0.05)、TG、TC、IL-6、TNF-α及MDA含量均显著降低(P<0.05),显示正常的肝实质。结论葛根芩连汤可明显改善胃肠湿热型2型糖尿病糖脂紊乱,可能是通过IRS-1/PI3K/AKT通路发挥作用。

LncRNA MALAT1通过靶向miR-146a调节PI3K/Akt信号通路影响胃癌细胞的增殖、迁移和侵袭

目的 探究长链非编码RNA(long non-coding RNA,LncRNA)肺腺癌转移相关转录子1(metastasis-associated lung adenocarcinoma transcript 1,MALAT1)通过调节miR-146a对胃癌(gastric cancer, GC)细胞的增殖、迁移和侵袭的影响及其机制。方法 收集GC组织和配对正常胃上皮组织,将GC细胞MNK-45分为空白对照(blank control, BC)组(未转染)、MALAT1 siRNA-NC组(转染MALAT1 siRNA-NC)、MALAT1 siRNA组(转染MALAT1 siRNA)、miR-146a mimics-NC组(转染miR-146a mimics-NC)、miR-146a mimics组(转染miR-146a mimics)、MALAT1 siRNA+miR-146a inhibitor-NC组(共转染MALAT1 siRNA+miR-146a inhibitor-NC)、MALAT1 siRNA+miR-146a inhibitor组(共转染MALAT1 siRNA+miR-146a inhibitor)。定量荧光PCR(qRT-PCR)检测胃组织或细胞中MALAT1、miR-146a表达量;CCK-8法和克隆形成实验检测细胞增殖能力;Transwell法检测细胞侵袭和迁移能力;RNA pull down实验、双荧光素酶报告实验分析MALAT1和miR-146a的结合情况;Western blot检测磷脂酰肌醇3激酶(phosphatidylinositol 3-kinase, PI3K)/蛋白激酶B(protein kinase B,Akt)通路蛋白及c-Myc、基质金属蛋白酶9(matrix metalloproteinase 9,MMP9)蛋白表达量。结果 转染MALAT1 siRNA可明显降低MNK-45细胞的MALAT1表达量,敲低MALAT1或过表达miR-146a可降低细胞活力、克隆能力、迁移和侵袭,增加miR-146a表达,降低PI3Kp85α、PI3Kp85β、c-Myc、MMP9蛋白表达量及p-Akt/Akt水平;MALAT1可结合并靶向下调miR-146a表达;低表达miR-146a可逆转敲低MALAT1对MNK-45细胞增殖、迁移和侵袭的抑制效应。结论 MALAT1可能作为ceRNA吸附并降解miR-146a,敲低MALAT1可上调miR-146a表达,并通过PI3K/Akt通路抑制GC细胞增殖、迁移和侵袭。

IGF-1介导MAPKs通路在C3H10T1/2细胞成骨分化中的作用

目的探究胰岛素样生长因子1(IGF-1)介导丝裂原活化蛋白激酶(MAPKs)信号通路在C3H10T1/2细胞成骨分化中的调控作用及机制。方法不同浓度IGF-1(0、5、10、20 ng/mL)培养C3H10T1/2细胞,碱性磷酸酶(ALP)与茜素红(ARS)染色检测ALP活性、钙盐沉积情况,qRT-PCR法检测成骨特性因子核心结合因子α-1(RUNX2)、成骨分化特异性因子骨桥蛋白(OPN)、骨钙蛋白(OCN)mRNA表达水平,Western Blot法检测MAPK通路蛋白磷酸化表达水平。对数期细胞分为空白组、IGF-1组、ERK通路抑制剂(PD98059)组、PD+IGF-1组、p38通路抑制剂(SB202192)组、SB+IGF-1组,qRT-PCR法检测成骨特性因子RUNX2、成骨分化特异性因子骨桥蛋白(OPN)、骨钙蛋白(OCN)mRNA表达水平。结果不同浓度IGF-1组ALP显色加深,ALP活性升高,钙盐结节形成增多,RUNX2、OPN、OCN mRNA表达水平升高,磷酸化ERK、p38、JNK蛋白表达增加,具有剂量效应(P<0.05)。与空白组比较,PD组、SB组C3H10T1/2细胞RUNX2、OPN、OCN mRNA表达水平明显降低(P<0.05),PD+IGF-1组、SB+IGF-1组C3H10T1/2细胞RUNX2、OPN、OCN mRNA表达水平明显升高(P<0.05);但与IGF-1组比较,PD+IGF-1组、SB+IGF-1组C3H10T1/2细胞RUNX2、OPN、OCN mRNA表达水平明显降低(P<0.05)。结论IGF-1促进C3H10T1/2细胞成骨分化,其作用机制可能与激活ERK信号通路和p38 MAPK信号通路有关。

慢性肾小球肾炎患者MCP-1和sFlt-1表达与肾功能及预后的相关性研究

目的:分析慢性肾小球肾炎患者血清单核细胞趋化蛋白-1(MCP-1)和可溶性血管内皮细胞生长因子受体1(sFlt-1)水平变化及其与肾功能和预后的关系。方法:纳入2018-01—2020-03本院收治的慢性肾小球肾炎患者122例(研究组),选取同时期本院体检健康者128例(对照组)。研究组依据肾功能损害情况分为A组(肾功能正常16例)、B组(轻中度肾功能损害88例)、C组(重度肾功能损害18例);根据随访结局,将患者分为肾功能衰竭组(22例)和病情缓解组(100例)。采用酶联免疫吸附法(ELISA)检测受试者MCP-1、sFlt-1水平。采用全自动生化分析仪检测所有受试者血尿素氮(BUN)、血肌酐(Scr)水平,采用慢性肾脏疾病流行病学合作研究公式(CKD-EPI)估算肾小球滤过率(eGFR)。Pearson法分析MCP-1、sFlt-1与BUN、Scr、eGFR的相关性。采用受试者工作特征(ROC)曲线评价血清MCP-1、sFlt-1水平预测慢性肾小球肾炎患者预后的价值。结果:与对照组相比,研究组MCP-1、sFlt-1、BUN、Scr水平较高(P<0.05),eGFR较低(P<0.05)。C组BUN、Scr、MCP-1、sFlt-1水平明显高于A组、B组(P<0.05),B组BUN、Scr、MCP-1、sFlt-1水平明显高于A组(P<0.05)。Pearson相关性分析显示,MCP-1与BUN、Scr均呈正相关(P<0.05),与eGFR呈负相关(P<0.05),sFlt-1与BUN、Scr均呈正相关(P<0.05),与eGFR呈负相关(P<0.05)。与病情缓解组相比,肾功能衰竭组患者清中MCP-1、sFlt-1水平较高(P<0.05)。ROC分析显示,血清MCP-1、sFlt-1水平预测慢性肾小球肾炎患者预后的AUC分别为0.967、0.965,MCP-1联合sFlt-1预测慢性肾小球肾炎患者预后的AUC为0.984,灵敏度100.00%,特异度94.00%。结论:慢性肾小球肾炎患者血清MCP-1、sFlt-1水平明显上升,可作为患者预后评估的潜在生物学指标。

RNA干扰受体相互作用蛋白激酶1基因表达对肾透明细胞癌生物活性的影响

目的探讨受体相互作用蛋白激酶1(RIPK1)对肾透明细胞癌(ccRCC)生物功能的影响及机制。方法通过RNA干扰技术降低RIPK1在ccRCC中的表达后,光镜观察细胞形态变化,CCK-8法检测细胞增殖变化情况,Transwell细胞迁移实验检测细胞迁移能力的变化,流式细胞仪检测细胞发生凋亡、坏死水平,Western blot法检测cleaved caspase-3、混合谱系蛋白激酶样结构域(MLKL)和RIPK3表达变化。结果小干扰RNA(siRNA)干扰48 h后,RIPK1-siRNA组细胞增殖吸光度值(0.563±0.042)低于NC-siRNA组(0.944±0.039;t=11.550,P=0.003);siRNA干扰72 h后,RIPK1-siRNA组吸光度值(0.408±0.019)低于NC-siRNA组(1.717±0.108;t=20.620,P<0.001)。与NC-siRNA组(72.000±12.120)比较,RIPK1-siRNA组(31.660±10.020)ccRCC细胞的迁移数量明显减少(t=4.442,P=0.011)。与NC-siRNA组(0.360±0.090、0.510±0.060、0.880±0.070)比较,RIPK1-siRNA组ccRCC细胞内cleaved caspase3、MLKL、RIPK3表达明显增加(0.780±0.070、1.490±0.100、1.680±0.130;t=6.380,P=0.003;t=8.656,P=0.001;t=14.150,P=0.001)。结论RIPK1是ccRCC内调控细胞增殖、死亡及迁移能力的重要基因,抑制RIPK1能够促进ccRCC发生凋亡及坏死性凋亡。

NUSAP1在肿瘤相关巨噬细胞中的表达及对非小细胞肺癌的影响

目的探究NUSAP1在肿瘤相关巨噬细胞中表达对非小细胞肺癌的影响机制。方法使用Western blot检测检测人癌和癌周巨噬细胞中NUSAP1、p-PI3K以及MMP-9的相对蛋白表达量;使用慢病毒感染M2巨噬细胞,构建骨髓诱导M2与人非小细胞肺癌细胞株Lewis共培养体外模拟NSCLC肿瘤微环境,使用Western blot检测M2巨噬细胞中NUSAP1、p-PI3K以及MMP-9的相对蛋白表达量。使用细胞划痕实验检测非小细胞肺癌细胞的迁移能力。结果人体样本Western blot检测结果显示非小细胞肺癌组织中NUSAP1,PI3K与MMP-9的相对蛋白表达量显著高于癌周组织(P<0.05);体外实验通过小鼠巨噬细胞与Lewis共培养以模拟体内肿瘤环境,Western blot检测慢病转染敲低NUSAP1后p-PI3K与MMP-9均表达降低(P<0.05),上调NUSAP1后p-PI3K与MMP-9表达均升高(P<0.05)。MMP-9过表达(OV-MMP-9)抵消了由于敲低NUSAP1所造成的MMP-9表达水平降低,同时shRNA-NUSAP1+ovMMP-9组侵袭率明显高于shRNA-NUSAP1+OVNC组(P<0.05)。shRNANUSAP1(NUSAP1敲低)组比shNUSAP1组的迁移宽度明显增加,说明迁移能力受限;在敲低NUSAP1的基础尚过表达MMP-9(OV-MMP-9)后迁移能力明显变强,迁移宽度显著变小(P<0.05)。结论NUSAP1在肿瘤相关巨噬细胞中通过促进PI3K通路的激活及MMP-9的表达从而促进非小细胞肺癌细胞的迁移。

血清HE4、CA125、TK1水平在卵巢癌患者中的相关性分析

目的探讨人附睾蛋白4(HE4)、糖类抗原125(CA125)和胸苷激酶1(TK1)联合检测在卵巢癌患者中的相关性。方法选择2022年1月—2023年11月本院收治的通过影像及病理活检被明确诊断为卵巢癌的53例患者(卵巢癌组)和良性肿瘤的29例患者(良性对照组)作为研究对象;另选同期健康管理中心接受体检的100名健康妇女作为健康对照组。采用化学发光法检测血清中HE4、CA125和免疫印迹法检测TK1水平,分别比较三组及卵巢癌不同分期血清HE4、CA125、TK1的水平以及ROC曲线对血清HE4、CA125、TK1及联合检测对卵巢癌诊断效能的价值分析。结果卵巢癌患者血清中HE4、CA125、TK1水平均明显高于良性对照组和健康对照组(P<0.05);卵巢癌组中Ⅲ~Ⅳ期患者血清中HE4、CA125、TK1水平均明显高于Ⅰ~Ⅱ期患者(P<0.05),TK1水平在卵巢癌分组中差异无统计学意义(P>0.05);经ROC曲线分析发现,血清中HE4、CA125、TK1联合检测对卵巢癌诊断效能优于三项单独检测。结论卵巢癌患者血清中HE4、CA125、TK1的水平异常表达,且HE4、CA125、TK1三者联合检测的诊断价值效能明显优于单独检测,有助于提高临床对卵巢癌早期筛查的准确率以及协助卵巢癌患者预后的评估,以期提高患者的生存率。