Insulin-like growth factor 2 targets IGF1R signaling transduction to facilitate metastasis and imatinib resistance in gastrointestinal stromal tumors

BACKGROUND Gastrointestinal stromal tumors(GISTs)are typical gastrointestinal tract neoplasms.Imatinib is the first-line therapy for GIST patients.Drug resistance limits the long-term effectiveness of imatinib.The regulatory effect of insulin-like growth factor 2(IGF2)has been confirmed in various cancers and is related to resistance to chemotherapy and a worse prognosis.AIM To further investigate the mechanism of IGF2 specific to GISTs.METHODS IGF2 was screened and analyzed using Gene Expression Omnibus(GEO:GSE225819)data.After IGF2 knockdown or overexpression by transfection,the phenotypes(proliferation,migration,invasion,apoptosis)of GIST cells were characterized by cell counting kit 8,Transwell,and flow cytometry assays.We used western blotting to evaluate pathway-associated and epithelial-mesenchymal transition(EMT)-associated proteins.We injected transfected cells into nude mice to establish a tumor xenograft model and observed the occurrence and metastasis of GIST.RESULTS Data from the GEO indicated that IGF2 expression is high in GISTs,associated with liver metastasis,and closely related to drug resistance.GIST cells with high expression of IGF2 had increased proliferation and migration,invasiveness and EMT.Knockdown of IGF2 significantly inhibited those activities.In addition,OEIGF2 promoted GIST metastasis in vivo in nude mice.IGF2 activated IGF1R signaling in GIST cells,and IGF2/IGF1R-mediated glycolysis was required for GIST with liver metastasis.GIST cells with IGF2 knockdown were sensitive to imatinib treatment when IGF2 overexpression significantly raised imatinib resistance.Moreover,2-deoxy-D-glucose(a glycolysis inhibitor)treatment reversed IGF2 overexpressionmediated imatinib resistance in GISTs.CONCLUSION IGF2 targeting of IGF1R signaling inhibited metastasis and decreased imatinib resistance by driving glycolysis in GISTs.

铣削高温合金GH3039刀具寿命预测及磨损机理

为揭示高温合金GH3039铣削参数对刀具寿命的影响规律,采用正交试验法对其进行铣削试验,运用多元回归法建立刀具寿命预测模型,分析铣削参数对刀具寿命的影响规律,通过观测铣刀后刀面的磨损情况,探究不同主轴转速下铣刀的磨损机理。结果表明:主轴转速对刀具寿命的影响程度最大,最小为轴向切深;当主轴转速为750 r/min时,铣刀磨损区域主要以黏结磨损和磨粒磨损为主;当铣削速度为950 r/min时,氧化磨损与扩散磨损开始增强;当铣削速度为1 180 r/min时,磨粒磨损与黏结磨损开始减弱甚至消失,氧化磨损与扩散磨损占据主导地位。

GH4169合金塑性加工成形与组织调控方法综述

针对高温合金零部件的精密成形制造由于工艺复杂、成形效率和精度低,其微观组织、力学性能及成形精度难以协同控制的问题,采用组织调控和成形工艺优化作为实现高温合金零部件成形成性一体化制造的有效手段。作为一种高温稳定相,δ相常出现于塑性变形及热处理过程中,其析出量与形貌影响合金的微观组织及力学性能。因为零件结构及服役条件的差异,所要求的组织、性能和采取的制备工艺也不尽相同。介绍了环类、盘类及叶片类3类典型的GH4169合金零件的塑性加工技术,同时引出δ相在其中起到的作用,继而对δ相的析出、球化和溶解等演化行为及其对合金变形行为和力学性能的影响进行了阐述与总结。

Klotho、成纤维细胞生长因子23在矮身材儿童的水平变化及其与GH-IGF1轴的关系

目的探讨Klotho、成纤维细胞生长因子23(FGF23)在矮身材儿童的水平变化及其与生长激素(GH)-胰岛素样生长因子1(IGF1)轴的关系。方法选取2021年3月—2021年11月在河北省人民医院儿童保健门诊就诊的身材矮小的67例患儿作为研究组,并分为生长激素缺乏症组(GHD组)、特发性研究组(ISS组),分别有26和41例。另选取同期于该院儿童保健门诊行常规体格检查的正常身材儿童29例作为对照组。检测并比较研究组与对照组血清Klotho、FGF23、IGF1、胰岛素样生长因子结合蛋白3(IGFBP3)、血清钙、1,25-二羟维生素D3、磷酸盐水平。结果GHD组、ISS组身高-标准差数值(SDS)、体重-SDS均低于对照组(P<0.05)。各组年龄、性别、性发育分期、BMI-SDS比较,差异均无统计学意义(P>0.05)。GHD组IGF1、IGFBP3、Klotho、FGF23水平低于ISS组、对照组(P<0.05)。Spearman相关性分析结果显示,Klotho与IGF1、IGFBP3、FGF23、磷酸盐均呈正相关(rs=0.628、0.512、0.495和0.266,均P<0.05)。FGF23与IGF1、IGFBP3、磷酸盐均呈正相关(rs=0.440、0.484和0.277,均P<0.05)。结论GHD患儿Klotho、FGF23水平低下。Klotho、FGF23通过参与GH-IGF1轴的调节,在GHD患儿线性生长中发挥一定作用,并且在矮身材儿童血清磷酸盐稳态调节中有重要意义。

热处理对选区激光熔化GH4061合金组织和性能的影响

采用激光选区熔化成形技术制备了GH4061合金,研究了不同热处理工艺对合金组织和性能的影响。结果表明,沉积态合金的柱状晶穿过多个熔池外延生长,晶内由胞状亚晶结构组成。随着固溶温度的升高,晶粒取向逐渐偏向(101)和(111),晶粒长大;Laves相由长链状转变为颗粒状,1060℃固溶温度时基本溶解;δ相在晶界析出,由粗大块状转变为盘状,然后再转变为短棒状,1100℃热处理时无δ相析出;980℃、1020℃、1060℃、1100℃固溶温度时γ′和γ″相平均尺寸分别为23.53 nm、24.43 nm、25.34 nm和25.66 nm。热处理后合金的室温和650℃力学性能显著提高,其中980℃固溶时效热处理试样的室温和650℃抗拉强度分别达到1342 MPa和1120 MPa,随着固溶温度的升高,1020℃、1060℃、1100℃固溶温度时试样室温抗拉强度分别下降约6.4%、8.3%和10%,650℃抗拉强度分别下降约7.9%、8.8%和11%,塑性有所提高。

激光增材制造与连接GH4169合金的热处理工艺研究

采用激光增材制造技术制备了GH4169合金母材样品,并采用相同的工艺参数实现了母材的激光增材连接,检测了不同热处理状态下合金的拉伸性能,分析了性能改变的内在机理。结果表明:凭借激光增材制造技术热影响区小的优势,热处理前后母材与连接区域处微观组织的演变基本一致。沉积态合金呈典型的柱状晶组织,且二次枝晶并不发达,γ+Laves共晶相呈条带状和岛链状沿晶界分布;均匀化+固溶处理后Laves相发生分解并回溶入基体,并伴随着柱晶的粗化;当进行双重时效处理时Laves相的分布状态发生改变。不同热处理工艺试样的拉伸性能均高于同合金铸态指标,热处理对Laves相的含量和分布状态的改变是影响其强度和塑性的主要因素。

(TiZrHf)_(40)(NiCu)_(55)Al_(5)高熵非晶钎料真空钎焊Ti_(2)AlNb/GH4169合金

设计了一种高熵非晶钎料(TiZrHf)_(40)(NiCu)_(55)Al_(5)对Ti_(2)AlNb合金与GH4169镍基高温合金进行真空钎焊,分析了钎焊工艺对Ti_(2)AlNb合金/GH4169镍基高温合金接头界面组织形貌、力学性能及断裂行为的影响规律.结果表明,钎焊接头可划分为Ti_(2)AlNb/等温凝固区(Ⅰ区)/钎缝中心区(Ⅱ区)/扩散反应区(Ⅲ区)/GH4169;钎焊接头典型界面组织为Ti_(2)AlNb/B2+Ti_(2)Ni(Al,Nb)/(Ti,Zr,Hf)(Ni,Cu)/(Ni,Cr,Fe,Ti)ss+Cr-rich(Ni,Cr,Fe)ss+Ni-rich(Ni,Cr,Fe)ss+(Ni,Cr,Fe)ss/GH4169;随钎焊温度升高和保温时间延长,钎焊接头的抗剪强度均呈现出先增大后减小的趋势,当钎焊温度为1020℃、钎焊时间为15min时,接头的抗剪强度达到最大237 MPa.断口分析表明,接头主要断裂在Ti_(2)Ni(Al,Nb)+(Ti,Zr,Hf)(Ni,Cu)+(Ni,Cr,Fe,Ti)ss处,并逐渐向扩散反应区扩展,断口形貌呈现出典型的解理断裂特征.

航空发动机GH3230高温合金层板结构TLP扩散焊接制备及力学性能研究

随着更高推重比需求的不断提高,航空发动机热端部件不仅需要耐高温材料,更需要冷却效率更高的结构形式,本文采用自主研制的KNiCr–5中间层在1200℃保温4 h的工艺条件下TLP扩散焊接制备了GH3230高温合金多孔层板冷却结构,测试了层板结构模拟件的焊接质量和接头力学性能。超声检测结果表明,层板模拟件所有柱形结构(扰流柱)与底板(冲击板)焊接完好,未发现任何缺陷。焊缝形成了均匀的固溶体组织,无任何化合物相、裂纹和孔洞缺陷存在。室温/950℃高温拉伸测试结果表明,层板板柱结构模拟件和GH3230高温合金棒材对接结构全部断裂在GH3230高温合金基体,焊缝强度均明显高于GH3230高温合金。高温拉伸断裂试件的延伸率高达52%,薄板焊缝90°三点弯曲后无开裂,微观观察无裂纹等缺陷,表明了焊缝具有优异塑性。优异的焊接质量和性能保证了焊缝结构承受高温载荷时能达到GH3230高温合金基体的传热和承力性能,避免了焊缝成为整个层板结构薄弱环节。

基于超声强化研磨加工的GH4099合金耐磨服役性能提升研究

GH4099合金具有优异的高温热稳定性、高温力学性能和高温抗蠕变性能,用于航空发动机涡轮盘和涡轮叶片的制造,常处于高温、重载、高频的工作环境,但因耐磨服役性能差导致其使用寿命较短。通过超声强化研磨加工技术对GH4099合金分别进行0、3、6、9 min的加工,实现其耐磨服役性能提升。采用超声强化研磨加工技术对GH4099合金板表面进行不同时间的加工处理,并对加工前后的截面显微硬度、金相组织以及表面形貌进行分析。同时,通过往复式摩擦磨损试验对加工前后的试样耐磨性能进行对比分析。研究结果表明:随着加工时间的增加,材料表面显微硬度逐渐增大,最大为432.83 HV,比未加工试样增加43.8%。当加工时间为6 min时,GH4099合金试样的摩擦系数为0.47,磨损率为5.78×10^(-14)m^(3)/(N·m),与未加工试样相比,分别降低24.2%、68.59%,表明超声强化研磨可有效提升GH4099合金耐磨服役性能。

镍基高温合金GH4169端铣加工表面形貌研究

研究镍基高温合金GH4169端铣加工表面形貌影响因素,对控制GH4169的加工表面粗糙度和提高GH4169加工质量有着重要意义。基于单因素端铣试验,探明了铣削速度、铣削深度、每齿进给量及铣削宽度对表面粗糙度和三维表面形貌的影响机理及规律。研究表明,对表面粗糙度的影响程度由大到小依次为每齿进给量、铣削宽度、铣削速度、铣削深度;加工表面呈现出纵横相间的纹理,且对表面纹理深度的影响程度由大到小依次为铣削速度、铣削深度、每齿进给量、铣削宽度;结合加工表面粗糙度与三维表面形貌选取最佳加工参数:铣削速度V=100 m/min,铣削深度t=0.1 mm,每齿进给量f_(z)=0.025 mm/z,铣削宽度a_(w)=5 mm。

Exosome-transported IncRNA H19 regulates insulin-like growth factor-1 via the H19/let-7a/insulin-like growth factor-1 receptor axis in ischemic stroke

LncRNA(long non-coding RNA) H19 is a transcript of the H19 gene that is expressed during embryogenesis.We previously discove red a role for circular lncRNA H19 in the onset and prognosis of cerebral ischemic stroke.In this study,we used serum from patients with ischemic stroke,and mouse and cell culture models to elucidate the roles of plasma and neuronal exosomes in the regulatory effect of lncRNA H19 on insulin-like growth factor-1 and its mechanism in ischemic stroke,using western blotting,quantitative real-time polymerase chain reaction,and enzyme-linked immunosorbent assays.Plasma exosomal IncRNA H19 was negatively associated with blood levels of insulin-like growth factor-1 in samples from patients with cerebral ischemic stroke.In a mouse model,levels of exosomal IncRNA H19 were positively correlated with plasma and cerebral lncRNA H19.In a cell co-culture model,we confirmed that IncRNA H19 was transported from neuro ns to astrocytes by exosomes to induce downregulation of insulin-like growth factor-1 through the H19/let-7 a/insulin-like growth factor-1 receptor axis.This study provides the first evidence for the transpo rtation of IncRNA H19 by exosomes and the relationship between IncRNA H19 and insulinlike growth factor-1.

Neuroprotective effects of insulin-like growth factor-2 in 6-hydroxydopamine-induced cellular and mouse models of Parkinson’s disease

Skin-derived precursor Schwann cells have been reported to play a protective role in the central nervous system. The neuroprotective effects of skin-derived precursor Schwann cells may be attributable to the release of growth factors that nourish host cells. In this study, we first established a cellular model of Parkinson’s disease using 6-hydroxydopamine. When SH-SY5 Y cells were pretreated with conditioned medium from skin-derived precursor Schwann cells, their activity was greatly increased. The addition of insulin-like growth factor-2 neutralizing antibody markedly attenuated the neuroprotective effects of skin-derived precursor Schwann cells. We also found that insulin-like growth factor-2 levels in the peripheral blood were greatly increased in patients with Parkinson’s disease and in a mouse model of Parkinson’s disease. Next, we pretreated cell models of Parkinson’s disease with insulin-like growth factor-2 and administered insulin-like growth factor-2 intranasally to a mouse model of Parkinson’s disease induced by 6-hydroxydopamine and found that the level of tyrosine hydroxylase, a marker of dopamine neurons, was markedly restored, α-synuclein aggregation decreased, and insulin-like growth factor-2 receptor downregulation was alleviated. Finally, in vitro experiments showed that insulin-like growth factor-2 activated the phosphatidylinositol 3 kinase(PI3 K)/AKT pathway. These findings suggest that the neuroprotective effects of skin-derived precursor Schwann cells on the central nervous system were achieved through insulinlike growth factor-2, and that insulin-like growth factor-2 may play a neuroprotective role through the insulin-like growth factor-2 receptor/PI3 K/AKT pathway. Therefore, insulin-like growth factor-2 may be an useful target for Parkinson’s disease treatment.

Ag-CuO-NiO-LiAlSiO_(4)复合钎料空气反应钎焊GH3128/Al_(2)O_(3)接头组织及性能

以Ag-CuO-NiO-LiAlSiO_(4)复合钎料对GH3128高温合金与Al_(2)O_(3)陶瓷进行空气反应钎焊(RAB)连接,研究了NiO和LiAlSiO_(4)添加量对钎焊接头显微结构和力学性能的影响,分析了接头的界面微观结构及其形成机制。结果表明,钎焊过程中,GH3128合金表面生成了包括CuCrO_(4)内氧化层和NiO外氧化层的复合氧化反应层,Al_(2)O_(3)陶瓷表面生成了以CuAl_(2)O_(4)为主要成分的界面层。NiO的添加明显改善了复合钎料在合金侧的润湿性,而锂霞石(LiAlSiO_(4))的添加减小了钎缝与母材间的热失配,极大地改善了键合接头的连接性能。最终,使用含0.3%NiO(质量分数)和4%LiAlSiO_(4)(质量分数)的Ag-10%CuO复合钎料钎焊GH3128合金和Al_(2)O_(3)陶瓷,获得了61.8 MPa的最大剪切强度。此时,接头界面结构为GH3128/CuCrO_(4)+CrNi3+NiO+CuO/Ag+CuO+LiAlSiO_(4)/CuAl_(2)O_(4)/Al_(2)O_(3)。

Mendelian randomization provides evidence for a causal effect of serum insulin-like growth factor family concentration on risk of atrial fibrillation

BACKGROUND Atrial fibrillation(AF)is one of the most common persistent arrhythmias among adult cardiovascular diseases.It is important to identify potential risk factors for AF.Members of the insulin-like growth factor(IGF)family exert a variety of effects on various cell types in the context of the pathogenesis of cardiovascular diseases,and previous population-based studies indicate associations between IGF family members and AF.However,the causal effects of IGF family members in AF have not been evaluated.assess genetic relationships between IGF family members and AF.METHODS MR was performed based on genome-wide association study(GWAS)datasets,and concentration levels of 14 IGF family members were retrieved.An initial MR analysis was conducted to identify single nucleotide polymorphisms potentially associated with IGF serum concentrations.A GWAS meta-analysis including 60620 AF cases and 970216 control participants of European ancestry was then conducted to identify AF causal effects.Two-sample MR packages were used to perform MR analysis in R.MR-Egger,weighted median(WM),and inverse va-riance weighted(IVW)methods were used.RESULTS Core Tip:Due to the high prevalence of atrial fibrillation(AF),and adverse outcomes related to it,it is important to identify risk factors associated with development of the condition.Insulin-like growth factor(IGF)family members exert a variety of effects on various cell types in the context of the pathogenesis of cardiovascular diseases,and previous population-based studies indicate associations between IGF family members and AF.However,the causal effects of IGF family members in AF have not been evaluated.The results of the current study provide novel insights on the pathogenesis of AF,and implic-ations of serum IGF family member concentrations when assessing the risk of AF.The study generated evidence on the potential roles of developmental pathological effects in the pathogenesis of AF.Further observational and experimental studies are critically needed.

均匀化处理对激光选区熔化GH3536和GH4169合金组织和显微硬度的影响

GH3536和GH4169镍基高温合金常用来制造航空发动机等热端部件。采用激光选区熔化(selective laser melting,SLM)最优工艺参数制备GH3536和GH4169合金试样,研究不同均匀化温度和保温时间对两种合金组织演变、平均晶粒尺寸和性能的影响,利用OM、SEM、EDS等方法表征其缺陷特征和微观组织,利用维氏硬度仪测试合金的显微硬度。结果表明:成形态GH3536合金中存在更多缺陷,包括气孔、裂纹和未熔合;成形态GH4169合金中只存在气孔。均匀化处理使合金熔池消失,使晶粒长大成为等轴晶。GH3536合金晶界和晶内有M_(23)C_(6)析出,GH4169合金晶界和晶内有NbC析出,随着均匀化温度升高,析出物明显减少。GH3536合金的平均晶粒尺寸从1130℃,1 h的48.5μm增大到1250℃,4 h的100.9μm,增大了106.8%;GH4169的平均晶粒尺寸从1080℃,1 h时的57μm增大到1200℃,4 h时的87.4μm,增加了53.3%。GH3536合金经过均匀化处理后显微硬度下降明显,由原来262HV下降到180~190HV;与之相反,GH4169合金经过均匀化处理后硬度提高,显微硬度均保持在430~450HV之间,明显高于成形态试样的313HV。

GH907高温合金表面电弧离子镀NiCoCrAlY/AlSiY复合涂层的高温抗氧化性能研究

为提高GH907高温合金在750℃下高温抗氧化性能。在GH907合金表面采用电弧离子镀技术(AIP)制备NiCoCrAlY/AlSiY复合涂层。系统开展复合涂层的高温抗氧化行为和机理研究,利用XRD、SEM和EDS等微尺度分析表征方法,全面解析氧化过程中物相的结构特征、氧化产物成分及表/截面形貌特征。结果试验表明,750℃氧化500 h后,GH907高温合金氧化层(FeO,Fe_(2)O_(3))萌生大量裂纹,氧化层发生大面积剥落。基体呈迅速氧化增重趋势,500 h质量增重值为22.38 mg/cm^(2)。相比之下,NiCoCrAlY/AlSiY复合涂层在氧化实验中,由于形成连续且致密的Al2O3屏障层,有效抑制氧气内扩散,延缓GH907高温合金发生氧化反应的影响。氧化80 h质量增重为6.37 mg/cm^(2),随后质量增重率趋于稳定,500 h复合涂层质量增重值仅有7.68 mg/cm^(2)。结论由此表明,NiCoCrAlY/AlSiY复合涂层可以显著提高GH907高温合金高温抗氧化性能。

GH4169G高温合金车削切削力与切削温度有限元仿真研究

为研究GH4169G高温合金车削用量及刀具几何特性对切削力和切削温度的影响规律,基于ABAQUS有限元仿真软件,通过依次改变切削深度、切削速度和刀具几何角度,获得不同参数组合下切削力和切削温度的变化规律,进一步揭示车削参数和刀具几何角度对GH4169G高温合金切削过程中热—力耦合作用的影响机理,从而对切削工艺参数和刀具特性进行优选。

高速铣削GH4169镍基高温合金切削温度的研究

为了研究GH4169镍基高温合金在高速铣削过程中不同切削用量对切削温度的影响,采用正交试验法对其进行切削仿真,并对铣削加工仿真结果进行分析,得到切削用量与切削温度的关系。为验证仿真结果的合理性和准确性,进行了GH4169镍基高温合金高速铣削加工试验,对比分析高速铣削试验和高速铣削加工仿真的结果,验证GH4169镍基高温合金高速铣削仿真模型的准确合理。在已确定的加工仿真模型基础上进行单因素试验,研究不同切削用量对切削温度的影响。结果表明:在切削速度、每齿进给量和背吃刀量均增大的条件下,铣削温度都逐渐上升,但增长速率呈下降趋势。

GH2132高温合金本构模型及大断面收缩率楔横轧成形研究

采用Gleeble-3800热模拟试验机对GH2132高温合金进行等温恒应变速率压缩实验,获取该合金在变形温度900~1100℃、应变速率0.01~10 s^(-1)范围内的真应力-应变曲线。对所得流动应力曲线进行摩擦与绝热修正,以消除试样热变形过程的绝热温升效应以及和砧子与试样间接触摩擦作用对实验结果的影响后,建立了考虑应变补偿的Arrhenius型本构模型。误差分析结果表明,其相对平均绝对误差不超过7%,可用于该合金高温变形行为研究。分析了具有大断面收缩率特征的GH2132合金楔横轧轧件的成形过程模拟,进一步验证了所建本构模型的准确性,为GH2132高温合金楔横轧工艺开发奠定了基础。

GH4169惯性摩擦焊界面摩擦及瞬态热过程数值模拟研究

针对GH4169高温合金惯性摩擦焊过程,基于有限元方法研究了界面摩擦机制的转变、摩擦产热和温度场等热过程参量的分布特征及瞬态演化规律。利用试验数据对有限元模型的准确性进行了对比验证。结果表明,焊接初始整个界面均为库仑摩擦区,从0.54 s开始库仑摩擦区逐渐缩小并在9.60 s完全消失,剪切摩擦区从0.31R0(R0为工件半径)处开始形成并逐渐扩展至整个界面。根据模拟结果,提出了描述库仑摩擦区演化过程的解析公式。分析了摩擦机制转变引起的界面热流密度、摩擦应力和温度的耦合关系及变化规律。研究表明,界面上库仑摩擦机制向剪切摩擦机制的转变有利于焊接界面附近温度场的均匀化。