Synaptotagmins family affect glucose transport in retinal pigment epithelial cells through their ubiquitination-mediated degradation and glucose transporter-1 regulation

BACKGROUND Synaptotagmins(SYTs)are a family of 17 membrane transporters that function as calcium ion sensors during the release of Ca2+-dependent neurotransmitters and hormones.However,few studies have reported whether members of the SYT family play a role in glucose uptake in diabetic retinopathy(DR)through Ca2+/glucose transporter-1(GLUT1)and the possible regulatory mechanism of SYTs.AIM To elucidate the role of the SYT family in the regulation of glucose transport in retinal pigment epithelial cells and explore its potential as a therapeutic target for the clinical management of DR.METHODS DR was induced by streptozotocin in C57BL/6J mice and by high glucose medium in human retinal pigment epithelial cells(ARPE-19).Bioinformatics analysis,reverse transcriptase-polymerase chain reaction,Western blot,flow cytometry,ELISA,HE staining,and TUNEL staining were used for analysis.RESULTS Six differentially expressed proteins(SYT2,SYT3,SYT4,SYT7,SYT11,and SYT13)were found between the DR and control groups,and SYT4 was highly expressed.Hyperglycemia induces SYT4 overexpression,manipulates Ca2+influx to induce GLUT1 fusion with the plasma membrane,promotes abnormal expression of the glucose transporter GLUT1 and excessive glucose uptake,induces ARPE-19 cell apoptosis,and promotes DR progression.Parkin deficiency inhibits the proteasomal degradation of SYT4 in DR,resulting in SYT4 accumulation and enhanced GLUT1 fusion with the plasma membrane,and these effects were blocked by oe-Parkin treatment.Moreover,dysregulation of the myelin transcription factor 1(Myt1)-induced transcription of SYT4 in DR further activated the SYT4-mediated stimulus-secretion coupling process,and this process was inhibited in the oe-MYT1-treated group.CONCLUSION Our study reveals the key role of SYT4 in regulating glucose transport in retinal pigment epithelial cells during the pathogenesis of DR and the underlying mechanism and suggests potential therapeutic targets for clinical DR.

Characterization of monocarboxylate transporter activity in hepatocellular carcinoma

AIM: To assess the immunoexpression of hypoxia-related markers in samples from cirrhosis and primary and metastatic hepatocellular carcinoma (HCC).

Effects of suppressing glucose transporter-1 by an antisense oligodeoxynucleotide on the growth of human hepatocellular carcinoma cells

BACKGROUND:The glucose transporter-1(Glut-1),a key ratelimiting factor in the transport and metabolism of glucose in cancer cells,is over-expressed in many human cancer cells and this overexpression is correlated with poor biological behavior. The increased levels of Glut-1 expression in hepatocellular carcinoma(HCC)cells functionally affect tumorigenicity.This study was undertaken to investigate effects of suppressing Glut-1 by an antisense oligodeoxynucleotide(AS-ODN)on the growth of human hepatocellular carcinoma(HepG-2)cells. METHODS:We used AS-ODN targeting against the Glut-1 gene in a HepG-2 cell line.There were four experimental groups: empty pcDNA3.1 vector(mock transfection),pcDNA3.1-anti-Glut(+),pcDNA3.1-Glut(+),and non-transfected HepG-2 cells. The Glut-1 mRNA expression was detected by RT-PCR and the Glut-1 protein expression by Western blotting after cell culture, and the glucose uptake was detected after glucose stimulation in each group. RESULTS:Compared with non-transfected HepG-2 or Glut-1 pcDNA3.1,a down-regulation of Glut-1 mRNA in HepG-2 cells transfected with anti-Glut-1 pcDNA3.1 was noted(P<0.05).Glut-1 protein in HepG-2 cells transfected with Glut-1 AS-ODN was decreased compared with non-transfected HepG-2,Glut-1 pcDNA3.1,or empty vectors. Glucose uptake by the HepG-2 cells transfected with AS-ODN was decreased at 1 hour after glucose stimulation.CONCLUSIONS:The application of Glut-1 AS-ODN can down-regulate the expression of Glut-1 at mRNA and protein,and inhibit glucose uptake partially in HepG-2 cells.The Glut-1 gene maybe a potential therapeutic target for HCC.

单羧酸转运蛋白1在动物体内的转运调控机制

单羧酸转运蛋白1(MCT1)是动物体内最重要的单羧酸转运蛋白亚型,广泛分布于动物体的各个组织细胞中,通过参与乳酸、短链脂肪酸等单羧酸物质的跨膜转运,发挥着多种生物学功能,包括参与营养物质转运、调节pH、作为癌症治疗的靶点、调控葡萄糖代谢平衡等。本文就近年研究,总结了MCT1在单胃和反刍动物体内的定位分布、表达差异,并重点阐述了MCT1通过转运单羧酸发挥的生物学功能和转运调控机制,为MCT1在动物体内的调控机制研究提供参考。

IDENTIFICATION OF GLUCOSE TRANSPORTER- 1 AND ITS FUNCTIONAL ASSAY IN MOUSE GLOMERULAR MESANGIAL CELLS CULTURED IN VITRO

To evaluate the role of glucose transporter- l (GLUT1) in the glucose uptake of glomerular mesangial cells. Methods. Cultured C57/SJL mouse mesangial cells were used in the study. The expression of GLUT1 mRNA was detected by RT- PCR. The expression of GLUT1 protein was detected by immunofluorescence and flow cytometry. The uptake of glucose and its kinetics were determined by 2- deoxy- [3H]- D- glucose uptake. Results. Both GLUT1 mRNA and protein were found in mouse glomerular mesangial cells. 2- deoxy- D- glucose uptake and kinetics assay showed that this glucose transporter had high affinity for glucose and the glucose uptake specificity was further confirmed by phloretin. Conclusion. Functional GLUT1 did present in mouse mesangial cells cultured in vitro and it might be the predominant transporter mediated the uptake of glucose into mesangial cells.

Constructing recombinant replication-defective adenoviral vectors that express glucose transporter-1 through in vitro ligation

BACKGROUND： We constructed a homologous recombination bacterial method based on the pAdEasy system, a widely used system, for generating recombinant adenoviral vectors that express glucose transporter- 1 （GLUT 1） in rats, OBJECTIVE： This study was designed to investigate the feasibility of generating recombinant replication-defective adenoviral vectors that express GLUT1 in rats by in vitro ligation based on the Adeno-X^TM system. DESIGN： An in vitro cell-based experiment. SETTING： This study was performed at the Linbaixin Medical Research Center of the Second Hospital Affiliated to Sun Yat-sen University and Central Laboratory for Prevention and Treatment of Tumor, Sun Yat-sen University between January and August 2004. MATERIALS： Male, adult, Sprague Dawley rats were used to extract total RNA from brain tissue. E. coli DH5 a and human embryonic kidney 293 cells （HEK293 cells） used in the present study were cryo-preserved by the Second Hospital Affiliated to Sun Yat-sen University. Rabbit anti-rat GLUT1 polyclonal antibody （Chemicon, U.S.A.） and primers （Shanghai Boya Bioengineering Co., Ltd） were also used. METHODS： E1/E3-deleted replication-defective adenoviral vectors were used. Using in vitro ligation, the target gene was first sub-cloned into a shuttle vector plasmid to obtain the fragment containing target gene expression cassettes by enzyme digestion. Subsequently, the fragment was co-transformed with linearized adenoviral backbone vector into the E. coli strain. The recombinant adenoviral plasmid was transfected into HEK293 cells to assembly recombinant adenoviral vectors with replication capabilities. The procedure was repeated several times for recombinant adenoviral vectors amplification. MAIN OUTCOME MEASURES： Efficiency of recombinant adenoviral vectors to express the target gene was measured by gene and protein expression through polymerase chain reaction and Western Blot assays, respectively. RESULTS： Results demonstrated that recombinant adenoviral vectors successfully expressed GLUT1 protein, with a relative molecular mass of 55000 in HEK293 cells. These results suggest that recombinant adenoviral vectors obtained by homologous bacterial recombination feature high efficiency, rapidness, and simplicity. CONCLUSION： We successfully amplified the rat GLUT1 gene and constructed replication-defective adenoviral vectors expressing GLUT1. The replication-defective adenoviral vectors proved to successfully express the target gene in HEK293 cells.

Monocarboxylate transporter 4 plays a significant role in the neuroprotective mechanism of ischemic preconditioning in transient cerebral ischemia

Monocarboxylate transporters（MCTs）, which carry monocarboxylates such as lactate across biological membranes, have been associated with cerebral ischemia/reperfusion process. In this study, we studied the effect of ischemic preconditioning（IPC） on MCT4 immunoreactivity after 5 minutes of transient cerebral ischemia in the gerbil. Animals were randomly designated to four groups（sham-operated group, ischemia only group, IPC ＋ sham-operated group and IPC ＋ ischemia group）. A serious loss of neuron was found in the stratum pyramidale of the hippocampal CA1 region（CA1）, not CA2/3, of the ischemia-only group at 5 days post-ischemia; however, in the IPC ＋ ischemia groups, neurons in the stratum pyramidale of the CA1 were well protected. Weak MCT4 immunoreactivity was found in the stratum pyramidale of the CA1 in the sham-operated group. MCT4 immunoreactivity in the stratum pyramidale began to decrease at 2 days post-ischemia and was hardly detected at 5 days post-ischemia; at this time point, MCT4 immunoreactivity was newly expressed in astrocytes. In the IPC ＋ sham-operated group, MCT4 immunoreactivity in the stratum pyramidale of the CA1 was increased compared with the sham-operated group, and, in the IPC ＋ ischemia group, MCT4 immunoreactivity was also increased in the stratum pyramidale compared with the ischemia only group. Briefly, present findings show that IPC apparently protected CA1 pyramidal neurons and increased or maintained MCT4 expression in the stratum pyramidale of the CA1 after transient cerebral ischemia. Our findings suggest that MCT4 appears to play a significant role in the neuroprotective mechanism of IPC in the gerbil with transient cerebral ischemia.

胎盘SLC16A1基因及单羧酸转运蛋白1表达量与妊娠期糖尿病的关系

目的探讨胎盘SLC16A1基因及单羧酸转运蛋白1(MCT1)表达量与妊娠期糖尿病(GDM)的关系。方法选取该院1361例妊娠女性为研究对象,其中GDM患者281例纳入GDM组,健康妊娠女性1080例纳入正常妊娠组。正常妊娠组及GDM组按1∶1匹配(n=105)后比较两组胎盘MCT1及SLC16A1基因表达量,并采用Logistic回归分析MCT1及SLC16A1基因表达量与GDM的关系。匹配参数为体质量指数、年龄、生产史、GDM病史(匹配容差分别为0.3、0、0、0)。结果GDM组、正常妊娠组SLC16A1基因表达量分别为0.390(0.006,2.980)、0.561(0.014,4.205),GDM组明显低于正常妊娠组,差异有统计学意义(P<0.05)。GDM组、正常妊娠组MCT1表达量分别为0.097±0.044、0.166±0.030,GDM组明显低于正常妊娠组,差异有统计学意义(P<0.05)。Logistic回归分析显示SLC16A1基因表达量增加是GDM的保护因素(OR=0.740,95%CI 0.561~0.974,P<0.05)。结论GDM患者胎盘SLC16A1基因及MCT1表达量均下降,SLC16A1基因表达量增加是GDM的保护因素。

MCT1、CD147在人胶质瘤中的表达、相关性及其与预后的关系

目的探讨单羧酸转运蛋白-1(monocarboxylate transporter-1,MCT1)和CD147在不同级别人脑胶质瘤中的表达情况及其与胶质瘤预后的关系。方法采用免疫组化S-P法检测MCT1和CD147在28例低级别胶质瘤和32例高级别胶质瘤中的表达情况;建立前瞻性队列随访观察上述胶质瘤患者术后情况,使用生存曲线和COX多因素模型进行生存预后分析。结果MCT1和CD147在人脑胶质瘤中均有高表达;在高级别胶质瘤中,两者的阳性表达率(93.8%、90.6%)和强阳性表达率(73.3%、72.4%)显著高于低级别组(两者的阳性表达率为46.4%、50%,强阳性表达率为30.8%、35.7%,P<0.01,P<0.05),且两者表达呈正相关(r=0.671,P<0.05);MCT1和CD147表达相关生存曲线差异有统计学意义(P=0.021,P=0.001),COX分析CD147高表达对胶质瘤患者的术后生存预后具有明显影响(P=0.017)。结论MCT1和CD147与胶质瘤恶性程度有密切关系,两者的表达,尤其是CD147可作为胶质瘤预后判断的参考指标和治疗靶点。

抑制单羧酸转运蛋白1可增强鼻咽癌细胞HNE1/DDP对顺铂诱导凋亡的敏感性

目的探讨siRNA沉默单羧酸转运蛋白1(MCT1)增强鼻咽癌细胞HNE1/DDP对顺铂诱导凋亡的敏感性及其可能机制。方法 Western blot检测HNE1和HNE1/DDP细胞中MCT1的表达及siRNA转染沉默MCT1在HNE1/DDP细胞中MCT1的表达;MTT法检测不同浓度顺铂和MCT1 siRNA联合顺铂对HNE1/DDP细胞的增殖抑制作用;PI单染流式细胞术检测细胞凋亡;线粒体膜电位检测试剂盒(JC-1)检测细胞线粒体膜电位;Western blot检测Mcl-1、Bak、Bcl-2、Bax蛋白的表达。结果 MCT1在HNE1/DDP细胞中高表达,抑制MCT1的表达可增加HNE1/DDP细胞对顺铂的敏感性(P<0.05),部分逆转鼻咽癌细胞对顺铂的耐药。此外,抑制MCT1的表达可增强HNE1/DDP细胞对顺铂诱导凋亡的作用,MCT1 siRNA与8μmol/L顺铂联合作用于HNE1/DDP细胞24 h的凋亡率为(51.23±2.86)%,较单用MCT1 siRNA、顺铂的凋亡率明显升高(P<0.05)。同时使细胞线粒体膜电位降低,下调Mcl-1、Bcl-2的表达和上调Bax的表达。结论抑制MCT1的表达可增强鼻咽癌HNE1/DDP细胞对顺铂诱导凋亡的敏感性,其机制可能与下调Mcl-1、Bcl-2和上调Bax有关。

MCT1表达位置改变对胶质瘤细胞能量合成、细胞内pH值及凋亡的影响

目的研究体外培养U251细胞单羧酸转运蛋白-1(MCT1)被CD147/HAb18G基因工程单克隆抗体改变表达位置后其乳酸外流障碍对细胞能量合成、细胞内pH值(pHi)和凋亡的影响。方法分别以低、高剂量的CD147/HAb18G单抗封闭体外培养U251细胞表面CD147分子,并设立对照组。免疫荧光法检测各组细胞膜上MCT1表达分布改变,分光光度计检测各组细胞内乳酸含量,生物发光法检测细胞内腺嘌呤核苷三磷酸(ATP)含量,连续比色法检测细胞内磷酸果糖激酶(PFK)活性,2′,7′-二(羧乙基)-5(6)-羧基荧光黄(BCECF-AM)荧光探针法检测各组pHi,流式细胞仪检测各组细胞凋亡率。结果CD147/HAb18G单抗作用下,MCT1表达位置由胞膜有效表达转为胞质无效表达且细胞内乳酸浓度增高;细胞内ATP含量下降[对照组(0.831±0.036)×10-8 mmol/L,低剂量组(0.592±0.047)×10-8 mmol/L,高剂量组(0.332±0.042)×10-8 mmol/L,P<0.01];细胞PFK活性下降[对照组(0.855±0.076)mmol.min-1.L-1,低剂量组(0.602±0.057)mmol.min-1.L-1,高剂量组(0.382±0.049)mmol.min-1.L-1,P<0.01];pHi下降(对照组7.27±0.03,低剂量组6.77±0.04,高剂量组6.31±0.02,P<0.01);细胞凋亡率增加[对照组(8.45±1.26)%,低剂量组(16.87±3.26)%,高剂量组(28.92±3.01)%,P<0.01]。结论通过改变MCT1的表达位置,可有效抑制细胞糖酵解乳酸清除、降低糖酵解能量合成,酸化细胞内环境,促进肿瘤凋亡。

MCT1、CD147、CD44在非小细胞肺癌中表达的相关性及意义

目的:探讨单羧酸转运蛋白1(monocarboxylate transporters 1,MCT1)、CD147、CD44 mRNA和蛋白在非小细胞肺癌(non-small cell lung cancer,NSCLC)中表达的相关性及其在NSCLC发生、发展及预后中的意义。方法 :取经病理确诊的56例NSCLC患者癌组织、癌旁组织(距肿瘤边缘>5 cm)和21例肺良性病变组织采用免疫组化和实时荧光定量PCR检测MCT1、CD147、CD44蛋白及mRNA的表达。结果:①在NSCLC组织中MCT1、CD147、CD44表达均明显高于对照组(P<0.05);②MCT1在肺癌细胞膜上的表达水平与CD147、CD44的表达均存在相关性(P<0.05);③MCT1、CD147、CD44的表达与NSCLC患者的性别、年龄、肿瘤大小、TNM分期均无关,但与肿瘤的组织类型(P<0.05)、淋巴转移(P<0.05)显著相关,且MCT1、CD44蛋白和mRNA的表达与肿瘤的分化程度显著相关(P<0.05)。结论:MCT1、CD147、CD44可能参与肿瘤的发生、发展及远处淋巴结转移,可作为检测NSCLC和预后评价的指标。

MCT1在不同发育时期及缺血缺氧脑白质损伤大鼠胼胝体内的表达

目的:观察单羧酸转运体-1(monocarboxylate transporter-1,MCT1)在不同发育时期及缺血缺氧(hypoxia-ischemia,HI)损伤模型大鼠胼胝体内的表达。方法:采用多聚甲醛灌注固定7 d、14 d、21 d和28 d SD大鼠脑组织,冰冻切片后进行MCT1/CNPase和MCT1/GFAP免疫荧光双标,观察胼胝体内MCT1在少突胶质细胞和星形胶质细胞的表达;另选生后3 d的SD大鼠,右侧颈总动脉结扎及缺氧处理以建立HI性脑白质损伤模型,至生后28d观察胼胝体MCT1的表达。结果:MCT1分别与CNPase和GFAP免疫荧光双标显示,生后早期,正常大鼠胼胝体内MCT1主要在GFAP阳性细胞表达,随生长时间延长,MCT1在CNPase阳性细胞的表达增加,而在GFAP阳性细胞的表达逐渐减少;HI损伤后28 d,MCT1/GAFP免疫荧光强度较对照组显著升高(P<0.01),而MCT1/CNPase的表达较对照组显著降低(P<0.01)。结论:在成年SD大鼠胼胝体,MCT1主要在CNPase阳性的少突胶质细胞表达,而HI脑白质损伤后,MCT1主要在星形胶质细胞表达。

MCT1、CD147、CD44蛋白在非小细胞肺癌中的表达相关性及意义

目的:探讨单羧酸转运蛋白1(Monocarboxylate transporters 1,MCT1)、CD147、CD44蛋白在非小细胞肺癌(Non-smallcell lung cancer,NSCLC)表达相关性及其在NSCLC发生发展、预后中的意义。方法:取经病理确诊的50例NSCLC患者癌组织(肺癌组)、远癌组织(距肿瘤边缘大于5 cm,远癌组)和21例肺良性病变组织(对照组)。采用免疫组化方法检测MCT1、CD147、CD44蛋白表达。结果:(1)肺癌组中MCT1、CD147、CD44蛋白的阳性表达均明显高于远癌组和对照组(P<0.05);(2)MCT1在肺癌细胞膜中表达与CD147、CD44蛋白表达(χ2=7.284,P=0.007;χ2=6.522,P=0.011)均存在相关性;(3)MCT1、CD147、CD44蛋白的表达与NSCLC患者的性别、年龄、肿瘤大小、PTNM分期均无关,但与肿瘤的组织类型(χ2=12.888,P=0.039;χ2=3.997,P=0.043;χ2=3.982,P=0.000;χ2=7.670,P=0.035)、淋巴转移(χ2=13.406,P=0.021;χ2=13.406,P=0.021;χ2=11.809,P=0.039;χ2=12.493,P=0.000)显著相关,另外MCT1(细胞膜)蛋白表达还与肿瘤分化程度(χ2=7.135,P=0.013)及吸烟史(χ2=6.623,P=0.010)显著相关,CD44与肿瘤的分化程度显著相关(χ2=5.486,P=0.000)。结论:在NSCLC患者组织中MCT1、CD147、CD44蛋白表达均高于癌周组织及肺良性病变组织,统计结果显示3者在NSCLC细胞膜表达具有显著相关性。MCT1、CD147、CD44可能参与肿瘤的发生、发展及远处淋巴结转移,它们可能作为检测NSCLC和预后评价指标。

CD147/HAb18G单克隆抗体对人脑胶质瘤细胞乳酸转运及细胞生长的影响

目的研究CD147/HAb18G基因工程单克隆抗体对体外培养U251细胞单羧酸转运蛋白-1(monoc arboxylatetransporter-1,MCT1)表达分布和糖酵解乳酸代谢的影响。方法体外培养U251细胞分为对照组、低剂量组和高剂量组,分别加入不同剂量的CD147/HAb18G单抗封闭细胞表面CD147分子。免疫荧光法检测各组细胞膜上MCT1表达分布改变,分光光度计检测各组细胞内乳酸含量,分别绘制生长曲线并记录生长数据。结果低剂量组和高剂量组MCT表达分布改变,相比对照组其胞膜有效表达减少[随机计数500个细胞中胞膜完整表达细胞数:对照组(367.34±6.92),低剂量组(161.92±7.33),高剂量组(54.58±4.80),P<0.01],胞质无效表达增多[胞质表达细胞数:对照组(12.08±3.03),低剂量组(70.83±4.71),高剂量组(264.58±6.14),P<0.01];细胞内乳酸浓度在低、高剂量组明显增高[对照组(0.222±0.020)mmol/L,低剂量组(0.418±0.015)mmol/L,高剂量组(0.713±0.018)mmol/L,P<0.01],生长指标抑制,生长曲线低平[对照组最大细胞密度(5.24±0.37)×105/ml,低剂量组(4.23±0.48)×105/ml,高剂量组(3.19±0.46)×105/ml,P<0.01]。以上改变在低剂量组和高剂量组间差异亦有统计学意义(P<0.05)。结论 CD147/HAb18G单抗通过干扰CD147对MCT1表达的引导使胶质瘤细胞膜上MCT1有效分布减少,影响其糖酵解产生乳酸的排出,具有抑制肿瘤生长作用。

恩格列净对糖尿病小鼠肾脏保护作用的机制研究

目的探究恩格列净对肾脏保护作用的新机制。方法将8周龄雄性SPF级C57/BL6J小鼠随机分为两组,正常对照(NC)组(n=7)和高脂(HFD)组(n=23)。NC组常规饲料喂养,高脂组60%HFD喂养。HFD小鼠喂养12周后,腹腔注射0.1 mol/L柠檬酸钠缓冲液稀释的链脲佐菌素(STZ,30 mg/kg);NC组小鼠,腹腔注射等容积的0.1 mol/L柠檬酸钠缓冲液。将造模成功的小鼠随机分为糖尿病(DM)组(n=8)、DM+利格列汀干预(DM+Lina)组(10 mg/kg,n=7)、DM+恩格列净干预(DM+Empa)组(25 mg/kg,n=8)。药物干预12周后留取血尿标本,生化仪检测小鼠肝肾功能、ELISA法检测血β-羟丁酸(β-HB)及生化试剂盒检测尿微量白蛋白(MAU)、视黄醇结合蛋白(RBP)、β2微球蛋白(β2-MG)、N-乙酰-β-D-氨基葡萄糖苷酶(NAG)等尿生化指标,留取肾脏组织,观察各组小鼠肾脏病理结构变化,并应用Western blot检测相关蛋白的表达。结果DM+Empa组的随机血糖、体重、总胆固醇、低密度脂蛋白水平、游离脂肪酸、肌酐低于DM组,DM+Empa组的血β-HB高于NC组、DM组及DM+Lina组,差异有统计学意义(P<0.05)。DM+Empa组的RBP、NAG、MAU低于DM组,差异有统计学意义(P<0.05),同时DM+Empa组的尿β-HB与NC组比较,差异无统计学意义(P>0.05)。糖尿病小鼠肾脏钠-偶联单羧酸转运蛋白1(SMCT1)低表达,恩格列净干预后可上调其表达水平;糖尿病小鼠存在肾脏超微结构损伤,恩格列净干预后可改善其病理损伤。结论恩格列净对肾脏保护作用之一可能是通过增加肾脏SMCT1的表达,SMCT1可能是治疗糖尿病肾脏病的一个新靶点。

溴化乙锭诱导的脱髓鞘模型大鼠胼胝体内MCT1表达的形态学观察

目的:观察单羧酸转运体-1(monocarboxylate transporter-1,MCT1)在溴化乙锭(Ethidium Bromide,EB)诱导的脱髓鞘模型大鼠胼胝体(corpus callosum,CC)内的表达变化。方法:选用正常成年SD大鼠,随机分为正常组、溶剂组和EB组,将0.05%的EB注射到大鼠胼胝体制作脱髓鞘模型,Luxol Fast Blue(LFB)染色观察胼胝体中的髓鞘是否脱失,免疫荧光组织化学染色技术检测注射位点MCT1的表达情况。结果:与正常组相比,注射EB14 d后注射部位胼胝体的LFB染色极浅且不均匀;通过MCT1分别与环核苷酸磷酸二酯酶(cyclic nucleotide phosphodiesterase,CNPase)和GFAP免疫荧光双标可以看出,在正常大鼠胼胝体中,大部分表达MCT1的细胞为CNPase+的少突胶质细胞(oligodendrocytes,OLs),少部分表达MCT1的细胞是GFAP+细胞;注射EB14 d后,EB注射部位胼胝体中CNPase的表达明显减弱,且CNPase+细胞中MCT1的表达也减弱,而GFAP的表达则增强,且所有GFAP+细胞都表达MCT1。结论:在正常SD大鼠胼胝体中,MCT1主要在少突胶质细胞中表达,EB诱导胼胝体脱髓鞘后,MCT1主要在星形胶质细胞中表达。

消化道上皮单羧酸转运蛋白1(MCT1)跨膜转运功能的调控机理

良好地吸收营养物质是家畜高效养殖的重要前提。单羧酸是饲粮在消化道发酵产生的重要供能物质,其吸收主要通过单羧酸转运蛋白(MCT1)来实现。深入研究MCT1的转运功能及调控机理对提高家畜生产性能具有重要意义。本文就MCT1的基因及蛋白结构特点、消化道分布与定位特点、转运机制和调控因素及机理进行综述,以期为MCT1的功能调控研究提供参考。

G蛋白偶联受体81、单羧酸转运体1和4在宫颈鳞癌中的表达及其临床意义

目的:通过检测G蛋白偶联受体81(G protein-coupled receptor 81,GPR81)、单羧酸转运体(monocarboxylate transporter,MCT)1和4在宫颈鳞癌中的表达,探讨GPR81,MCT1,MCT4在宫颈鳞癌发病中的作用。方法:采用免疫组织化学法(SP二步法)检测GPR81,MCT1,MCT4在16例正常宫颈组织、44例宫颈鳞癌组织中的表达情况,分析其表达水平与宫颈鳞癌临床分期和病理的关系,研究GPR81,MCT1,MCT4在宫颈鳞癌组织中表达的相关性。结果:宫颈鳞癌组中的GPR81,MCT1,MCT4表达水平均明显高于正常宫颈组(P<0.01)。在宫颈鳞癌组中,临床分期为I^II期宫颈鳞癌组织中的GPR81,MCT1,MCT4表达低于临床分期为III^IV期者,其中GPR81的表达差异有统计学意义(P<0.05),MCT1和MCT4的表达差异无统计学意义(P>0.05);中分化肿瘤组的GPR81,MCT1,MCT4表达低于低分化肿瘤组,但差异无统计学意义(P>0.05);无淋巴结转移的宫颈鳞癌组与有淋巴结转移的宫颈鳞癌组的GPR81,MCT1,MCT4表达无明显差异(P>0.05)。GPR81,MCT1,MCT4在宫颈鳞癌组织中的表达无明显相关关系(P>0.05)。结论:GPR81,MCT1,MCT4可能与宫颈鳞癌的发病有关,GPR81可能与宫颈鳞癌的病情进展有关。

单羧酸转运蛋白1增强乳腺癌细胞对3-溴丙酮酸的敏感性

目的探究单羧酸转运蛋白1(MCT1)在增强乳腺癌细胞对3-溴丙酮酸(3-Br PA)敏感性中的作用,为乳腺癌治疗提供新思路。方法 MTT法检测3-Br PA对乳腺癌细胞的增殖抑制作用,溴化丙啶单染法流式细胞术检测细胞凋亡,ELISA试剂盒检测细胞内己糖激酶Ⅱ、乳酸脱氢酶、乳酸、三磷酸腺苷水平,Western blot检测MCT1蛋白的表达,瞬时转染c DNA上调MCT1的表达后,检测3-Br PA对MDA-MB-231细胞的增殖和三磷酸腺苷水平的影响。结果 3-Br PA对MDA-MB-231细胞增殖和凋亡的影响不明显,200μmol/L作用24 h后增殖抑制率和凋亡率仅为8.72%和7.8%;但200μmol/L 3-Br PA作用MCF-7细胞24 h后其增殖抑制率和凋亡率为84.6%和82.3%。MDA-MB-231细胞的MCT1过表达后,200μmol/L 3-Br PA对细胞的增殖抑制率为72.44%,明显高于对照组(P<0.05);25、50、100、200μmol/L 3-Br PA作用细胞6 h后,细胞内三磷酸腺苷水平和对照组相比分别为96.98%、88.44%、43.3%、27.56%。结论 MCT1能增强乳腺癌细胞对3-Br PA的敏感性,其机制可能是将3-Br PA转运到细胞内,从而抑制细胞糖酵解来发挥抗肿瘤作用。