The Relationship of Insulin-receptor Gene Polymorphism to Ischemic Stroke?

Objective\ To investigate the role of mutation of insulin receptor (INSR) gene in the development of ischemic stroke. Methods\ The base variations at exon 17 and 20 of INSR gene, by means of PCR SSCP were determined in 68 cases of atherothrombotic cerebral infarction (ACI), 81 cases of lacunar infarction (LI) and 62 healthy controls (HC). Results\ There were 2 alleles of T and C at exon 17 of INSR gene. The prevalence of mutant of T allele in ACI patients was more common than that in the controls. The blood pressure and the parameters of lipid metabolism in the patients with mutant were higher than those in the controls with wild type gene. However, the correlative analysis showed that the polymorphism of INSR gene was not related statistically to the blood pressure. No base variation at exon 20 was found in the study. Conclusion\ The mutation at exon 17 of INSR gene, by promoting the development of atherosclerosis, may participate in the occurrence of ischemic stroke.\;

A Study on Exon 17 and 20 of the Insulin Receptor Gene Variations in Patients with Acanthosis Nigricans and Their Close Relatives

Objective: To explore the relationship between the insulin resistance and thedefects or mutations or mutations in insulin receptor (InsR)gene. Methods: Using the single-strandconformation polymorphism(SSCP), mutations and polymorphisms were detected in nine patients withacan-thosis nigricans (AN) and their first degree relatives in exon 17 and 20 of InsR gene. Thepolymorphisms and mutations were confirmed by DNA direct sequencing. Results: Fourteen variant SSCPpat-terns were detected. Direct sequencing revealed seven point mutations and six silentpolymorphisms. Five of the mutations appeared not to be mentioned in the previous literature. Thesemutations were all located within the domain of tyrokinase in InsR. Conclusion: It seem to us thatalmost all the AN patients with severe insulin resistance in this study have mutations in InsRtyrokinase domain.

Involvement of insulin receptor substrates in cognitive impairment and Alzheimer’s disease

Type 2 diabetes一associated with impaired insulin/insulin-like growth factor-1 (IGF1) signaling (IIS)一is a risk factor for cognitive impairment and dementia including Alzheimer's disease (AD). The insulin receptor substrate (IRS) proteins are major components of IIS, which transmit upstream signals via the insulin receptor and/or IGF1 receptor to multiple intracellular signaling pathways, including AKT/protein kinase B and extracellular-signal-regulated kinase cascades. Of the four IRS proteins in mammals, IRS1 and IRS2 play key roles in regulating growth and survival, metabolism, and aging. Meanwhile, the roles of IRS1 and IRS2 in the central nervous system with respect to cognitive abilities remain to be clarified. In contrast to IRS2 in peripheral tissues, inactivation of neural IRS2 exerts beneficial effects, resulting in the reduction of amyloid p accumulation and premature mortality in AD mouse models. On the other hand, the increased phosphorylation of IRS 1 at several serine sites is observed in the brains from patients with AD and animal models of AD or cognitive impairment induced by type 2 diabetes. However, these serine sites are also activated in a mouse model of type 2 diabetes, in which the diabetes drug metformin improves memory impairment. Because IRS1 and IRS2 signaling pathways are regulated through complex mechanisms including positive and negative feedback loops, whether the elevated phosphorylation of IRS1 at specific serine sites found in AD brains is a primary response to cognitive dysfunction remains unknown. Here, we examine the associations between IRS 1 /1 RS2-mediated signaling in the central nervous system and cognitive decline.

Polymorphisms of Exon 17 of Insulin-Receptor Gene in Pathogenesis of Human Disorders With Insulin Resistance

Objective To investigate the relationship between polymorphisms of insulin-receptor (INSR) gene and insulin resistance in a population-based study in China. Methods Polymerase Chain Reaction (PCR) was used to the amplify Exon 17 of INSR gene and all amplified products were analyzed by direct sequencing. Results Six single-nucleotide polymorphisms (SNPs) were found at the following loci: T to TC at the locus of 10699 (Tyr984), G to GC at the locus of 10731 (Glu994), Deletion G at the locus of 10798 (Asp1017), C to T/TC at the locus of 10923 (His1058), C to CA at the locus of 10954 (Leu1069), and T to TA at the locus of 10961 (Phe1071), which might not change the amino acid sequence. The data were in agreement with the test of Hardy-Weinberg balance (P>0.05). Among the 345 cases, all clinical indices were higher in males than in females except for HDL cholesterol (P<0.05). The proportion of insulin resistance in males (64.4%) was higher than that in females (35.6%, OR=1.83). It implied that the relative risk of developing insulin resistance in males was 1.83 times as high as that in females. The biochemical indices in different loci on Exon 17 showed that the individuals with deletion G on the locus of 10798 had lower TG (P=0.052) and higher HDL (P=0.027) than those without deletion G on the same site. Homa-Index was lower in those with deletion G than in those without deletion G (P>0.05). After sex stratification in analysis, all allele frequencies on the six loci of SNPs of Exon 17 had different distributions between the insulin resistant group and the control group, but P>0.05. Conclusion SNPs of Exon 17 of INSR gene are unlikely to play a direct role in the pathogenesis of human disorders with insulin resistance.

Effect of Kaiyu Qingwei Granule (开郁清胃颗粒) on Insulin Receptor in Liver and Skeletal Muscular Cell Membrane in Diabetes Mellitus Rats

Objective: To investigate the effect of Kaiyu Qingwei granule (KYQWG, on the insulin binding capacity of liver and skeletal muscular cell membrane and serum insulin-like growth factor-1 (IGF-1) in streptozotocin-induced diabetic rats. Methods: Rats in four experimental groups were investigated: the control group, the model group, the KYQWG group and the Metformin group. The insulin binding rate (IBR) of liver and skeletal muscular cell membrane was detected by receptor-ligand ra-diometric method and changes of serum levels of glucose, insulin and IGF-1 were observed before and after 4 weeks of medication. Results: The KYQWG group had a lower blood glucose level and ffiR of liver and muscular cell membrane, as compared with those in the model group (P<0. 01 or P<0.05), and a higher level of IGF-1 than that in the model group(P<0.01), but had no obvious changes in the serum level of insulin. Conclusion: KYQWG may increase the serum level of IGF-1 in diabetic rats, thus to decrease the insulin resistance at ante-receptor sites and improve the sugar metabolic disturbance in rats with diabetes mellitus.

Influence of berberine on protein tyrosine kinase of erythrocyte insulin receptors from type 2 diabetes mellitus

Objective： Bererine has been used to treat type 2 diabetes mellitus in Chinese traditional medicine because of its hypoglycemic effect. In this report, we compared the intrinsic tyrosine kinase activities of erythrocyte insulin receptors from type 2 diabetes mellitus with or without stimulation by berberine in vitro. Methods- Preparations containing insulin receptors were obtained from soluble human erythrocytes, and the insulin receptors were partially purified by affinity chromatography. The tyrosine kinase activity was measured by the exogenous substrate phosphorylation. Results： Both the membrane tyrosine kinase activity and the purified receptor tyrosine kinase activity from diabetics decreased significantly compared with those of normal individuals （reduced by 67.4% and 47.2%, respectively）. After incubation with berbefine, there is a statistical difference in the activity of membrane tyrosine kinase for diabetic patients （ a 150% increase）. Berefine had no effect on the tyrosine kinase activity of purified insulin receptors. Conclusion： We concluded from these results that berbefine was able to improve the insulin sensitivity by increasing the protein tyrosine kinase activity of membrane-bound insulin receptors from type 2 diabetes mellitus.

Resistin does not down-regulate the transcription of insulin receptor promoter

Objective: To detect the effect of resistin on the transcription of insulin receptor promoter. Methods: Luciferase reporter gene was fused downstream of human insulin receptor promoter and the enzymatic activity of luciferase was determined in the presence or absence of resistin. The resistin expressed with plasmid was stained with antibody against Myc tag which was in frame fused with resistin coding sequence, and then imaged with confocal microscopy. Results: The treatment of pIRP-LUC transfected cells with recombinant resistin did not result in significant difference in the enzymatic activity of luciferase compared to the untreated cells. Cell staining showed that green fluorescence could be observed in the cytoplasm, but not in the nucleus. Conclusion: The results suggest that the endogenous resistin may functionally locate in the cytoplasm, but does not enter the nucleus and not down-regulate the transcription of insulin receptor promoter.

Study of Mutation in Tyrosine Protein Kinase of Insulin Receptor Gene in Patients with Polycystic Ovarian Syndrome

Objective To explore the molecular mechanism of insulin resistance in the patients with polycystic ovarian syndrome (PCOS)Methods Polymerase chain reaction, silver staining-single strand conformation poly-morphism(PCR-SSCP) and DNA direct sequencing were used to detect the mutation of insulin receptor (INSR) gene in exon 17-21 with the abdominal wall adipose tissue from 31 patients with PCOS (PCOS Group) and 30 patients with pure hysteromyoma in reproductive lift (Control Group).Results Tiventy-two variant SSCP patterns in exon 17 of INSR gene were detected. Direct sequence analysis of exon 17 showed that homozygous nonsense mutation was two alleles single nucleotide polymorphism (SNP) at the codon 1058 (CAC→CAT). Exons 18-21were not detected with any significantly mutation. The INSR gene His1058C→ T substitution collecting rate and insulin resistance were significantly higher in the PCOS group than in the control group (P = 0. 0293, P<0. 05, P<0. 01). Conclusion It is suggested that the SNP in codon 1058 of the INSR gene might be related with the insulin resistance in PCOS patients, which has hereditary tendency. And the missense mutation,nonsense mutation and frameshift mutation at exons 18-21 in tyrosine protein kinase region of INSR gene for PCOS patients were not frequently observed.

Insulin receptors in the kidneys in health and disease

Insulin is an important hormone that affects various metabolic processes,including kidney function.Impairment in insulin's action leads to insulin resistance in the target tissue.Besides defects in post-receptor insulin signaling,impairment at the receptor level could significantly affect insulin sensitivity of the target tissue.The kidney is a known target of insulin;however,whether the kidney develops "insulin resistance" is debatable.Regulation of the insulin receptor(IR) expression and its function is very well studied in major metabolic tissues like liver,skeletal muscles,and adipose tissue.The physiological relevance of IRs in the kidney has recently begun to be clarified.The credit goes to studies that showed a wide distribution of IR throughout the nephron segments and their reduced expression in the insulin resistance state.Moreover,altered renal and systemic metabolism observed in mice with targeted deletion of the IR from various epithelial cells of the kidney has strengthened this proposition.In this review,we recapitulate the crucial findings from literature that have expanded our knowledge regarding the significance of the renal IR in normal-and insulin-resistance states.

Insulin-like growth factor receptor-1 overexpression is associated with poor response of rectal cancers to radiotherapy

AIM: To explore the potential correlation between insulin-like growth factor receptor-1 (IGF-1R) expression and rectal cancer radiosensitivity.

Ocular manifestations of central insulin resistance

Central insulin resistance, the diminished cellular sensitivity to insulin in the brain, has been implicated in diabetes mellitus, Alzheimer’s disease and other neurological disorders. However, whether and how central insulin resistance plays a role in the eye remains unclear. Here, we performed intracerebroventricular injection of S961, a potent and specific blocker of insulin receptor in adult Wistar rats to test if central insulin resistance leads to pathological changes in ocular structures. 80 mg of S961 was stereotaxically injected into the lateral ventricle of the experimental group twice at 7 days apart, whereas buffer solution was injected to the sham control group. Blood samples, intraocular pressure, trabecular meshwork morphology, ciliary body markers, retinal and optic nerve integrity, and whole genome expression patterns were then evaluated. While neither blood glucose nor serum insulin level was significantly altered in the experimental or control group, we found that injection of S961 but not buffer solution significantly increased intraocular pressure at 14 and 24 days after first injection, along with reduced porosity and aquaporin 4 expression in the trabecular meshwork, and increased tumor necrosis factor α and aquaporin 4 expression in the ciliary body. In the retina, cell density and insulin receptor expression decreased in the retinal ganglion cell layer upon S961 injection. Fundus photography revealed peripapillary atrophy with vascular dysregulation in the experimental group. These retinal changes were accompanied by upregulation of pro-inflammatory and pro-apoptotic genes, downregulation of anti-inflammatory, anti-apoptotic, and neurotrophic genes, as well as dysregulation of genes involved in insulin signaling. Optic nerve histology indicated microglial activation and changes in the expression of glial fibrillary acidic protein, tumor necrosis factor α, and aquaporin 4. Molecular pathway architecture of the retina revealed the three most significant pathways involved being inflammation/cell stress, insulin signaling, and extracellular matrix regulation relevant to neurodegeneration. There was also a multimodal crosstalk between insulin signaling derangement and inflammation-related genes. Taken together, our results indicate that blocking insulin receptor signaling in the central nervous system can lead to trabecular meshwork and ciliary body dysfunction, intraocular pressure elevation, as well as inflammation, glial activation, and apoptosis in the retina and optic nerve. Given that central insulin resistance my lead to neurodegenerative phenotype in the visual system, targeting insulin signaling may hold promise for vision disorders involving the retina and optic nerve.

Insulin-like growth factor-I receptor in proliferation and motility of pancreatic cancer

AIM:To develop a molecular therapy for pancreatic cancer, the insulin-like growth factor-I (IGF-I) signaling pathway was analyzed.METHODS: Pancreatic cancer cell lines (MIA-Paca2, NOR-P1, PANC-1, PK-45H, PK-1, PK-59 and KP-4) were cultured in media with 10 mL/L fetal bovine serum. Western blotting analysis was performed to clarify the expression of IGF-I receptor (IGF-IR). Picropodophyllin (PPP), a specific inhibitor of IGF-IR, LY294002, a specific inhibitor of phosphatidylinositol3 kinase (PI3K), and PD98059, a specific inhibitor of mitogen-activated protein kinase, were added to the media. After 72 h, a 3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium inner salt (MTS) assay was performed to analyze cell proliferation. A wound assay was performed to analyze cell motility with hematoxylin and eosin (HE) staining 48 h after addition of each inhibitor. RESULTS: All cell lines clearly expressed not only IGF-IR but also phosphorylated IGF-IR. PPP significantly suppressed proliferation of MIA-Paca2, NOR-P1, PANC-1, PK-45H, PK-1, PK-59 and KP-4 cells to 36.9% ± 2.4% (mean ± SD), 30.9% ± 5.5%, 23.8% ± 3.9%, 37.1% ± 5.3%, 10.4% ± 4.5%, 52.5% ± 4.5% and 22.6% ± 0.4%, at 2 μmol/L, respectively (P < 0.05). LY294002 significantly suppressed proliferation of MIA-Paca2, NOR-P1, PANC-1, PK-45H, PK-1, PK-59 and KP-4 cells to 44.4% ± 7.6%, 32.9% ± 8.2%, 53.9% ± 8.0%, 52.8% ± 4.0%, 32.3% ± 4.2%, 51.8% ± 4.5%, and 30.6% ± 9.4%, at 50 μmol/L, respectively (P < 0.05). PD98059 did not significantly suppress cell proliferation. PPP at 2 μmol/L suppressed motility of MIA-Paca2, NOR-P1, PANC-1, PK-45H, PK-1, PK-59 and KP-4 cells to 3.0% ± 0.2%, 0%, 0%, 2.0% ± 0.1%, 5.0% ± 0.2%, 3.0% ± 0.1%, and 5.0% ± 0.2%, respectively (P < 0.05). LY294002 at 50 μmol/L suppressed motility of MIA-Paca2, NOR-P1, PANC-1, PK-45H, PK-1, PK-59 and KP-4 to 3.0% ± 0.2%, 0%, 3.0% ± 0.2%, 0%, 0%, 0% and 3% ± 0.1%, respectively (P < 0.05). PD980509 at 20 μmol/L did not suppress motility. Cells were observed by microscopy to analyze the morphological changes induced by the inhibitors. Cells in medium treated with 2 μmol/L PPP or 50 μmol/L LY294002 had pyknotic nuclei, whereas those in medium with 20 μmol/L PD98059 did not show apoptosis.CONCLUSION: IGF-IR and PI3K are good candidates for molecular therapy of pancreatic cancer.

Role of Insulin-like Growth Factor II Receptor in Transdifferentiation of Free Silica-induced Primary Rat Lung Fibroblasts

Objective To study the role of insulin-like growth factor II receptor in free silica-induced transdifferentiation of primary rat lung fibroblasts Methods Rat lung fibroblasts and rat alveolar macrophages were cultured. A transdifferentiation model of primary rat lung fibroblasts was induced by free silica. Levels of a-SMA protein, IGF-liR protein and mRNA were measured by immunocytochemistry, Western blot and RT-PCR, respectively. Lung fibroblasts were treated with Wortmannin. Results The expression levels of a-SMA concentration and decreased after Wortmann and IGF-IIR increased with the increasing free silica n was used. Conclusion The IGF-IIR plays an important role in free silica-induced transdifferentiation of primary rat lung fibroblasts.

Binding Mode of Insulin Receptor and Agonist Peptide

Insulin is a protein hormone secreted by pancreatic β cells. One of its main functions is to keep the balance of glucose inside the body by regulating the absorption and metabolism of glucose in the periphery tissue, as well as the production and storage of hepatic glycogen. The insulin receptor is a transmembrane glycoprotein in which two a subunits with a molecular weight of 135 kD and two,8 subunits with a molecular weight of 95 kD are joined by a disulfide bond to form a β-α-α-β structure. The extracellular a subunit, especially, its three domains near the N-terminal are partially responsible for signal transduction or ligand-binding, as indicated by the experiments. The extracellular α subunits are involved in binding the ligands. The experimental results indicate that the three domains of the N-terminal of the a subunits are the main determinative parts of the insulin receptor to bind the insulin or mimetic peptide. We employed the extracellular domain（ PDBID： 1IGR） of the insulin-like growth factor-1 receptor （IGF-1R） as the template to simulate and optimize the spatial structures of the three domains in the extracellular domain of the insulin receptor, which includes 468 residues. The work was accomplished by making use of the homology program in the Insight Ⅱ package on an Origin3800 server. The docking calculations of the insulin receptor obtained by homology with hexapeptides were carried out by means of the program Affinity. The analysis indicated that there were hydrogen bonding, and electrostatic and hydrophobic effects in the docking complex of the insulin receptor with hexapeptides. Moreover, we described the spatial orientation of a mimetic peptide with agonist activity in the docking complex. We obtained a rough model of binding of DLAPSQ or STIVYS with the insulin receptor, which provides the powerful theoretical support for designing the minimal insulin mimetic peptide with agonist activity, making it possible to develop oral small molecular hypoglycemic drugs.

Direct observation of the autophosphorylation of insulin receptor kinase by mass spectrometry

The catalytic and signaling activities of insulin receptor kinase （IRK） are regulated by the autophosphorylation of three tyrosine residues in a cytoplasmic protein-tyrosine kinase domain at Tyro 1158, Tyro 1162 and Tyro 1163. In this study, time-course of the auphosphorylation of the core kinase （residues 978-1283） from IRK was directly investigated by online electrospray ionization mass spectrometry. It is found that two tyrosine residues were phosphorylated in reaction time range of 30 min. This study implies that mass spectrometric technique must be a powerful tool to directly monitor the biological macromolecular modification and will also provide the information of the order and the mechanism of autophosphorylation at the tyrosine sites coupled with tandem mass spectrometric technique.

Insulin receptor is implicated in triple-negative breast cancer by decreasing cell mobility

Triple-negative breast cancer(TNBC)has a poor prognosis and typically earlier onset of metastasis in comparison with other breast cancer subtypes.It has been reported that insulin receptor(INSR)is downregulated in TNBC,however,its clinical significance and functions in TNBC remain to be elucidated.In this study,we found that INSR expression was significantly downregulated in TNBC,and overexpression of INSR suppressed cell migration and invasion in TNBC.In addition,the survival rate of breast cancer patients with low INSR expression was lower than that of patients with high INSR expression.INSR expression was significantly correlated with lymph node metastasis,clinical tumor stages,ER status,PR status,and the proliferation index Ki-67 expression.In summary,our study suggests that INSR may serve as a biomarker for breast cancer prognosis and it may be a potential target for TNBC treatment.

Insulin receptor substrate 1 may play divergent roles in human colorectal cancer development and progression

BACKGROUND Despite effective prevention and screening methods,the incidence and mortality rates associated with colorectal cancer(CRC)are still high.Insulin receptor substrate 1(IRS-1),a signaling molecule involved in cell proliferation,survival and metabolic responses has been implicated in carcinogenic processes in various cellular and animal models.However,the role of IRS-1 in CRC biology and its value as a clinical CRC biomarker has not been well defined.AIM To evaluate if and how IRS-1 expression and its associations with the apoptotic and proliferation tumor markers,Bax,Bcl-xL and Ki-67 are related to clinicopathological features in human CRC.METHODS The expression of IRS-1,Bax,Bcl-xL and Ki-67 proteins was assessed in tissue samples obtained from 127 patients with primary CRC using immunohistochemical methods.The assays were performed using specific antibodies against IRS-1,Bax,Bcl-xL,Ki-67.The associations between the expression of IRS-1,Bax,Bcl-xL,Ki-67 were analyzed in relation to clinicopathological parameters,i.e.,patient age,sex,primary localization of tumor,histopathological type,grading,staging and lymph node spread.Correlations between variables were examined by Spearman rank correlation test and Fisher exact test with a level of significance at P<0.05.RESULTS Immunohistochemical analysis of 127 CRC tissue samples revealed weak cytoplasmatic staining for IRS-1 in 66 CRC sections and strong cytoplasmatic staining in 61 cases.IRS-1 expression at any level in primary CRC was associated with tumor grade(69%in moderately differentiated tumors,G2 vs 31%in poorly differentiated tumors,G3)and with histological type(81.9%in adenocarcinoma vs 18.1%in adenocarcinoma with mucosal component cases).Strong IRS-1 positivity was observed more frequently in adenocarcinoma cases(95.1%)and in moderately differentiated tumors(85.2%).We also found statistically significant correlations between expression of IRS-1 and both Bax and Bcl-xL in all CRC cases examined.The relationships between studied proteins were related to clinicopathological parameters of CRC.No significant correlation between the expression of IRS-1 and proliferation marker Ki-67,excluding early stage tumors,where the correlation was positive and on a high level(P=0.043,r=0.723).CONCLUSION This study suggests that IRS-1 is co-expressed with both pro-and antiapoptotic markers and all these proteins are more prevalent in more differentiated CRC than in poorly differentiated CRC.

A candidate targeting molecule of insulin-like growth factor-Ⅰ receptor for gastrointestinal cancers

Advances in molecular research in cancer have brought new therapeutic strategies into clinical usage.One new group of targets is tyrosine kinase receptors,which can be treated by several strategies,including small molecule tyrosine kinase inhibitors(TKIs) and monoclonal antibodies(mAbs).Aberrant activation of growth factors/receptors and their signal pathways are required for malignant transformation and progression in gastrointestinal(GI) carcinomas.The concept of targeting specif ic carcinogenic receptors has been validated by successful clinical application of many new drugs.Type I insulin-like growth factor(IGF) receptor(IGF-IR) signaling potently stimulates tumor progression and cellular differentiation,and is a promising new molecular target in human malignancies.In this review,we focus on this promising therapeutic target,IGF-IR.The IGF/IGF-IR axis is an important modifier of tumor cell proliferation,survival,growth,and treatment sensitivity in many malignant diseases,including human GI cancers.Preclinical studies demonstrated that downregulation of IGF-IR signals reversed the neoplastic phenotype and sensitized cells to anticancer treatments.These results were mainly obtained through our strategy of adenoviruses expressing dominant negative IGF-IR(IGF-IR/dn) against gastrointestinal cancers,including esophagus,stomach,colon,and pancreas.We also summarize a variety of strategies to interrupt the IGFs/IGF-IR axis and their preclinical experiences.Several mAbs and TKIs targeting IGF-IR have entered clinical trials,and early results have suggested that these agents have generally acceptable safety profiles as single agents.We summarize the advantages and disadvantages of each strategy and discuss the merits/demerits of dual targeting of IGF-IR and other growth factor receptors,including Her2 and the insulin receptor,as well as other alternatives and possible drug combinations.Thus,IGF-IR might be a candidate for a molecular therapeutic target in human GI carcinomas.

Effect of Insulin on the Differential Expression of VLDL Receptor Isoforms of SGC7901 Cell and Its Biological Implication

This study examined the effect of insulin on the expression of very low density lipoprotein receptor (VLDLR) subtypes of SGC7901 cells and discussed its biological implication.In vitro, moderately or poorly-differentiated human gastric adenocarcinoma cell line SGC7901 was incubated with insulin for different lengths of time, and then the expression of protein and RNA level in VLDLR subtypes were detected by Western blotting and real-time PCR, respectively.The results showed that, at certain time interval, insulin could down-regulate expression of type Ⅰ VLDLR and up-regulate the expression of type Ⅱ VLDLR in SGC7901 cells, at both protein and RNA level.We are led to conclude that insulin serves as a regulator in maintaining the balance between glucose and lipid metabolism in vivo, possibly through its effect on the differential expression of VLDLR subtypes.

Expression of insulin-like growth factor Ⅱ and its receptor in liver cells of chronic liver diseases

AIM To clarify the relationship between the Insulin like growth factor Ⅱ (IGF Ⅱ), IGF Ⅱ receptor and chronic liver diseases and to provide evidences for basic and clinical researches for exploring the potential mechanisms of human hepatocellular carcinoma (HCC). METHODS The poly (A)+ mRNA translation of IGF Ⅱ and IGF Ⅱ receptor in dysplasia liver cell (DLC n =10), liver cirrhosis (LC n =9) and chronic active hepatitis (CAH n =9) were analyzed with RNA gel electrophoresis, Northern blot and hybridization using human IGF Ⅱ and IGF Ⅱ receptor DNA probes labelled with 32 P through Nick translation and autoradiography. RESULTS The overexpression of IGF Ⅱ in DLC (10/10, 100%) was apparently higher than that in CAH (3/9, 33%) and LC (3/9, 33%), ( P <0 01). The overexpression of IGF Ⅱ receptor in DLC (7/10, 70%) was significantly higher than that in CAH (2/9, 22%) and LC (3/9, 33%), respectively. The data of HBV infection from different chronic liver diseases were analyzed. CONCLUSION The overexpression of IGF Ⅱ and IGF Ⅱ receptor in DLC was related to the preceeding of malignant phenotype of hepatocyte, which provided a diagnostic value for early detection of hepatocellular carcinoma (HCC). Persistent HBV infection is strongly associated with abnormal activation of IGF Ⅱ and IGF Ⅱ receptor, which might indicate a stimulating mechanism of autocrine or paracrine growth involved in live cell carcinogenesis.