不同浓度HGF、EGF优化大鼠胎肝干细胞体外培养的研究

目的:研究不同浓度肝细胞生长因子(Hepatocyte growth factor,HGF)和表皮生长因子(epidermal growth factor,EGF)对大鼠胎肝干细胞体外增殖的影响,探索二者间有无协同作用.方法:取孕14天胎龄F344大鼠胚胎的胎肝,经三步分离法分离纯化后,配置不同浓度HGF、EGF及HGF和EGF联合组培养基,将胎肝干细胞分组培养.光镜下观察细胞增殖状况,MTT法观察不同浓度和不同时间HGF、EGF及HGF和EGF联合对大鼠胎肝干细胞增殖的影响,并进行统计学分析.结果:HGF 10～80 ng/mL各浓度组,EGF 10～80 ng/mL各浓度组增殖效应均大于对照组.当HGF为20ng/mL,增殖效应明显大于对照组(P＜0.01),当HGF浓度继续增高时,增殖效应无明显增高.将20 ng/mL HGF组与不同浓度EGF组合后分组培养细胞,发现20 ng/ml HGF和10 ng/mLEGF联合组增殖效应明显升高,继续升高联合组中EGF浓度,增殖效应无明显提高.结论:HGF和EGF具有明显改善大鼠胎肝干细胞体外无血清培养条件的作用,二者对大鼠胎肝干细胞体外培养具有协同促进作用.其中20 ng/mL HGF和10 ng/mL EGF联合培养促进大鼠胎肝干细胞增殖效果最明显.     

Conditional Genetic Elimination of Hepatocyte Growth Factor in Mice Compromises Liver Regeneration after Partial Hepatectomy

Hepatocyte growth factor (HGF) has been shown to be indispensable for liver regeneration because it serves as a main mitogenic stimulus driving hepatocytes toward proliferation. We hypothesized that ablating HGF in adult mice would have a negative effect on the ability of hepatocytes to regenerate. Deletion of the HGF gene was achieved by inducing systemic recombination in mice lacking exon 5 of HGF and carrying the Mx1-cre or Cre-ER^T transgene. Analysis of liver genomic DNA from animals 10 days after treatment showed that a majority (70–80%) of alleles underwent cre-induced genetic recombination. Intriguingly, however, analysis by RT-PCR showed the continued presence of both unrecombined and recombined forms of HGF mRNA after treatment. Separation of liver cell populations into hepatocytes and non-parenchymal cells showed equal recombination of genomic HGF in both cell types. The presence of the unrecombined form of HGF mRNA persisted in the liver in significant amounts even after partial hepatectomy (PH), which correlated with insignificant changes in HGF protein and hepatocyte proliferation. The amount of HGF produced by stellate cells in culture was indirectly proportional to the concentration of HGF, suggesting that a decrease in HGF may induce de novo synthesis of HGF from cells with residual unrecombined alleles. Carbon tetrachloride (CCl4)-induced regeneration resulted in a substantial decrease in preexisting HGF mRNA and protein, and subsequent PH led to a delayed regenerative response. Thus, HGF mRNA persists in the liver even after genetic recombination affecting most cells; however, PH subsequent to CCl4 treatment is associated with a decrease in both HGF mRNA and protein and results in compromised liver regeneration, validating an important role of this mitogen in hepatic growth.     

Synergistic Signaling of Tumor Cell Invasiveness by Hepatocyte Growth Factor and Hypoxia

Hepatocyte growth factor (HGF) signaling promotes tumor invasiveness in renal cell carcinoma (RCC) and other cancers. In clear cell RCC, VHL loss generates pseudohypoxia that exacerbates HGF-driven invasion through β-catenin deregulation. Hypoxia also enhances HGF-driven invasiveness by papillary RCC cells, but in the absence of VHL, loss signaling integration involves three parallel routes: 1) hypoxia-induced reactive oxygen species production and decreased DUSP2 expression, leading to enhanced mitogen-activated protein kinase (MAPK) cascade activation; 2) reactive oxygen species-induced diacylglycerol production by phospholipase Cγ, leading to protein kinase C activation and increased protein phosphatase-2A activity, thereby suppressing HGF-induced Akt activation; and 3) a profound shift from HGF-enhanced, proliferation-oriented metabolism to autophagy-dependent invasion and suppression of proliferation. This tripartite signaling integration was not unique to RCC or HGF; in RCC cells, invasive synergy induced by the combination of hypoxia and epidermal growth factor occurred through the same mechanism, and in estrogen receptor-positive breast cancer cells, this mechanism was suppressed in the absence of estrogen. These results define the molecular basis of growth factor and hypoxia invasive synergy in VHL-competent papillary RCC cells, illustrate the plasticity of invasive and proliferative tumor cell states, and provide signaling profiles by which they may be predicted.     

肝细胞生长因子在神经系统的研究进展

肝细胞生长因子是一多效性细胞因子。在神经系统发育和再生过程中,肝细胞生长因子作为神经营养因子发挥作用。本文就肝细胞生长因子的分子生物学特性以及在神经系统中的分布和生物学作用进行综述。     

Association of the Hepatocyte Growth Factor Gene with Keratoconus in an Australian Population

Purpose

A previous study has indicated suggestive association of the hepatocyte growth factor (HGF) gene with Keratoconus. We wished to assess this association in an independent Caucasian cohort as well as assess its association with corneal curvature.

Participants

Keratoconus patients were recruited from private and public clinics in Melbourne, Australia. Non-keratoconic individuals were identified from the Genes in Myopia (GEM) study from Australia. A total of 830 individuals were used for the analysis including 157 keratoconic and 673 non keratoconic subjects.

Methods

Tag single nucleotide polymorphisms (tSNPs) were chosen to encompass the hepatocyte growth factor gene as well as 2 kb upstream of the start codon through to 2 kb downstream of the stop codon. Logistic and linear regression including age and gender as covariates were applied in statistical analysis with subsequent Bonferroni correction.

Results

Ten tSNPs were genotyped. Following statistical analysis and multiple testing correction, a statistically significant association was found for the tSNP rs2286194 {p = 1.1×10-³ Odds Ratio 0.52, 95% CI - 0.35, 0.77} for keratoconus. No association was found between the 10 tSNPs and corneal curvature.

Conclusions

These findings provide additional evidence of significant association of the HGF gene with Keratoconus. This association does not appear to act through the corneal curvature route.     

Regulation of Astrocytic Tenascin by Basic Fibroblast Growth Factor

Extracellular matrix (ECM) molecules have been implicated in the regulation of neuronal adhesion and neurite outgrowth both during development and after injury. It has been demonstrated in our laboratory that astrocytes are heterogenous in expression of the ECM molecule tenascin. High-tenascin astrocytes have a reduced ability to support neurite outgrowth. In addition, astrocytes treated with exogenous basic fibroblast growth factor (bFGF) supported reduced neuronal growth and adhesion. In the current study, the hypothesis was tested that bFGF could increase the expression of tenascin by these cells. Basic FGF was added to cultures of rat cerebral cortical astrocytes at concentrations of up to 30 ng/ml, concentrations shown to have a significant effect on neuronal adhesion. Tenascin levels were evaluated by Western blot analysis of both cell extracts and conditioned media and also by immunocytochemistry techniques. Tenascin levels began to increase after 24-48 hr and continued to increase throughout 8 days in culture. The increase in tenascin was concentration-dependent, with the largest increase seen at 5 ng/ml bFGF. Tenascin production was increased approximately 5.5-fold in serum-containing medium but only about 2-fold in serum-free medium. When heparin (10 μg/ml) was included along with bFGF in serum-free medium, tenascin production was further enhanced. The bFGF treatment was discontinued after 8 days, and the cells were maintained for an additional 8 days in culture. Tenascin levels returned to control values, demonstrating that the bFGF effect is transient. It is our hypothesis that the action of bFGF during injury may evoke the induction of tenascin on astrocytes, thereby reducing regeneration in the central nervous system.     

Hepatocyte Growth Factor Signaling in Intrapancreatic Ductal Cells Drives Pancreatic Morphogenesis

In a forward genetic screen for regulators of pancreas development in zebrafish, we identified donut^s908, a mutant which exhibits failed outgrowth of the exocrine pancreas. The s908 mutation leads to a leucine to arginine substitution in the ectodomain of the hepatocyte growth factor (HGF) tyrosine kinase receptor, Met. This missense mutation impedes the proteolytic maturation of the receptor, its trafficking to the plasma membrane, and diminishes the phospho-activation of its kinase domain. Interestingly, during pancreatogenesis, met and its hgf ligands are expressed in pancreatic epithelia and mesenchyme, respectively. Although Met signaling elicits mitogenic and migratory responses in varied contexts, normal proliferation rates in donut mutant pancreata together with dysmorphic, mislocalized ductal cells suggest that met primarily functions motogenically in pancreatic tail formation. Treatment with PI3K and STAT3 inhibitors, but not with MAPK inhibitors, phenocopies the donut pancreatic defect, further indicating that Met signals through migratory pathways during pancreas development. Chimera analyses showed that Met-deficient cells were excluded from the duct, but not acinar, compartment in the pancreatic tail. Conversely, wild-type intrapancreatic duct and “tip cells” at the leading edge of the growing pancreas rescued the donut phenotype. Altogether, these results reveal a novel and essential role for HGF signaling in the intrapancreatic ducts during exocrine morphogenesis.     

结缔组织生长因子对血管生成和细胞功能的调节

结缔组织生长因子(CTGF)是CCN家族的主要成员,是研究较多的CCN蛋白之一。CTGF能促进细胞的增殖、存活、迁移和黏附,调节血管生成分子(bFGF,VEGF)以及一些影响胞外基质完整性和稳定性的分子(胶原、MMPs和TIMPs)的活性。CTGF可以在多个控制位点采取直接或间接的机制调控细胞功能和血管生成。结合新的发现和新的视点,阐述CTGF对细胞功能和血管生成的调控作用以及与肿瘤生长的关系。     

肝细胞生长因子抗肾纤维化研究进展

慢性肾脏疾病患者的肾功能会随时间的推移而进行性恶化,肾实质细胞进行性丧失及细胞外基质蛋白过度沉积将导致肾纤维化形成,肾纤维化进行性发展将最终走向终末期肾衰竭。肝细胞生长因子(HGF)及其受体c-Met对肾发育和急性肾损伤后的肾脏再生修复具有重要作用,在慢性肾衰竭及肾纤维化时,HGF还具有营养肾脏及抗肾纤维化的作用。简要综述了HGF抑制肾纤维化形成的细胞分子机制的研究进展,提示HGF在治疗肾纤维化方面所具有的前景。     

重组人肝细胞生长因子真核表达的定性及定量检测

将人肝细胞生长因子（human hepatocyte growth factor hHGF)全长cDNA重组入pEE14真稳定表达质粒,用lipofectin脂质体将pEE14/rhHGF转染入CHO－K1细胞,蛋氨酸亚氨基代砜（methionine sulfoximine,MSX)筛选出阳性细胞克隆,利用RT－PCR检测rhHGF mRNA的表达通过ELISA法测定rhHGF的蛋白表达,3H掺入法检测培养上清液对大鼠原代培养肝细胞DNA合成的影响,结果表明转染pEE14/rhHGF的细胞可扩增出hHGF特异的396bp RT-PCR片段,培养上清液明显促进大鼠肝细胞DNA的合成,ELISA法测出上清液中,rhHGF的含量在8ug/L以上,显示rhHGF在CHO细胞中以活性形式得到表达。     

Regulation by Interleukin-1 of Nerve Growth Factor Secretion and Nerve Growth Factor mRNA Expression in Rat Primary Astroglial Cultures

Primary cultures of neonatal rat cortical astrocytes contain low cellular levels (about 2 pg/mg of protein) of nerve growth factor (NGF), but secrete significant amounts of NGF into the culture medium (about 540 pg of NGF/mg of cell protein/38-h incubation). Incubation of astrocytes with interleukin-1 (IL-1) increased the cellular content of NGF and the amount secreted by about threefold. In comparison, cerebellar astrocytes secreted significant amounts of NGF, and the secretion was also stimulated by IL-1. The stimulatory action of IL-1 on astrocytes prepared from cortex was dose- and time-dependent. Concentrations of IL-1 causing half-maximal and maximal stimulation of NGF secretion were 1 and 10 U/ml, respectively). Maximal NGF secretion induced by IL-1 (10 U/ml) was seen following 38 h of incubation. The basal secretion of NGF was reduced by about 50% under Ca2(+)-free conditions; however, the percent stimulation of NGF secretion by IL-1 was the same in the absence or presence of Ca2+. The stimulatory action of IL-1 was specific, because other glial growth factors and cytokines were almost ineffective in stimulating NGF secretion from cortical astroglial cells. IL-1 treatment also increased cellular NGF mRNA content twofold. The results indicate that IL-1 specifically triggers a cascade of events, independent of cell growth, which regulate NGF mRNA content and NGF secretion by astrocytes.     

Regulation of Lens Gap Junctions by Transforming Growth Factor Beta

Gap junction–mediated intercellular communication (GJIC) is essential for the proper function of many organs, including the lens. GJIC in lens epithelial cells is increased by FGF in a concentration-dependent process that has been linked to the intralenticular gradient of GJIC required for lens transparency. Unlike FGF, elevated levels of TGF-β are associated with lens dysfunction. We show that TGF–β1 or -2 up-regulates dye coupling in serum-free primary cultures of chick lens epithelial cells (dissociated cell-derived monolayer cultures [DCDMLs]) via a mechanism distinct from that utilized by other growth factors. Remarkably, the ability of TGF-β and of FGF to up-regulate GJIC is abolished if DCDMLs are simultaneously exposed to both factors despite undiminished cell–cell contact. This reduction in dye coupling is attributable to an inhibition of gap junction assembly. Connexin 45.6, 43, and 56–containing gap junctions are restored, and intercellular dye coupling is increased, if the activity of p38 kinase is blocked. Our data reveal a new type of cross-talk between the FGF and TGF-β pathways, as well as a novel role for TGF-β and p38 kinase in the regulation of GJIC. They also provide an explanation for how pathologically increased TGF-β signaling could contribute to cataract formation.     

Acute Regulation of the Epidermal Growth Factor Receptor in Response to Nerve Growth Factor

PC12 cells possess specific receptors for both nerve growth factor and epidermal growth factor, and by an unknown mechanism, nerve growth factor is able to attenuate the propagation of a mitogenic response to epidermal growth factor. The differentiation response of PC12 cells to nerve growth factor, therefore, predominates over the proliferative response to epidermal growth factor. We have observed that the addition of nerve growth factor to PC12 cells rapidly produces a decrease in surface 125I-epidermal growth factor binding capacity. Unlike previously described nerve growth factor effects on 125I-epidermal growth factor binding capacity, which required several days of nerve growth factor exposure, the decreases we report occur within minutes of nerve growth factor addition: A 50% decrease in 125I-epidermal growth factor binding capacity is evident at 10 min. This rapid nerve growth factor response is concentration dependent; inhibition of 125I-epidermal growth factor binding is detectable at nerve growth factor levels as low as 0.2 ng/ml and is maximal at approximately 50 ng/ml, consistent with known ranges of biological activity. No demonstrable differences in the rate of epidermal growth factor receptor synthesis or degradation were observed in cells acutely exposed to nerve growth factor. Scatchard analysis revealed that acute nerve growth factor treatment decreased the number of both high- and low-affinity 125I-epidermal growth factor binding sites, while the receptor affinity remained unchanged. We have also investigated the involvement of various potential intracellular mediators of nerve growth factor action and of known intracellular modulatory systems of the epidermal growth factor receptor for their capacity to participate in this nerve growth factor activity.     

Regulation of Growth Inhibitory Factor Expression by Epidermal Growth Factor and Interleukin-1β in Cultured Rat Astrocytes

Growth inhibitory factor (GIF) is highly expressed in the CNS under physiological conditions, but its expression is reduced in neurodegenerative diseases, such as Alzheimer's disease. The results of this study show that the levels of GIF and GIF mRNA were not influenced by neuroglial interactions. GIF was highly expressed in confluent astrocytes, but the expression was down-regulated in low-density growing astrocytes. A high level of GIF was not observed in serum-starved low-density cultures. These findings suggest that GIF is a quiescent state-specific protein and that two different mechanisms may exist for the cells to enter the quiescent state. Among interleukin-1beta (IL-1beta), fibroblast growth factor-2, epidermal growth factor (EGF), amyloid beta1-42, and 50% O2, only EGF and IL-1beta altered the level of GIF in confluent astrocytes: EGF increased both GIF mRNA and protein, and IL-1beta decreased GIF mRNA, but did not alter GIF protein. Kinetic analysis of the GIF mRNA level revealed the biphasic regulation of GIF mRNA expression by IL-1beta, i.e., a transient up-regulation followed subsequently by down-regulation, explaining in part the discrepancy between the levels of GIF mRNA and protein in astrocytes treated with IL-1beta.     

Hepatocyte Growth Factor (HGF)-Induced Cell Migration Is Negatively Modulated by Epidermal Growth Factor through Tyrosine Phosphorylation of the HGF Receptor

Hepatocyte growth factor (HGF) stimulated cell migration of human gastric carcinoma cell lines MKN1, MKN7, and MKN28. Epidermal growth factor (EGF) also stimulated the cell migration of these three cell lines. In MKN7 cells, HGF-stimulated cell migration was rather reduced in the presence of EGF, whereas such an observation was not made with MKN1 and MKN28 cells. Therefore, we compared the effect of EGF on HGF-stimulated HGF receptor phosphorylation in these cell lines. HGF induced a rapid tyrosine phosphorylation of the HGF receptor in all these cell lines. In MKN7 cells, the increased phosphorylation was further enhanced by EGF, although EGF alone did not affect tyrosine phosphorylation of the HGF receptor. In MKN1 and MKN28 cells, EGF did not influence tyrosine phosphorylation of the HGF receptor, whether HGF was present or not. The data presented here suggest that EGF negatively modulates the cellular response to HGF by increasing tyrosine phosphorylation of the HGF receptor in certain types of epithelial cells, e.g., MKN7 cells.     

Hepatocyte Growth Factor Genetic Variations and Primary Angle-Closure Glaucoma in the Han Chinese Population

Purpose

The aim of this study is to examine whether or not hepatocyte growth factor (HGF) genetic variations are associated with susceptibility to primary angle-closure glaucoma (PACG) in the Han Chinese population.

Methods

Three single-nucleotide polymorphisms (SNPs)–rs5745718, rs17427817, and rs3735520–in the HGF gene were genotyped in 238 adult patients with PACG and 287 age-, sex-, and ethnically matched healthy controls by using a polymerase chain reaction restriction fragment length polymorphism assay. Data was analyzed by χ² analysis.

Results

The three tested analyzed polymorphisms in the HGF gene were in Hardy-Weinberg equilibrium, in all the subjects. The frequencies of the genotype and allele of rs5745718 and rs1742817 in the HGF gene were significantly different between the PACG patients and the controls. On one hand, the frequencies of the CC genotype and C allele of rs5745718 were significantly decreased in PACG patients compared with controls (P_c = 1.40×10⁻³; P_c = 3.21×10⁻⁴, respectively); however, on the other hand, significantly decreased frequencies of the GG genotype and the G allele of rs17427817 were observed in PACG patients compared with the controls (P_c = 0.006,; P_c = 6.06×10⁻⁴, respectively). A comparison of the distributions of the genotypes and alleles of rs3735520 showed no statistically significant differences between the PACG patients and the controls (p_c>0.05). The haplotype analysis results showed that the CGC haplotype frequency was significantly decreased in the patients with PACG compared with the controls (p_c<0.001). No difference was detected between the patients and the controls with regard to the other haplotypes.

Conclusions

Our study suggests that rs5745718 and rs17427817 are associated with a decreased risk of PACG in the Chinese Han population. The CGC haplotype was demonstrated to possibly play a protective role against PACG in this population.     

Hepatocyte Growth Factor Induces Transglutaminase Activity That Negatively Regulates the Growth Signal in Primary Cultured Hepatocytes

Transglutaminase (TGase) activity increased 2.5-fold at 6 h after treatment of rat hepatocytes with 117 nMhepatocyte growth factor (HGF). In the same manner, putrescine incorporation into proteins of cells occurred in HGF-treated cells but did not in those pretreated with monodansylcadaverine (MDC), a TGase inhibitor, even in the presence of HGF. These results suggest that HGF-induced TGase was active and catalyzed some cross-linkage reaction. Cycloheximide completely blocked the increase in TGase activity induced by HGF, suggesting that HGF stimulatedde novosynthesis of TGase within 6 h. Both [³⁵S]methionine incorporation and Northern blotting analyses supported this possibility. Pretreatment of cells with MDC additionally increased HGF-induced DNA synthesis and the ratio of cells in S-phase. Similarly, TGase antisense oligonucleotide inhibitedde novosynthesis of TGase, resulting in increase in the ratio of S-phase cells in the presence of HGF. Analyses of cross-linking of HGF to the receptor indicated that the antisense oligonucleotide inhibited the downregulation of HGF receptor subsequent to HGF-addition. These results provide the first evidence for inducibility ofde novosynthesis of TGase by HGF and suggest that TGase negatively regulates the growth signal of HGF through the downregulation of receptor.