慢病毒介导的RNA干涉对乳腺癌SKBR3细胞HER2受体的下调及生长抑制

大约30％的乳腺癌中有表皮生长因子受体家族蛋白HER2的过表达,此类癌症的预后差,恶性程度高。RNA干涉（RNAi）是最近发展起来能特异性抑制哺乳动物细胞中基因表达的新技术。本文在以往获得的能够产生良好基因沉默效应的小干涉RNA（siRNA）的基础上,构建了U6和H1双启动子siRNA表达载体,并转染HER2高表达乳腺癌SKBR3细胞定量测定了其HER2下调效应。随后,siRNA表达盒经LR重组反应被克隆入慢病毒载体中,在成功包装成病毒后,感染SKBR3并经荧光定量PCR、蛋白印迹杂交和流式细胞仪一系列实验证明慢病毒介导的RNAi确实能有效地下调肿瘤抗原HER2的表达。细胞长期增殖实验表明经慢病毒处理后细胞生长得到抑制。我们的研究为进一步阐明HER2与癌症恶化的关系以及发展新的基因治疗药物提供了工具和可能。     

Calmodulin binds HER2 and modulates HER2 signaling

Human epidermal growth factor receptor 2 (HER2), a member of the ErbB family of receptor tyrosine kinases, has defined roles in neoplastic transformation and tumor progression. Overexpression of HER2 is an adverse prognostic factor in several human neoplasms and, particularly in breast cancer, correlates strongly with a decrease in overall patient survival. HER2 stimulates breast tumorigenesis by forming protein-protein interactions with a diverse array of intracellular signaling molecules, and evidence suggests that manipulation of these associations holds therapeutic potential. To modulate specific HER2 interactions, the region(s) of HER2 to which each target binds must be accurately identified. Calmodulin (CaM), a ubiquitously expressed Ca²⁺ binding protein, interacts with multiple intracellular targets. Interestingly, CaM binds the juxtamembrane region of the epidermal growth factor receptor, a HER2 homolog. Here, we show that CaM interacts, in a Ca²⁺-regulated manner, with two distinct sites on the N-terminal portion of the HER2 intracellular domain. Deletion of residues 676-689 and 714-732 from HER2 prevented CaM-HER2 binding. Inhibition of CaM function or deletion of the CaM binding sites from HER2 significantly decreased both HER2 phosphorylation and HER2-stimulated cell growth. Collectively, these data suggest that inhibition of CaM-HER2 interaction may represent a rational therapeutic strategy for the treatment of patients with breast cancer. This article is part of a Special Issue entitled: 11th European Symposium on Calcium.     

The promoter of the human gene for insulin-like growth factor binding protein-1. Basal promoter activity in HEP G2 cells depends upon liver factor B1.

Characterization of the human insulin-like growth factor binding protein-1 (IGFBP-1) promoter was initiated to facilitate study of developmental and hormonal factors regulating IGFBP-1 production. The region immediately 5' to the IGFBP-1 mRNA capsite is typical of a eukaryotic promoter, with a TATA sequence beginning 28 base pairs (bp) and a CCAAT promoter element beginning 72 bp upstream from this capsite. A 1.3-kilobase insert containing the IGFBP-1 capsite and 1205 bp of this putative IGFBP-1 promoter region directs expression of the reporter gene chloramphenicol acetyltransferase (CAT) in an orientation-specific manner in transfected HEP G2 cells, and the capsite identified for the CAT mRNA is identical to that identified for native IGFBP-1 mRNA. These observations suggest that the 1.3-kilobase insert contains the IGFBP-1 promoter. This promoter was further characterized by deletion analysis, site-directed mutagenesis, gel mobility shift assays, and DNaseI protection assays. These studies identify the CCAAT box region as the major cis element involved in basal IGFBP-1 promoter activity in HEP G2 cells, demonstrate that increased basal promoter activity is associated with the binding of at least one HEP G2 nuclear factor to the CCAAT box region, and indicate that the DNA binding factor(s) responsible for increased basal promoter activity is related to liver factor B1. These observations suggest that liver B1 is the major trans-acting factor stimulating basal IGFBP-1 promoter activity in HEP G2 cells.     

HER2/ErbB2 receptor signaling in rat and human prolactinoma cells: strategy for targeted prolactinoma therapy

Dopamine agonist resistance or intolerance is encountered in approximately 20% of prolactinoma patients. Because human epidermal growth factor receptor 2 (HER2)/ErbB2 is overexpressed in prolactinomas and ErbB receptor ligands regulate prolactin (PRL) gene expression, we tested the role of HER2/ErbB2 in prolactinoma hormone regulation and adenoma cell proliferation to assess the rationale for targeting this receptor for prolactinoma therapy. As we showed prolactinoma HER2 overexpression, we generated constitutively active HER2-stable GH3 cell transfectants (HER2CA). PRL mRNA levels were induced approximately 250-fold and PRL secretion was enhanced 100-fold in HER2CA cells, which also exhibited increased proliferation. Lapatinib, a dual tyrosine kinase inhibitor (TKI) of both epidermal growth factor receptor (EGFR)/ErbB1 and HER2, blocked receptor signaling, and suppressed PRL expression more than gefitinib, a TKI of EGFR/ErbB1. Lapatinib also suppressed colony formation in soft agar more than gefitinib. Oral lapatinib treatment caused tumor shrinkage and serum PRL suppression both in HER2CA transfectant-inoculated Wistar-Furth rats and in estrogen-induced Fischer344 rat prolactinomas. In cultured human cells derived from resected prolactinoma tissue, lapatinib suppressed both PRL mRNA expression and secretion. These results demonstrate that prolactinoma HER2 potently induces PRL and regulates experimental prolactinoma cell proliferation. Because pituitary HER2 signaling is abrogated by TKIs, this receptor could be an effective target for prolactinoma therapy.     

EGFR基因启动子区甲基化状态分析

表皮生长因子受体(epidermal growth factor receptor,EGFR)是HER/ERB-B跨膜受体激酶家族成员之一.EGFR的过表达促进细胞的增殖、存活和迁移,与许多实体瘤病人的低存活率相关.EGFR的表达受其启动子DNA甲基化调控.EGFR的转录沉默与CpG岛高甲基化相关.EGFR基因5′调控区包括1个富含GC的启动子,缺保守序列TATA盒和CAAT盒,有多个位点可以起始转录.本实验运用Bisulfite Sequencing PCR(BSP)方法检测了2种肿瘤细胞HeLa(EGFR+)和K562(EGFR)EGFR基因-1300～+600的甲基化状态.所检测目的片段共包含178个CpG位点.发现EGFR阳性与EGFR阴性两种细胞系的甲基化状态不同:宫颈癌细胞系HeLa转录起始点附近包括第一外显子区(-244～+91)处于非甲基化状态,白血病细胞系K562转录起始点附近包括第一外显子区呈嵌合性的高甲基化状态.因此,第一外显子比启动子区的甲基化状态更能反映基因的活化状况.     

The SH2 domain protein GRB-7 is co-amplified, overexpressed and in a tight complex with HER2 in breast cancer.

SH2 domain proteins are important components of the signal transduction pathways activated by growth factor receptor tyrosine kinases. We have been cloning SH2 domain proteins by bacterial expression cloning using the tyrosine phosphorylated C-terminus of the epidermal growth factor receptor as a probe. One of these newly cloned SH2 domain proteins, GRB-7, was mapped on mouse chromosome 11 to a region which also contains the tyrosine kinase receptor, HER2/erbB-2. The analogous chromosomal locus in man is often amplified in human breast cancer leading to overexpression of HER2. We find that GRB-7 is amplified in concert with HER2 in several breast cancer cell lines and that GRB-7 is overexpressed in both cell lines and breast tumors. GRB-7, through its SH2 domain, binds tightly to HER2 such that a large fraction of the tyrosine phosphorylated HER2 in SKBR-3 cells is bound to GRB-7. GRB-7 can also bind tyrosine phosphorylated SHC, albeit at a lower affinity than GRB2 binds SHC. We also find that GRB-7 has a strong similarity over > 300 amino acids to a newly identified gene in Caenorhabditis elegans. This region of similarity, which lies outside the SH2 domain, also contains a pleckstrin homology domain. The presence of evolutionarily conserved domains indicates that GRB-7 is likely to perform a basic signaling function. The fact that GRB-7 and HER2 are both overexpressed and bound tightly together suggests that this basic signaling pathway is greatly amplified in certain breast cancers.     

Lysophospholipids transactivate HER2/neu (erbB-2) in human gastric cancer cells

The ligand-less receptor HER2/neu (erbB-2) has been proposed as a prognostic marker of gastric cancer that correlates with poor clinical outcome, indicating that HER2 signals play an important role in gastric cancer progression. This study demonstrated that two major natural lysophospholipids, lysophosphatidic acid (LPA) and sphingosine 1-phosphate (S1P), induce rapid and transient phosphorylation of HER2 in two human gastric cancer cell lines, MKN28 and MKN74 cells. We also revealed that tyrosine phosphorylation of HER2 induced by both lysophospholipids was significantly attenuated by two inhibitors, an epidermal growth factor receptor (EGFR) tyrosine kinase inhibitor, AG1478, and a broad-spectrum matrix metalloproteinase inhibitor, GM6001. This suggests that the pathway of HER2 transactivation induced by these lysophospholipids is dependent on the proteolytically released EGFR ligands. Our results indicate that LPA and S1P act upstream of HER2 in gastric cancer cells, and thus may act as potent stimulators of gastric cancer.     

Identification of autophosphorylation sites of HER2/neu.

HER2 or c-erbB-2 is a putative growth factor receptor with sequence homology to the epidermal growth factor receptor. It is the human homologue of the rat protooncogene neu and may have an important role in human malignancies such as breast and ovarian cancers. Like other growth factor receptors, HER2 has intrinsic protein tyrosine kinase activity and undergoes autophosphorylation. Recently, we have demonstrated that, similar to the epidermal growth factor receptor, all autophosphorylation sites of HER2 are localized in the carboxyl terminus of this protein. In the present study, immunopurified HER2 was allowed to autophosphorylate, and tryptic phosphopeptides were generated. After purification of these phosphopeptides by high performance liquid chromatography, microsequencing was performed. Utilizing this approach, two autophosphorylation sites were unequivocally identified at Y1023 and Y1248. The sequences of two other tyrosine phosphorylated tryptic peptides were determined, but the exact site of autophosphorylation could not be determined because multiple tyrosines were located on each peptide. However, each of these peptides contains tyrosines that correspond to major autophosphorylation sites of the epidermal growth factor receptor, suggesting that, in addition to Y1023 and Y1248, Y1139 and Y1222 also serve as autophosphorylation sites of HER2.     

A Mathematical Model for the Effects of HER2 Overexpression on Cell Proliferation in Breast Cancer

We present a mathematical model to study the effects of HER2 over-expression on cell proliferation in breast cancer. The model illustrates the proliferative behavior of cells as a function of HER2 and EGFR receptors numbers, and the growth factor EGF. This mathematical model comprises kinetic equations describing the cell surface binding of EGF growth factor to EGFR and HER2 receptors, coupled to a model for the dependence of cell proliferation rate on growth factor receptors binding. The simulation results from this model predict: (1) a growth advantage associated with excess HER2 receptors; (2) that HER2-over-expression is an insufficient parameter to predict the proliferation response of cancer cells to epidermal growth factors; and (3) the EGFR receptor expression level in HER2-over-expressing cells plays a key role in mediating the proliferation response to receptor-ligand signaling. This mathematical model also elucidates the interaction and roles of other model parameters in determining cell proliferation rate of HER2-over-expressing cells.