Contribution of xanthine oxidoreductase to mammary epithelial and breast cancer cell differentiation in part modulates inhibitor of differentiation-1

Loss of xanthine oxidoreductase (XOR) has been linked to aggressive breast cancer in vivo and to breast cancer cell aggressiveness in vitro. In the present study, we hypothesized that the contribution of XOR to the development of the normal mammary gland may underlie its capacity to modulate breast cancer. We contrasted in vitro and in vivo developmental systems by differentiation marker and microarray analyses. Human breast cancer microarray was used for clinical outcome studies. The role of XOR in differentiation and proliferation was examined in human breast cancer cells and in a mouse xenograft model. Our data show that XOR was required for functional differentiation of mammary epithelial cells both in vitro and in vivo. Poor XOR expression was observed in a mouse ErbB2 breast cancer model, and pharmacologic inhibition of XOR increased breast cancer tumor burden in mouse xenograft. mRNA microarray analysis of human breast cancer revealed that low XOR expression was significantly associated with time to tumor relapse. The opposing expression of XOR and inhibitor of differentiation-1 (Id1) during HC11 differentiation and mammary gland development suggested a potential functional relationship. While overexpression of Id1 inhibited HC11 differentiation and XOR expression, XOR itself modulated expression of Id1 in differentiating HC11 cells. Overexpression of XOR both inhibited Id1-induced proliferation and -stimulated differentiation of Heregulin-β1-treated human breast cancer cells. These results show that XOR is an important functional component of differentiation whose diminished expression contributes to breast cancer aggressiveness, and they support XOR as both a breast cancer biomarker and a target for pharmacologic activation in therapeutic management of aggressive breast cancer.     

分化抑制因子与肿瘤相关性研究进展

分化抑制因子(inhibitor of differentiationl Id)是广泛表达的螺旋-环-螺旋(helix-loop-helix,HLH)家族成员中参与负性调节的转录因子,在真核生物中,Id蛋白在发育、调控细胞增殖和分化、肿瘤血管形成、侵袭性以及转移等方面有着重要的作用.最近的研究表明,Id表达不仅和肿瘤形成、进展以及预后相关,而且有望成为肿瘤治疗的新靶点.综述了Id在肿瘤发生发展过程中可能的机制、作用以及在肿瘤靶向治疗中的前景.     

Id 基因在多种肺癌细胞中的表达及意义

目的：研究Id基因在肺癌和永生化支气管上皮细胞中的表达,探讨其在肺癌细胞中表达的意义。方法：利用半定量RT—PCR和Western blot方法检测多种肺癌和永生化支气管上皮细胞中Id1—Id4 mRNA和Id1—Id4蛋白的表达。结果：A549、NCI—H460、NCI—H446、SK—MES—1、Anip973中Id1-Id3 mRNA均高表达,Id1相对表达较强;而AGZY和MP-184中未表达Id1-Id3 mRNA;腺癌细胞均表达了Id4 mRNA,而NCI-H446、SK—MES—1未表达Id4mRNA。A549,NCA—H460,NCA—H446,SK—MES—1,Anip973中Id1,Id2,Id3蛋白均高表达,A549,NCA—H446,Anip973中Id2的表达高于NCA—H460,SK—MES—1;A549,NCA—H460,Anip973有出的高表达,NCI—H446,SK—MES—1无Id4的表达,Id1-Id4在AGZY和MP-184中均耒表达。结论：4种Id基因均作为癌基因在肺癌的发生发展中发挥作用,Id1,Id2,Id3与肺癌细胞的恶性程度以及增殖和转移密切相关,Id4可做为肺腺癌的检测标志物。     

Crucial role of inhibitor of DNA binding/differentiation in the vascular endothelial growth factor-induced activation and angiogenic processes of human endothelial cells

Angiogenesis plays a pivotal role in the aggressive proliferation of synovial cells in rheumatoid arthritis. We have previously reported the overexpression of inhibitor of DNA binding/differentiation (Id) in the endothelial cells within the synovial tissues of rheumatoid arthritis. In this study, we investigated the role of Id in inflammation and angiogenesis in an in vitro model using HUVECs. Vascular endothelial growth factor (VEGF) and TGFbeta induced the expression of Id1 and Id3 in HUVECs. Forced expression of Id induced proliferative activity in HUVECs accompanied by down-regulation of p16INK4a. Overexpression of Id enhanced expression of ICAM-1 and E-selectin, and induced angiogenic processes such as transmigration, matrix metalloproteinase-2 and -9 expression, and tube formation. In contrast, knockdown of Id1 and Id3 with RNA interference abolished proliferation, activation, and angiogenic processes of HUVECs induced by VEGF. These results indicated that Id plays a crucial role in VEGF-induced signals of endothelial cells by causing activation and potentiation of angiogenic processes. Based on these findings, it was proposed that inhibition of expression and/or function of Id1 and Id3 may potentially be of therapeutic value for conditions associated with pathological angiogenesis.     

Inhibitory role of Id1 on TGF-β-induced collagen expression in human dermal fibroblasts

Inhibitor of DNA binding 1 (Id1) is a basic helix-loop-helix (bHLH) protein that has a variety of functional roles in cellular events including differentiation, cell cycle and cancer development. In addition, it has been demonstrated that Id1 is related with TGF-β and Smad signaling in various biological conditions. In this study, we investigated the effect of Id1 on TGF-β-induced collagen expression in human dermal fibroblasts. When Id1-b isoform was overexpressed, TGF-β-induced collagen expression was markedly inhibited. Consistent with this result, Id1-b significantly inhibited TGF-β-induced collagen gel contraction. In addition, Id1-b inhibited TGF-β-induced phosphorylation of Smad2 and Smad3. Finally, immunohistochemistry showed that Id1 expression was decreased in fibrotic skin diseases while TGF-β signaling was increased. Together, these results suggest that Id1 is an inhibitory regulator on TGF-β-induced collagen expression in dermal fibroblasts.     

分化抑制因子Id在若干种癌及永生性细胞中的表达

利用半定量RT PCR方法对 1 7种细胞的Id基因表达进行了检测 ,发现在CD34+阳性干细胞增殖过程中 ,Id1由不表达到适度表达 ,而Id2由中等程度表达到高表达。Id3、Id4的表达在扩增前后变化不大。说明Id1和Id2在脐带造血细胞扩增过程中可能参与作用。在 2种肺癌、2种肠癌及一种肝癌、乳腺癌细胞中Id1～Id4的表达呈现一定的规律 ,对于同一类癌细胞株其表达基本相同或相似 ,而不同类癌细胞株其表达则相差较大 ,说明对某一类细胞株 ,Id1～Id4有相对稳定的作用。实验对深入认识Id基因的作用、红白血病发生机理和治疗均有重要意义。     

Id1-induced inhibition of p53 facilitates endothelial cell migration and tube formation by regulating the expression of beta1-integrin

The Id1 protein is critical for endothelial cell angiogenesis, and this function is particularly relevant to cancer development, cardiovascular disease, and wound healing. We hypothesized that Id1 enhanced migration and tubulogenesis by controlling the expression and function of p53. In this study, we examined cell migration following Id1 overexpression and silencing endothelial cells. The results showed that overexpression of Id1 enhanced cell migration and increased beta1-integrin expression, but inhibition of beta1-integrin blocked motility even in clones overexpressing Id1, suggesting that Id1 regulated motility through beta1-integrin. Further analysis revealed that p53, whose expression and distribution is regulated by Id1, was critical for cell migration, and may be involved in regulating the expression of beta1-integrin. Inhibiting p53 function using PFT-α, a functional inhibitor of p53, increased the expression of beta1-integrin and promoted cell migration even in Id1-silencing endothelial cells, demonstrating that the Id1 knockdowns induced inhibition of endothelial cell migration and the expression of beta1-integrin were controlled by p53. In addition, Id1-p53 pathway regulated the cytoskeleton formation and tubulogenesis. These results demonstrate that Id1-induced beta1-integrin expression in endothelial cells and the function of Id1 in cell migration and tubulogenesis are dependent on p53.     

细胞分化抑制因子（Id）研究进展

Id分子(分化抑制因子/DNA结合抑制因子)是一组对碱性螺旋-环-螺旋（bHLH）转录因子活性起负调节作用的转录因子,可抑制细胞分化,促进细胞增殖.哺乳类动物细胞含Id1～Id4 4种Id因子.该分子参与细胞周期调控过程,包括细胞发育、成熟、生长、分化以及死亡等.自1990年发现Id分子以来,有关该分子在基因表达调控、细胞增殖、分化、衰老和肿瘤发生等方面进行了广泛而深入的研究. Id蛋白已成为研究细胞生命过程以及探寻治疗人类疾病有效靶向药物的一类重要分子.     

WSS25 Inhibits Growth of Xenografted Hepatocellular Cancer Cells in Nude Mice by Disrupting Angiogenesis via Blocking Bone Morphogenetic Protein (BMP)/Smad/Id1 Signaling

The highly expressed Id1 (inhibitor of DNA binding/differentiation) protein promotes angiogenesis in HCC and is a well established target for anti-angiogenesis therapeutic strategies. Heparan sulfate (HS) mimetics such as PI-88 can abrogate HS-protein interactions to inhibit angiogenesis. Id1 is the direct downstream effector of bone morphogenetic proteins (BMPs), which are angiogenic and HS-binding proteins. Thus, targeting BMPs by HS mimetics may inhibit angiogenesis via attenuating Id1 expression. We report here that a HS mimetic WSS25 potently inhibited the tube formation of HMEC-1 cells on Matrigel and their migration. Meanwhile, WSS25 (25 μg/ml) nearly completely blocked Id1 expression in the HMEC-1 cells as demonstrated by oligo-angiogenesis microarray analysis and further confirmed by RT-PCR and Western blotting. BMP/Smad/Id1 signaling also was blocked by WSS25 treatment in HMEC-1 cells. Importantly, Id1 knockdown in HMEC-1 cells caused the disruption of their tube formation on Matrigel. By employing quartz crystal microbalance analysis, we found that WSS25 strongly bound to BMP2. Moreover, WSS25 impaired BMP2-induced tube formation of HMEC-1 cells on Matrigel and angiogenesis in Matrigel transplanted into C57BL6 mice. Furthermore, WSS25 (100 mg/kg) abrogated the growth of HCC cells xenografted in male nude mice. Immunohistochemical analysis showed that both the expression of Id1 and the endothelial cell marker CD31 were lower in the WSS25-treated tumor tissue than in the control. Therefore, WSS25 is a potential drug candidate for HCC therapy as a tumor angiogenesis inhibitor.     

Bone Morphogenetic Protein Type I Receptor Antagonists Decrease Growth and Induce Cell Death of Lung Cancer Cell Lines

Bone morphogenetic proteins (BMPs) are highly conserved morphogens that are essential for normal development. BMP-2 is highly expressed in the majority of non-small cell lung carcinomas (NSCLC) but not in normal lung tissue or benign lung tumors. The effects of the BMP signaling cascade on the growth and survival of cancer cells is poorly understood. We show that BMP signaling is basally active in lung cancer cell lines, which can be effectively inhibited with selective antagonists of the BMP type I receptors. Lung cancer cell lines express alk2, alk3, and alk6 and inhibition of a single BMP receptor was not sufficient to decrease signaling. Inhibition of more than one type I receptor was required to decrease BMP signaling in lung cancer cell lines. BMP receptor antagonists and silencing of BMP type I receptors with siRNA induced cell death, inhibited cell growth, and caused a significant decrease in the expression of inhibitor of differentiation (Id1, Id2, and Id3) family members, which are known to regulate cell growth and survival in many types of cancers. BMP receptor antagonists also decreased clonogenic cell growth. Knockdown of Id3 significantly decreased cell growth and induced cell death of lung cancer cells. H1299 cells stably overexpressing Id3 were resistant to growth suppression and induction of cell death induced by the BMP antagonist DMH2. These studies suggest that BMP signaling promotes cell growth and survival of lung cancer cells, which is mediated through its regulation of Id family members. Selective antagonists of the BMP type I receptors represents a potential means to pharmacologically treat NSCLC and other carcinomas with an activated BMP signaling cascade.