Cloning and biological activity of an anti-tumor peptide of Tumstatin

To obtain an anti-tumor peptide of Tumstatin and detect its biological activity, the nucleotide sequence encoding 185–203 amino acids (19peptide) of Tumstatin was synthesized and inserted into the fusion protein vector pTYB2. After identification by sequencing and restriction endonucleases, the recombined vector was transformed into BL-21 (DE3) E. coli competent cells. Transformed E. coli BL-21 (DE3) were induced by isopropyl-β-thiogalactopyranoside (IPTG), and then expressed. By 1,4-dithiothreitol (DTT) reduction, the soluble 19peptide was obtained from a chitin affinity chromatograph. The biological activity of 19peptide was determined by 3-[4,5-dimethylthiazol-2-y1]-2,5-diphenytetrazolium bromide (MTT) assay, cell growth curve, the effect of the ascitic fluid transfevent H22 hepatoma on mice and via histopathological slices. The purified 19peptide directly inhibited proliferation and migration of murine B16 melanoma cells, SMMC-7721hepatoma carcinoma cells and human umbilical vein endothelial cells (HUVEC). The tumor inhibition rate of mice ascitic fluid transfevent H22 hepatoma was 48.46%. Histopathological slices showed that it could promote tumor tissue necrosis and decrease the density of blood vessels. With higher anti-tumor activity, 19peptide has the potential to become a novel, potent anti-tumor agent. Translated from Chinese Journal of Biochemistry and Molecular Biology, 2005, 21(3): 322–328 [译自: 中国生物化学与分子生物学学报]     

Cloning and biological activity of an anti-tumor peptide of Tumstatin

To obtain an anti-tumor peptide of Tumstatin and detect its biological activity,the nucleotide sequence encoding 185-203 amino acids (19peptide) of Tumstatin was synthesized and inserted into the fusion protein vector pTYB2.After identification by sequencing and restriction endonucleases,the recombined vector was transformed into BL-21 (DE3) E.coli competent cells.Transformed E.coli BL-21 (DE3) were induced by isopropyl-β-thiogalactopyranoside (IPTG),and then expressed.By 1,4-dithiothreitol (DTT)reduction,the soluble 19peptide was obtained from a chitin affinity chromatograph.The biological activity of 19peptide was determined by 3-[4,5-dimethylthiazol-2-y1]-2,5-diphenytetrazolium bromide (MTT) assay,cell growth curve,the effect of the ascitic fluid transfevent H22 hepatoma on mice and via histopathological slices.The purified 19peptide directly inhibited proliferation and migration of murine B16 melanoma cells,SMMC-7721hepatoma carcinoma cells and human umbilical vein endothelial cells (HUVEC).The tumor inhibition rate of mice ascitic fluid transfevent H22 hepatoma was 48.46%.Histopathological slices showed that it could promote tumor tissue necrosis and decrease the density of blood vessels.With higher anti-tumor activity,19peptide has the potential to become a novel,potent anti-tumor agent.     

Antiangiogenic and antivascular effects of a recombinant tumstatin-derived peptide in a corneal neovascularization model

Tumstatin, a cleavage fragment of collagen IV, is a potent endogenous inhibitor of angiogenesis. Tumstatin-derived peptide T8 possesses all angiostatic properties of full-length tumstatin and indirectly suppresses tumor growth. The potential of T8 to block pathological angiogenesis in the eye has not been explored yet. Here we assess antiangiogenic effects of a recombinant T8 peptide in rabbit corneal neovascularization models. The fusion protein consisting of T8 and thioredoxin was synthesized in a highly efficient Escherichia coli expression system, isolated using ion-exchange chromatography and cleaved with TEV (tobacco etch virus) protease. The target peptide was purified on an anion-exchange resin and by reversed phase high-performance liquid chromatography. The recombinant peptide suppressed the proliferation of basic fibroblast growth factor-induced SVEC-4-10 endothelial cells (simian virus 40-immortalized murine endothelial cells) and inhibited tube formation in these cells in a dose-dependent manner. In rabbit corneal neovascularization models T8 demonstrated the ability to prevent pathological angiogenesis (when injected simultaneously with the induction of neovascularization) and, moreover, to promote the regression of newly-formed blood vessels (when injected on day 8 after angiogenesis stimulation). Our results suggest that T8 may have a therapeutic potential in the treatment of ocular neovascular diseases.     

Mesenchymal stem cells modified to express lentivirus TNF‐α Tumstatin45–132 inhibit the growth of prostate cancer

Mesenchymal stem cells (MSCs) are a potential novel delivery system for cell‐based gene therapies. Although tumour necrosis factor (TNF)‐α has been shown to have antitumour activity, its use in therapy is limited by its systemic toxicity. For the present study, we designed lentivirus‐mediated signal peptide TNF‐α‐Tumstatin_45–132‐expressing mesenchymal stem cells (SPTT‐MSCs) as a novel anti‐cancer approach. We evaluated the effects of this approach on human prostate cancer cells (PC3 and LNCaP) by co‐culturing them with either SPTT‐MSCs or supernatants from their culture medium in vitro. The antitumour effects and possible mechanisms of action of SPTT‐MSCs were then determined in PC3 cells in vivo. The results showed that efficient TNF‐α‐Tumstatin_45–132‐expressing MSCs had been established, and demonstrated that SPTT‐MSCs inhibited the proliferation of and induced apoptosis in prostate cancer cells and xenograft tumours. As would be expected, given the properties of the individual proteins, the TNF‐α‐Tumstatin_45–132 fusion exerted potent cytotoxic effects on human prostate cancer cells and tumours via the death receptor‐dependent apoptotic pathway and via antiangiogenic effects. Our findings suggest that SPTT‐MSCs have significant activity against prostate cancer cells, and that they may represent a promising new therapy for prostate cancer.     

肿瘤抑素抗肿瘤相关肽对肝癌细胞增殖和凋亡的影响

肿瘤抑素抗肿瘤相关肽-19肽是由肿瘤抑素185~203位氨基酸组成, 具有直接抑制黑色素瘤细胞生长作用, 但其对肝癌细胞增殖和凋亡是否有影响, 对肝癌是否具有治疗作用还需进一步研究。本研究中采用基因工程技术将合成19肽基因与载体pTYB2重组后进行蛋白表达、纯化获得19肽。通过MTT法、生长曲线观察19肽对人肝癌细胞生长抑制作用; TUNEL标记法、流式细胞仪细胞周期检测法、透射电镜观察19肽对肝癌细胞凋亡的影响; 小鼠H22腹水型转移型肝癌实体瘤抑瘤实验证明其体内的抑瘤作用。MTT实验和生长曲线实验表明随着19肽浓度的增加肝癌细胞的存活率下降。在相同19肽浓度下, 随着作用时间延长存活细胞逐渐减少。电镜观察治疗组细胞出现明显凋亡, 流式细胞仪可检测到前G1峰, TUNEL标记法也证实治疗组可见明显的凋亡细胞, 体内19肽作用的小鼠H22腹水型转移型肝癌的抑瘤率达48.46%。可见, 肿瘤抑素19肽可抑制肝癌细胞生长, 促进肝癌细胞凋亡, 对肝癌具有一定的治疗作用。     

源于Ⅳ型胶原α3、α6链的肿瘤新生血管生成抑制剂

肿瘤抑素（Tumstatin）和Hexastatin是分别源于Ⅳ型胶原α3、α6链的肿瘤新生血管生成抑制剂.肿瘤的发生、发展和转移都依赖于新生血管的生成.通过抑制肿瘤新生血管的生成,阻断肿瘤细胞赖以生存的氧气及营养供给,肿瘤细胞便会发生凋亡.这是肿瘤治疗的新策略.Tumstatin和Hexastatin是近年来研究比较多的两种肿瘤新生血管生成抑制剂,其中Tumstatin的结构、活性位点、抑制肿瘤新生血管形成机制研究得比较清晰;Hexastatin虽与Tumstatin有许多相似之处,但是还有很多问题需要进一步研究解决.该文就这两种肿瘤新生血管生成抑制剂等的最新研究进展做一综述.     

Tumstatin, the NC1 domain of alpha3 chain of type IV collagen, is an endogenous inhibitor of pathological angiogenesis and suppresses tumor growth

Angiogenesis, the formation of new blood vessels, is required for physiological development of vertebrates and repair of damaged tissue, but in the pathological setting contributes to progression of cancer. During tumor growth, angiogenesis is supported by up-regulation of angiogenic stimulators (pro-angiogenic) and down-regulation of angiogenic inhibitors (anti-angiogenic). The switch to the angiogenic phenotype (angiogenic switch) allows the tumors to grow and facilitate metastasis. The bioactive NC1 domain of type IV collagen alpha3 chain, called tumstatin, imparts anti-tumor activity by inducing apoptosis of proliferating endothelial cells. Tumstatin binds to alphaVbeta3 integrin via a mechanism independent of the RGD-sequence recognition and inhibits cap-dependent protein synthesis in the proliferating endothelial cells. The physiological level of tumstatin is controlled by matrix metalloproteinase-9, which most effectively cleaves it from the basement membrane and its physiological concentration in the circulation keeps pathological angiogenesis and tumor growth in check. These findings suggest that tumstatin functions as an endogenous inhibitor of pathological angiogenesis and functions as a novel suppressor of proliferating endothelial cells and growth of tumors.     

Inhibition effect of pcDNA-tum-5 on the growth of S180 tumor

Tumor growth and metastasis depend on vessel formation, and inhibition of angiogenesis of tumor by production of anti-angiogenic drugs should be a promising approach for cancer therapy. Tumstatin is an angiogenesis inhibitor. The anti-angiogenic activity of tumstatin is localized to the 54–132 amino acids. The gene fragment encoding amino acids 45–132 of tumstatin (tum-5) was subcloned into pcDNA3.1 (pcDNA-tum5). Tum-5 protein could be expressed and secreted in CHO cells after transfection. The conditioned medium (containing tum-5 protein) from the transfectant has an anti-angiogenic effect on HUVEC cells in vitro. The anti-tumor effect of pcDNA-tum5 on mice bearing S180 tumors was evaluated. The results showed that pcDNA-tum-5 has a significant inhibition activity in the growth of the tumors. This study suggests that the gene delivery of tum-5 may be an effective strategy for cancer therapy.     

In vivo overexpression of tumstatin domains by tumor cells inhibits their invasive properties in a mouse melanoma model

Our previous studies demonstrated that a synthetic peptide encompassing residues 185-203 of the noncollagenous (NC1) domain of the alpha3 chain of type IV collagen, named tumstatin, inhibits in vitro melanoma cell proliferation and migration. In the present study, B16F1 melanoma cells were stably transfected to overexpress the complete tumstatin domain (Tum 1-232) or its C-terminal part, encompassing residues 185-203 (Tum 183-232). Tumstatin domain overexpression inhibited B16F1 in vitro cell proliferation, anchorage-independent growth, and invasive properties. For studying the in vivo effect of overexpression, representative clones were subcutaneously injected into the left side of C57BL6 mice. In vivo tumor growth was decreased by -60% and -56%, respectively, with B16F1 cells overexpressing Tum 1-232 or Tum 183-232 compared to control cells. This inhibitory effect was associated with a decrease of in vivo cyclin D1 expression. We also demonstrated that the overexpression of Tum 1-232 or Tum 183-232 induced an in vivo down-regulation of proteolytic cascades involving matrix metalloproteinases (MMPs), especially the production or activation of MMP-2, MMP-9, MMP-13, as well as MMP-14. The plasminogen activation system was also altered in tumors with a decrease of urokinase-type plasminogen activator (u-PA) and tissue-type plasminogen activator (t-PA) and a strong increase of plasminogen activator inhibitor-1 (PAI-1). Collectively, our results demonstrate that tumstatin or its C-terminal antitumor fragment, Tum 183-232, inhibits in vivo melanoma progression by triggering an intracellular transduction pathway, which involves a cyclic AMP (cAMP)-dependent mechanism.