Inhibition of Nm23H2 gene product (NDPK-B) by angiostatin, polyphenols and nucleoside analogs.

Iain L O Buxton
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Abstract

Human breast cancer cells (MDA-MB-435s) secrete a nucleoside diphosphate kinase (NDPK-B) as a phosphoprotein capable of converting diphosphate nucleosides to triphosphate nucleotides for one round in the absence of a phosphoryl donor. Incubation of the partially purified NDPK-B (Nm23-H2 by Western blot) from [gamma32P]Pi-labeled cells with non-radioactive ADP results in the formation of [gamma32P]ATP (Proc. West. Pharmacol. Soc. 44: 61-63, 2001). The presence of a secreted protein that can maintain ATP levels in the vicinity of capillary and lymph vessels may support cancer metastasis in several ways based on the known actions of ATP at P2Y receptors: facilitate intravasation of breast cancer cells that migrate from a solid tumor, support their extravasation at a distal site, and stimulate angiogenesis. The putative role of angiostatin (AS) as an ATP-synthase inhibitor led us to test the notion that AS blocks NDPK-B activity. Addition of commercial AS (kringles 1-4) did not alter enzyme activity. However, AS produced by us and never lyophilized, blocked NDPK activity in a dose-dependent fashion consistent with the notion that extracellular ATP generation by tumor cells may be important to the development of metastases. The ability of 0.5 mg/ml angiostatin to block NDPK-B activity to approximately 75% of control activity compared poorly with the polyphenol inhibitors of. The catechin gallates, theaflavins and ellagic acid inhibited NDPK-B completely with the rank order of potency: EA > theaflavins > EGCG > ECG > PAPS. Our results suggest that the biological activity of angiostatin as a putative metastasis inhibitor may be in part the result of nm23 inhibition and that the production, lyophilization, packaging or storage of commercial angiostatin leads to the alteration of its biological activity against NDPK-B. Ellagic acid is a potent (IC50 = 10.5 microM) NDPK-B inhibitor that may prove useful in elucidating the role of cancer-cell secreted NDPK-B in tumor development.

血管抑制素、多酚和核苷类似物对Nm23H2基因产物(NDPK-B)的抑制作用
人乳腺癌细胞(MDA-MB-435s)分泌一种核苷二磷酸激酶(NDPK-B),作为一种磷酸化蛋白,能够在没有磷酸化供体的情况下将二磷酸核苷转化为三磷酸核苷酸。用非放射性ADP与[gamma32P] pi标记的细胞孵育部分纯化的NDPK-B (Nm23-H2),可形成[gamma32P]ATP (Proc. West。杂志。《社会科学》第44期:61-63,2001)。根据已知的ATP在P2Y受体上的作用,一种能够维持毛细血管和淋巴管附近ATP水平的分泌蛋白的存在可能以多种方式支持癌症转移:促进从实体瘤迁移的乳腺癌细胞的内渗,支持其在远端部位的外渗,并刺激血管生成。血管抑制素(AS)作为atp合成酶抑制剂的假定作用使我们验证了AS阻断NDPK-B活性的概念。添加商业AS (kringles 1-4)对酶活性没有影响。然而,未经冻干的AS以剂量依赖的方式阻断NDPK活性,这与肿瘤细胞产生细胞外ATP可能对转移的发展很重要的观点一致。与多酚抑制剂相比,0.5 mg/ml血管抑制素阻断NDPK-B活性的能力约为对照活性的75%。儿茶素、没食子酸酯、茶黄素和鞣花酸对NDPK-B的抑制作用为EA >茶黄素> EGCG > ECG > PAPS。我们的研究结果表明,血管抑制素作为一种推定的转移抑制剂的生物活性可能部分是nm23抑制的结果,而商业血管抑制素的生产、冻干、包装或储存导致其对NDPK-B的生物活性发生改变。鞣花酸是一种有效的NDPK-B抑制剂(IC50 = 10.5微米),可能有助于阐明癌细胞分泌的NDPK-B在肿瘤发展中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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