Ovarian cancer: Ca2+-dependent and Ca2+-independent isoforms of NO-synthase functioning in blood lymphocytes of women

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Abstract

The purpose of the work was to study the activity and kinetic parameters of isoforms of NO-synthase blood lymphocytes in women with ovarian cancer. Ovarian cancer is considered to be one of the most severe diseases of the female reproductive tract. The study of the pathogenesis of ovarian cancer is being directed to improve methods of diagnosis and detection of tumor formation process at an early stages. It is known that metabolism of L -arginine and synthesis of nitric oxide (NO) plays an important role in carcinogenesis and tumor growth. It is assumed that NO modulates can-cer-dependent events, including angiogenesis, apoptosis, cell cycle, invasion imaginary affinity constant inducible isoform of NO-synthase to arginine was in 5.4 times lower than that of constitutive isoforms of NO-synthase of blood lymphocytes of the control group and inhibition of constitutive isoform occurs by competitive type –by reducing the rate of enzyme turnover.
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卵巢癌:女性血液淋巴细胞中no合酶的Ca2+依赖和Ca2+独立亚型
研究卵巢癌患者血液淋巴细胞no合酶同工型的活性和动力学参数。卵巢癌被认为是女性生殖道最严重的疾病之一。卵巢癌发病机制的研究是为了提高早期诊断和检测肿瘤形成过程的方法。已知L -精氨酸的代谢和一氧化氮(NO)的合成在癌变和肿瘤生长中起重要作用。假设NO调节肿瘤依赖事件,包括血管生成、细胞凋亡、细胞周期、侵袭假想亲和常数,诱导NO-合成酶对精氨酸的组成型异构体比对照组血液淋巴细胞NO-合成酶的组成型异构体低5.4倍,组成型异构体的抑制是竞争性的-通过降低酶的周转率。
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