Cytokine regulation of inducible nitric oxide synthase in vascular smooth muscle cells.

J Cohen, T J Evans, J Spink
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引用次数: 0

Abstract

NO is an important mediator in sepsis. It has been unequivocally established that it is the major determinant in the vasodilatation and consequent hypotension in experimental animals following the administration of LPS. It is cytotoxic, particularly in combination with superoxide anions, and exerts negative inotropic and chronotropic effects on the heart. The exact role that these functions play in sepsis, however, remain unclear. Similarly, its immunomodulatory and cerebral effects, although potentially important, remain of uncertain significance in sepsis. Regulation of such a pivotal molecule is clearly extremely important: the data described here show that not only is this regulation extremely complex, but it appears to vary in different cell types. The implication of this finding for future clinical work is clear. NO production is not all bad: in some circumstances, it may be desirable to differentially regulate iNOS activity such that production is restricted in some cell types but not in others. The work described here begins to offer the possibility of identifying new molecular targets which allow this kind of differential regulation.

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血管平滑肌细胞诱导型一氧化氮合酶的细胞因子调控。
一氧化氮是脓毒症的重要介质。已经明确地确定,它是实验动物在给药LPS后血管扩张和随之而来的低血压的主要决定因素。它具有细胞毒性,特别是与超氧阴离子结合时,对心脏产生负性肌力和变时作用。然而,这些功能在败血症中发挥的确切作用尚不清楚。同样,它的免疫调节和脑作用,虽然可能重要,但在败血症中的意义仍不确定。这种关键分子的调控显然是极其重要的:这里描述的数据表明,这种调控不仅极其复杂,而且似乎在不同的细胞类型中有所不同。这一发现对未来临床工作的意义是明确的。一氧化氮的产生并不全是坏事:在某些情况下,可能需要对一氧化氮的活性进行差异调节,这样在某些细胞类型中产生一氧化氮受到限制,而在其他细胞类型中则没有。这里描述的工作开始提供识别允许这种差异调节的新分子靶标的可能性。
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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