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γ-谷氨酰白三烯酶的破坏导致体内白三烯D4合成的破坏以及急性炎症反应的减弱。

Disruption of gamma-glutamyl leukotrienase results in disruption of leukotriene D(4) synthesis in vivo and attenuation of the acute inflammatory response.

作者信息

Shi Z Z, Han B, Habib G M, Matzuk M M, Lieberman M W

机构信息

Departments of Pathology, Baylor College of Medicine, Houston, Texas 77030, USA.

出版信息

Mol Cell Biol. 2001 Aug;21(16):5389-95. doi: 10.1128/MCB.21.16.5389-5395.2001.

DOI:10.1128/MCB.21.16.5389-5395.2001
PMID:11463821
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC87261/
Abstract

To study the function of gamma-glutamyl leukotrienase (GGL), a newly identified member of the gamma-glutamyl transpeptidase (GGT) family, we generated null mutations in GGL (GGL(tm1)) and in both GGL and GGT (GGL(tm1)-GGT(tm1)) by a serial targeting strategy using embryonic stem cells. Mice homozygous for GGL(tm1) show no obvious phenotypic changes. Mice deficient in both GGT and GGL have a phenotype similar to the GGT-deficient mice, but approximately 70% of these mice die before 4 weeks of age, at least 2 months earlier than mice deficient only in GGT. These double-mutant mice are unable to cleave leukotriene C(4) (LTC(4)) to LTD(4), indicating that this conversion is completely dependent on the two enzymes, and in some organs (spleen and uterus) deletion of GGL alone abolished more than 90% of this activity. In an experimental model of peritonitis, GGL alone is responsible for the generation of peritoneal LTD(4). Further, during the development of peritonitis, GGL-deficient mice show an attenuation in neutrophil recruitment but not of plasma protein influx. These findings demonstrate an important role for GGL in the inflammatory response and suggest that LTC(4) and LTD(4) have distinctly different functions in the inflammatory process.

摘要

为了研究γ-谷氨酰白三烯酶(GGL)的功能,γ-谷氨酰转肽酶(GGT)家族的一个新发现成员,我们通过使用胚胎干细胞的连续靶向策略在GGL(GGL(tm1))以及GGL和GGT两者(GGL(tm1)-GGT(tm1))中产生了无效突变。GGL(tm1)纯合子小鼠未表现出明显的表型变化。GGT和GGL均缺乏的小鼠具有与GGT缺乏小鼠相似的表型,但这些小鼠中约70%在4周龄前死亡,比仅GGT缺乏的小鼠至少早2个月。这些双突变小鼠无法将白三烯C4(LTC4)裂解为白三烯D4(LTD4),表明这种转化完全依赖于这两种酶,并且在某些器官(脾脏和子宫)中单独缺失GGL就消除了超过90%的这种活性。在腹膜炎实验模型中,仅GGL负责腹膜LTD4的产生。此外,在腹膜炎发展过程中,GGL缺陷小鼠的中性粒细胞募集减弱,但血浆蛋白流入未减弱。这些发现证明了GGL在炎症反应中的重要作用,并表明LTC4和LTD4在炎症过程中具有明显不同的功能。

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