Johnston S L, Kitson K E, Tweedie J W, Davis S R, Lee J
AgResearch Limited, New Zealand.
J Dairy Sci. 2004 Feb;87(2):321-9. doi: 10.3168/jds.S0022-0302(04)73171-9.
The membrane spanning enzyme gamma-glutamyl transpeptidase (gamma-GT; EC 2.3.2.2) catalyses the breakdown of the tripeptide glutathione and uses free amino acids (AA) to form gamma-glutamyl transpeptidase (GT) AA that become transported into cells and converted back into free AA. gamma-Glutamyl transpeptidase activity has been shown to be important for mammary AA uptake in rodent systems, and while gamma-GT activity is high in lactating bovine mammary tissue, the role of this enzyme in milk protein synthesis of the ruminant has not been defined. The present study shows that gamma-GT activity in the ovine mammary gland, like that of rodents, increases during pregnancy and peaks early in lactation. Acivicin, a well-known inhibitor of gamma-GT, decreased gamma-GT activity in acini isolated from the ovine mammary gland and did not have secondary toxicity effects on cell viability or the uptake of radiolabeled amino-isobutyric acid. Isolated ovine acini were incubated in the presence of radiolabeled leucine, and incorporation of label into secreted protein increased during incubation. Incubation of acini with acivicin decreased milk protein secretion by 75%, indicating that gamma-GT plays an important role in milk protein production in the ruminant. Acivicin did not inhibit secretion of specific caseins but caused a global decrease in individual proteins suggesting that gamma-GT may be responsible for providing a complement of AA for milk protein synthesis.
跨膜酶γ-谷氨酰转肽酶(γ-GT;EC 2.3.2.2)催化三肽谷胱甘肽的分解,并利用游离氨基酸(AA)形成γ-谷氨酰转肽酶(GT)-AA,后者被转运进入细胞并再转化为游离AA。在啮齿动物系统中,γ-谷氨酰转肽酶活性已被证明对乳腺摄取AA很重要,虽然γ-GT活性在泌乳期牛乳腺组织中很高,但该酶在反刍动物乳蛋白合成中的作用尚未明确。本研究表明,绵羊乳腺中的γ-GT活性与啮齿动物一样,在怀孕期增加,并在泌乳早期达到峰值。阿西维辛是一种著名的γ-GT抑制剂,它降低了从绵羊乳腺分离的腺泡中的γ-GT活性,并且对细胞活力或放射性标记的氨基异丁酸的摄取没有二次毒性作用。将分离的绵羊腺泡在放射性标记的亮氨酸存在下孵育,在孵育过程中标记物掺入分泌蛋白的量增加。用阿西维辛孵育腺泡使乳蛋白分泌减少了75%,表明γ-GT在反刍动物乳蛋白生产中起重要作用。阿西维辛并不抑制特定酪蛋白的分泌,但导致单个蛋白质整体减少,这表明γ-GT可能负责为乳蛋白合成提供AA补充。