表皮生长因子可选择性地提高新生仔猪肠道中麦芽糖酶和蔗糖酶的活性。

Epidermal growth factor selectively increases maltase and sucrase activities in neonatal piglet intestine.

作者信息

James P S, Smith M W, Tivey D R, Wilson T J

机构信息

Agricultural and Food Research Council, Institute of Animal Physiology and Genetics Research, Babraham, Cambridge.

出版信息

J Physiol. 1987 Dec;393:583-94. doi: 10.1113/jphysiol.1987.sp016842.

DOI:10.1113/jphysiol.1987.sp016842

PMID:3328784

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1192412/

Abstract

Pig intestinal sucrase and maltase activities increase markedly, and lactase activity decreases, during the second week of post-natal life. Correlations noted between the time course describing these changes and that found previously to describe a decline in the ability of the pig intestine to take up macromolecules suggest that both events are subject to the same type of developmental control. 2. Injection of epidermal growth factor (EGF) into 3-day-old piglets increase sucrase and maltase activities measured 3 days later. These increases, which are not seen when measuring other hydrolase enzymes, are confined to the mid and distal regions of the small intestine. 3. Dexamethasone injected into 3-day-old piglets inhibits lactase and, on occasion, sucrase activities without affecting other intestinal hydrolases. Significant increases in sucrase and maltase activities also occur in distal intestine following injection of EGF plus dexamethasone into 3-day-old pigs. 4. Cytochemical analysis shows EGF effects on sucrase and maltase activities to be exerted in crypt and basal villus enterocytes produced post-natally. Dexamethasone inhibits lactase activity mainly by acting on mid and upper villus enterocytes produced before birth. 5. EGF appears to increase sucrase and maltase activities by extending the time during which young enterocytes continue to accumulate these enzymes in their brush-border membranes. Dexamethasone appears to cause a more fundamental change in the biochemistry of older enterocytes. accompanied by an increasing ability of these cells to transport neutral amino acids through a sodium-dependent mechanism (see James, Smith, Tivey & Wilson, 1987a).

摘要

仔猪出生后第二周，猪肠道蔗糖酶和麦芽糖酶活性显著增加，而乳糖酶活性降低。描述这些变化的时间进程与先前发现的描述猪肠道摄取大分子能力下降的时间进程之间的相关性表明，这两个事件受同一类型的发育控制。2. 给3日龄仔猪注射表皮生长因子（EGF），3天后测量蔗糖酶和麦芽糖酶活性增加。这些增加在测量其他水解酶时未出现，且局限于小肠的中、远端区域。3. 给3日龄仔猪注射地塞米松会抑制乳糖酶活性，偶尔也会抑制蔗糖酶活性，而不影响其他肠道水解酶。给3日龄仔猪注射EGF加地塞米松后，远端肠道的蔗糖酶和麦芽糖酶活性也显著增加。4. 细胞化学分析表明，EGF对蔗糖酶和麦芽糖酶活性的影响是在出生后产生的隐窝和绒毛基部肠细胞中发挥作用。地塞米松主要通过作用于出生前产生的绒毛中部和上部肠细胞来抑制乳糖酶活性。5. EGF似乎通过延长年轻肠细胞在其刷状缘膜中持续积累这些酶的时间来增加蔗糖酶和麦芽糖酶活性。地塞米松似乎会导致较老肠细胞的生物化学发生更根本的变化，同时这些细胞通过钠依赖机制转运中性氨基酸的能力增强（见詹姆斯、史密斯、蒂维和威尔逊，1987a）。