Kelly D, King T P, McFadyen M, Travis A J
Rowett Research Institute, Bucksburn, Aberdeen, Scotland.
Gut. 1991 Apr;32(4):386-92. doi: 10.1136/gut.32.4.386.
It has been shown that during the early phase of lactation porcine milk contains high concentrations of hormones and growth factors. The aim of the present investigation was to examine the hypothesis that the temporal coordination of intestinal maturation in piglets can be extrinsically regulated through changes in the composition of milk during the suckling period. Gut morphology and the ontogeny of brush border lactase activity were investigated in piglets reared on two suckling regimens designed to expose the animals to compositionally distinct milk. The first group of animals were cross-fostered onto postcolostrum sows and thereafter suckled normally for up to eight weeks. These normally suckled (N) animals consequently received both early and late lactation products. The second group of piglets were cross-fostered each week, for up to eight weeks, onto newly farrowed sows which were postcolostrum. As a result of this repeated cross-fostering (CF) these animals received only early lactation products. Animals were sacrificed at one, three, five, seven, and eight weeks postpartum. Biochemically active lactase decreased significantly (p less than 0.001) in both groups over eight weeks, but the rate of loss of activity was greater in the CF animals than in the N pigs by approximately 50% at week 3 and 25% at week 8. Quantitative histochemical analysis of lactase activity corroborated the biochemical data. At three weeks maximal enzyme activity was observed approximately 400 microns from the villus/crypt junction. Histochemically detected lactase decreased throughout the suckling period, but the intensity of reaction product was consistently weaker over the entire villus surface in the CF animals. Immunocytochemically detectable lactase was identified at the same sites as the histochemical reaction products. In addition, immunofluorescence microscopy showed the presence of histochemically undetectable enzyme on the basolateral and brush border membranes of both villus and crypt cells. Villus/crypt ratios were significantly lower (p<0.001) in the CF animals than in the N pigs between weeks 3 and 5. The results of this study suggest that lactation products can accelerate the loss of brush border lactase activity. The observed decline in biochemically and histochemically detected lactase was considered to be a consequence of reduced enterocyte lifespan, decreased synthesis of enzyme protein, or altered post-translational modification of enzyme protein, or a combination of there.
研究表明,在泌乳早期,猪乳中含有高浓度的激素和生长因子。本研究的目的是检验这样一个假设:仔猪肠道成熟的时间协调性可通过哺乳期乳汁成分的变化进行外在调节。在两种哺乳方案下饲养的仔猪中,研究了肠道形态和刷状缘乳糖酶活性的个体发育情况,这两种方案旨在使动物接触成分不同的乳汁。第一组动物被寄养到产后母猪身上,此后正常哺乳长达8周。这些正常哺乳(N)的动物因此既摄入了泌乳早期的乳汁,也摄入了泌乳后期的乳汁。第二组仔猪每周被寄养到产后初产的新产仔母猪身上,长达8周。由于这种反复寄养(CF),这些动物只摄入了泌乳早期的乳汁。在产后1周、3周、5周、7周和8周对动物进行宰杀。在8周内,两组动物中具有生化活性的乳糖酶均显著下降(p<0.001),但在第3周时,CF组动物的活性丧失率比N组猪高约50%,在第8周时高25%。乳糖酶活性的定量组织化学分析证实了生化数据。在第3周时,在距绒毛/隐窝交界处约400微米处观察到最大酶活性。组织化学检测到的乳糖酶在整个哺乳期都在下降,但在CF组动物的整个绒毛表面,反应产物的强度始终较弱。免疫细胞化学可检测到的乳糖酶与组织化学反应产物位于相同部位。此外,免疫荧光显微镜显示,在绒毛和隐窝细胞的基底外侧膜和刷状缘膜上存在组织化学检测不到的酶。在第3周和第5周之间,CF组动物的绒毛/隐窝比值显著低于N组猪(p<0.001)。本研究结果表明,泌乳产物可加速刷状缘乳糖酶活性的丧失。观察到的生化和组织化学检测到的乳糖酶下降被认为是肠上皮细胞寿命缩短、酶蛋白合成减少、酶蛋白翻译后修饰改变或这些因素共同作用的结果。
