Activities of digestive enzymes in rats kept on standard or excessive breast feeding and on low-protein diet at once after weaning

Activities of digestive enzymes (maltase, alkaline phosphatase, aminopeptidase M, and glycyl-L-leucine dipeptidase) in small and large intestine, liver, and kidney were studied in rats of different ages kept at the period of lactation under conditions of the standard (8 individuals per litter) and low (3 individuals) number of pups per litter. The low-protein diet for 10 days at once after weaning was found to change the mass of organs and their digestive enzyme activities in all studied rat groups. The revealed changes were more prominent in rats kept under conditions of excessive breast feeding. In adult animals of this group, distribution of the alkaline phosphatase activity along the small intestine differed from that in control rats. The obtained results seem to confirm that any disturbance of the nutrition quality in early ontogenesis leads to disturbance of the «metabolic programming of enzyme systems» of digestive organs.     

Effect of weaning terms and protein deficit in rat pup nutrition on activities of digestive enzymes

Restriction of protein in nutrition of rat pups weaned at different terms has been found to produce changes in activities of digestive enzymes (maltase, alkaline phosphatase, aminopeptidase M, and glycyl-L-leucine dipeptidase) in the small and large intestine both at once after cessation of nutrition with low-protein diet for 10 days and 4 months later. In adult animals after the earlier or later weaning there are observed not only a decrease or increase of the enzyme activities, but also a different type of distribution of the alkaline phosphatase activity along the small intestine, which is more pronounced in the lately weaned rats. Thus, disturbance of metabolic programming of enzyme systems of the small and large intestine due to a change of quality of nutrition in early ontogenesis depends on terms of weaning of animals.     

Effect of weaning terms and protein deficit in the rat pup nutrition on activities of digestive enzymes

Restriction of protein in nutrition of rat pups weaned at different terms has been found to produce changes in activities of digestive enzymes (maltase, alkaline phosphatase, aminopeptidase M, and glycyl-L-leucine dipeptidase) in the small and large intestine both at once after cessation of nutrition with low-protein diet for 10 days and 4 months later. In adult animals after the earlier or later weaning there are observed not only a decrease or increase of the enzyme activities, but also a different type of distribution of the alkaline phosphatase activity along the small intestine, which is more pronounced in the lately weaned rats. Thus, disturbance of metabolic programming of enzyme systems of the small and large intestine due to a change of quality of nutrition in early ontogenesis depends on terms of weaning of animals.     

Delayed effects of protein deficiency in nutrition of the pregnant rats on development of the enzymatic system in digestive and nondigestive organs of offspring

It has been found for the first time that protein deficit in female's nutrition during prenatal development of the offspring is accompanied by considerable changes in the activity of intestinal digestive enzymes and of the same hydrolases in the colon, liver and kidneys both in early and in late ontogenesis. It seems possible that changes of the small intestine enzyme functions and hydrolytic functions of other digestive and non-digestive organs in result of an unfavorable early "metabolic/nutritional programming" may be crucial in disorders of metabolic processes leading to development of diseases of risk in adult life.     

The functional topography of the digestive enzymes in the gastrointestinal tract and in nondigestive organs (liver, kidney) in the ontogeny of rats and the effect of inducing agents

Activities of the digestive enzymes (lactase, maltase, saccharose, di-, tri- and aminopeptidases, alkaline and acid phosphatase) in the gastrointestinal tract, the kidney and the liver in one-day-old and adult rats as well as in 10-day-old rats after injections of hydrocortisone (H) or thyroxine (T4) were determined. On the basis of the results obtained it is summarized that (1) high levels of the digestive enzyme activities are observed in the nondigestive organs in immature and adult rats; (2) H induces the enzyme activities in the small intestine more than in other organs; T4 does not influence the activities of the most of enzymes studied both in the digestive and in the nondigestive organs; (3) high activities of a number of enzymes in the colon in one-day-old rats implies its involvement in the digestion at early stages of the ontogenesis.     

Dynamics of absorption in gut and reabsorption in kidney of yellow fluorescent protein in rat postnatal ontogenesis

In experiments on rats aged 5, 12, and 25 days and on adult rats, absorption of yellow fluorescent protein (YFP) in small intestine was shown, with its subsequent entry to kidney with blood flow and accumulation in cells of the nephron proximal segment. With age, intensity of the YEP absorption in the gut decreased; the YEP accumulation in kidney was somewhat more active in the rat pups of younger age groups than in adult animals. No accumulation of YEP was revealed in liver. The obtained results indicate an intensive absorption in the rat pup small intestine in early postnatal ontogenesis and an important role of kidney in protein metabolism and proteolysis of alien proteins.     

Dynamics of absorption of yellow fluorescent protein in intestine and reabsorption in kidney in rat postnatal ontogenesis

In experiments of the 5, 12 and 25-day old rat pups and adult rats in has been shown that after administration of yellow fluorescent protein (YFP) into stomach, its partial absorption in the non-degraded state in the small intestine takes place, with subsequent transport to kidney with blood flow and accumulation in cells of the proximal nephron segment. With age of rats, intensity of the intestinal YFP absorption decrease; the YFP accumulation in the kidney is more active in rats of the younger age groups than in adult animals. No accumulation of YFP in liver was revealed. The obtained data indicate an intensive absorption of YFP in the non-hydrolyzed form in the rat pup small intestine in early postnatal ontogenesis and an important role of kidney in protein metabolism and in proteolysis of exogenous proteins.     

黑麂肝、小肠和大肠的组织学结构及Ghrelin的分布

研究了成年雌性黑麂(Muntiacus crinifrons)的肝、小肠和大肠的组织学结构及Ghrelin的分布。采用H.E染色法观察组织学结构,免疫组化PV-9000两步法并结合DAB显色技术确定Ghrelin的分布。结果表明,黑麂的肝组织分为被膜、肝小叶、肝中央静脉、门管区等结构。被膜为浆膜结构,肝小叶不明显。肝细胞以中央静脉为中心,呈放射状排列。肝血窦的形状不规则。肠黏膜上皮为单层柱状上皮,小肠、盲肠和结肠的黏膜肌层很薄,管壁皱襞与肠绒毛等形态在消化道各部也存在差异。免疫组化结果显示肝细胞中有Ghrelin阳性细胞的表达;在肠道,免疫阳性细胞在十二指肠、空肠、回肠、盲肠和直肠的黏膜、黏膜下层和肌层均有分布,尤其在肠绒毛上皮和黏膜下层分布较多。黑麂肝、小肠和大肠结构与哺乳动物基本相似,但无十二指肠腺;Ghrelin阳性细胞在肝、小肠和大肠均有分布,这表明Ghrelin可能对消化有一定的调节作用。     

两种鼢鼠内脏器官形态差异及其分类学意义

分子生物学研究表明,甘肃鼢鼠(Eospalaxcansus)和高原鼢鼠(Eospalax baileyi)是啮齿目(Rodentia),鼹形鼠科(Spalacidae),鼢鼠亚科(Myospalactinae),中华鼢鼠属(Eospalax)的两个     

On the metabolism of amygdalin. 2. The distribution of beta-glucosidase activity and orally administered amygdalin in rats

The organs of 15-day-old rats had the highest capability to hydrolyze amygdalin and prunasin, and most of this activity is concentrated in the tissues of the small and large intestines. The activity decreased with age. In adult rats, the ability of the organs to hydrolyze prunasin is higher than that of amygdalin and is concentrated in the spleen, large intestine, and kidney (35.0, 15.0, and 8.9 micrograms prunasin hydrolyzed . h-1 . g tissue-1). Minced tissues of the liver, spleen, kidney, and stomach contain more hydrolytic capability than the homogenate of these organs, while the reverse is the case with the small and large intestines. When 30 mg amygdalin was orally administered to adult rats, its distribution after the 1st h was as follows: stomach (0.89 mg), small intestine (0.78 mg), spleen (0.36 mg), large intestine (0.30 mg), kidney (0.19 mg), liver (0.10 mg), and serum (5.6 micrograms/mL). At the end of the 2nd h, the highest amygdalin content was found in the large intestine (0.79 mg).     

白芍总苷在正常大鼠体内的组织分布研究

探讨白芍总苷在正常大鼠体内的组织分布特点,为预测其药理作用及不良反应提供依据.正常大鼠按2.82 g/kg灌胃给予TGP药液后1、3、6h取心、肝、脾、肺、肾、胃、小肠、大肠等组织,各组织匀浆后,将匀浆液制成冻干粉,HPLC法测定冻干粉中芍药苷和芍药内酯苷浓度,计算各组织中两者浓度.结果显示1h各组织中均能测到芍药苷和芍药内酯苷,3h除胃和小肠外,其他各组织中两者浓度均达到最大值,小肠、胃、大肠及肾、脾、肝中浓度较高,6h小肠、大肠、胃中浓度较高,其他各组织中浓度较低.说明灌胃TGP后组织分布迅速且广泛,胃、小肠、大肠及肾、脾、肝是主要分布器官,容易在胃肠蓄积,其他组织中蓄积较少,为进一步研究白芍总苷的药理作用及作用机理提供了指导,同时为白芍归经理论提供了一定的现代科学依据.     

不同日龄大白猪视黄酸受体α基因组织表达

研究采用RT-PCR方法对大白猪的视黄酸受体α基因在1日龄、90日龄、180日龄、270日龄和360日龄的心、肝、胃、脾、肾、肺、大肠、小肠、肌肉、子宫、卵巢共11个组织的表达情况进行了研究。结果表明,RARαmRNA在肝、脾、肾、大肠、小肠、子宫和卵巢中持续表达,其中脾、大肠和小肠是持续高表达;180日龄时,所有组织的RARαmRNA的表达量普遍降低;360日龄时,所检的11个组织均高水平表达该基因。     

Hormonal Regulation of Activities of Digestive Enzymes in Small Intestine of Young Rats at Protein Deficiency in Nutrition of Female Rats at Lactation Period

It is revealed that administration of exogenous dexamethasone and thyroxin to the 7-8-day old rat pups produces different effect on activity and ratio of membrane and soluble forms of digestive enzymes (lactase, saccharase, maltase, alkaline phosphatase, aminopeptidase M, and glycyl-L-leucine dipeptidase) in jejunum and ileum of animals, whose mothers received different rations during lactation: the standard (control) and low-protein (experiment) ones. Disturbances of the hormonal regulation of the activity and the ratio of membrane and soluble forms of the digestive enzymes in small intestine in early ontogenesis consisted in that the effect of hormones was much less pronounced in the rat pups of the experimental group. An increase of the portion of the soluble form of the enzymes was also revealed. These results indicate a possibility of retardation of maturation of the intestinal digestive enzymes. The most significant difference of these effects in animals of the experimental and control groups was observed for saccharase, maltase, and peptidases.     

Time-course characteristics for the digestion of endogenous as well as exogenous protein in the small intestine: a case study with rats fed a [15N]-soy protein isolate

A study was conducted to evaluate a net value of exogenous (dietary) protein nutrition in rats fed a [15N]-labeled soy protein isolate (SPI). Although [15N]-SPI-derived nitrogen reached a plateau 2 hr after feeding, it accounted for only a half of the total nitrogen in the small intestine. 15N was confirmed that was normally transported to liver, kidney, spleen, and brain. The present study reveals the large degree of participation of endogenous proteins in dietary SPI during small-intestinal digestion.     

Immunocytochemical localization of glucose 6-phosphatase and cytosolic phosphoenolpyruvate carboxykinase in gluconeogenic tissues reveals unsuspected metabolic zonation

Immunohistochemical analysis was used to define the precise cell-specific localization of Glucose-6-phosphatase (Glc6Pase) and cytosolic form of the phosphoenolpyruvate carboxykinase (PEPCK-C) in the digestive system (liver, small intestine and pancreas) and the kidney. Co-expression of Glc6Pase and PEPCK-C was shown to take place in hepatocytes, in proximal tubules of the cortex kidney and at the top of the villi of the small intestine suggesting that these tissues are all able to perform complete gluconeogenesis. On the other hand, intrahepatic bile ducts, collecting tubes of the nephron and the urinary epithelium in the calices of the kidney, as well as the crypts of the small intestine, express Glc6Pase without significant levels of PEPCK-C. In such cases, the function of Glc6Pase could be related to the transepithelial transport of glucose characteristic of these tissues, rather than to the neoformation of glucose. Lastly, PEPCK-C expression in the absence of Glc6Pase was noted in both the exocrine pancreas and the endocrine islets of Langerhans. Possible roles of PEPCK-C in exocrine pancreas might be the provision of gluconeogenic intermediates for further conversion into glucose in the liver, whereas PEPCK-C would be instrumental in pyruvate cycling, which has been suggested to play a regulatory role in insulin secretion by the β-cells of the islets. An erratum to this article can be found at     

Immunocytochemical localization of ornithine transcarbamylase in rat intestinal mucosa. Light and electron microscopic study

We investigated light and electron microscopic localization of ornithine transcarbamylase (OTC) in rat intestinal mucosa. In the immunoblotting assay of OTC-related protein, a single protein band with a molecular weight of about 36,500 is observed in extracts of liver and small intestinal mucosa but is not observed in those of stomach and large intestine. For light microscopy, tissue slices of the digestive system were embedded in Epon and stained by using anti-bovine OTC rabbit IgG and the immunoenzyme technique. For electron microscopy, slices of these and the liver tissues were embedded in Lowicryl K4M and stained by the protein A-gold technique. By light microscopy, the absorptive epithelial cells of duodenum, jejunum, and ileum stained positively for OTC, but stomach, large intestine, rectum, and propria mucosa of small intestine were not stained. Electron microscopy showed that gold particles representing the antigenic sites for OTC were confined to the mitochondrial matrix of hepatocytes and small intestinal epithelial cells. However, the enzyme was detected in mitochondria of neither liver endothelial cells, submucosal cells of small intestine, nor large intestinal epithelial cells. Labeling density of mitochondria in the absorptive epithelial cells of duodenum, jejunum, and ileum was about half of that in liver cells.     

Topography of digestive enzymes in small intestine and activity of corresponding hydrolases in liver and kidney of adult pigs

Distribution of activities of disaccharidases (saccharase, maltase), amino- and dipeptidases, dipeptidyl peptidase IV (DPP) and alkaline phosphatase along the small intestine and of these hydrolases in liver and kidney, as well as distribution of the digestive enzyme activities between the membrane and cytosol fractions of enterocytes is characterized in adult 6-month old pigs. It has been shown that maximum of the studied enzyme activities, except for DPP, takes place in ileum. A higher level of the activities of the soluble form of saccharase, maltase, and aminopeptidase M and a less significant level of the activity of the glycyl-L-leucine dipeptidase soluble form in jejunum and ileum is found than those in rats and monkeys. The obtained data demonstrate the existence of the complex enzyme system in small intestine, liver, and kidney that participate in realization of nutritive and trophic-barrier functions.Translated from Zhurnal Evolyutsionnoi Biokhimii i Fiziologii, Vol. 41, No. 1, 2005, pp. 39–43.Original Russian Text Copyright © 2005 by Smirnova, Gordova, Timofeeva, Shcherbakov.     

春季树麻雀体内几种消化酶活性研究

应用酶学分析法测定了树麻雀Passer montanus春季的腺胃、肌胃、小肠、大肠、肝脏和胰脏组织中淀粉酶、蛋白酶和纤维素酶的活力.结果表明,不同组织中的消化酶活力差异显著,淀粉酶和蛋白酶以胰脏中活力最高,腺胃次之,纤维素酶均较低;同一组织中不同消化酶的活力差异显著,淀粉酶活性最高,蛋白酶次之,纤维素酶活力最低.这些差异提示消化酶活力大小与器官分化有关,并受食物组成的影响,因此产生了不同的酶活力分布.这是树麻雀长期适应东北地区寒冷环境的生存策略之一.     

Physiological and biochemical thermoregulatory responses of Chinese bulbuls Pycnonotus sinensis to warm temperature: Phenotypic flexibility in a small passerine

Temperature is an important environmental cue for the regulation of thermogenesis in small birds. We tested the hypothesis that a small passerine, the Chinese bulbul Pycnonotus sinensis can decrease thermogenesis in response to warmer temperatures by decreasing body mass, the organ mass and changing physiological and biochemical processes in the liver and muscle. Captive Chinese bulbuls decreased in body mass and basal metabolic rate (BMR) during 4 weeks of acclimation to 30±1 °C. They also showed a decrease in liver, kidney and small intestine mass and reduced mitochondrial state-4 respiration and cytochrome C oxidase (COX) activity in the liver and muscle compared to 10±1 °C. Furthermore, BMR was positively correlated with body mass, organ mass (liver, kidney, small intestine and entire digestive tract), and mitochondrial state-4 respiration and cytochrome C oxidase (COX) activity in the liver and muscle. These results indicate that changes in body mass, organ mass and respiratory enzyme activity are mechanisms by which Chinese bulbuls adapt to warmer temperatures. The data support the hypothesis that such physiological flexibility is ubiquitous in birds.     

贝氏高原鳅消化系统胚后发育的形态及组织结构

应用解剖学、组织学和组织化学方法,对贝氏高原鳅(Triplophysa bleekeri)消化系统的胚后发育进行观察.结果表明,贝氏高原鳅仔、稚鱼呈线性生长趋势.仔鱼出膜后1～2d为内源性营养阶段,3d进入混合营养阶段,15 d进入外源性营养阶段.初孵仔鱼口凹已经出现,出膜后3d与外界相通,9d口咽腔基本发育完成.8d食道发育基本完成.初孵仔鱼消化道雏形已现,但胃肠未明显分化.出膜后64 d胃小凹处出现胃腺,胃消化功能基本完备.初孵仔鱼肠道已经分化,出膜后27 d肠基本发育完成.初孵仔鱼具有肝前体,出膜后2d肝细胞开始分化,7d肝中出现明显的中央静脉和肝细胞索,肝组织结构与成体差异不大.3d肝前端出现胰组织,4d具有胰雏形,5d完整胰出现,胰腺细胞之间具有大量嗜曙红酶原颗粒物质;9d胰岛出现,胰组织基本发育完成.64 d消化系统各部分组织结构发育基本完成.贝氏高原鳅消化道的形态发育需要很长的时间,出膜后64 d胃肠仅前端膨大,无任何弯曲;85 d胃与食道呈直角弯曲后下行,但胃肠无明显分界;120 d胃弯曲为“Z”形后笔直下行,胃肠仍无明显分界,肝为一整体,未见分叶.1龄幼鱼,消化系统解剖结构与成鱼相似,但肝缺少右叶,肠缺少胃背面的圆环形弯曲.贝氏高原鳅消化系统的胚后发育特点和仔鱼的营养方式可能体现了长江以南地区冬天繁殖鱼类消化系统胚后发育的一般规律和仔鱼的营养趋势.