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.     

Exolytic hydrolysis of toxic plant glucosides by guinea pig liver cytosolic beta-glucosidase.

We demonstrate that although the guinea pig liver cytosolic beta-glucosidase does not catalyze the hydrolysis of gentiobiose, it does hydrolyze, disaccharide-containing glycosides such as p-nitrophenyl-beta-D-gentiobioside (Glc beta 1----6Glc beta-pNP) and mandelonitrile-beta-D-gentiobioside (amygdalin). Furthermore, we establish that the enzyme attacks disaccharide glycosides exolytically; specifically, we document the exolytic deglucosylation of amygdalin and the generation of the intermediate monosaccharide glycoside mandelonitrile-beta-D-glucoside prior to the formation of the aglycone (mandelonitrile). We also show that the cytosolic beta-glucosidase catalyzes the hydrolysis of various phenolic (e.g. arbutin and salicin) and cyanogenic plant glucosides (e.g. prunasin). Using the everted gut-sack technique, we demonstrate that the plant glucosides, amygdalin, prunasin, and vicine, are transported across the small intestine of the guinea pig efficiently and without being hydrolyzed. Based on these data we speculate that the cytosolic beta-glucosidase may participate in biotransformation of toxic plant glucosides.     

Distribution of i.v. administered epidermal growth factor in the rat

The distribution of i.v. injected ¹²⁵I-labeled epidermal growth factor (EGF) was examined in the rat. The uptake of radioactivity was examined for the following tissues: liver, kidney, skin, stomach, small intestine, colon, brain, submandibular gland, lung, spleen, and testis. ¹²⁵I-EGF was cleared from the circulation within minutes. At 2.5 min after the injection only 7% of the label was left in the blood. Most of the label was found in the liver (52%), the kidneys (14%), the small intestine (11%) and the skin (7%). The other organs examined contained 1% or less of the radioactivity. The uptake of ¹²⁵I-EGF per g tissue was markedly higher for the liver and kidneys than for the rest of the organs. By autoradiography ¹²⁵I-EGF was found in the peripheral parts of the classical liver lobule, in the proximal tubules of the kidneys, in the surface epithelium of the stomach, and in the surface epithelium of the villi in the small intestine. In conclusion the present study showed that small doses of homologous EGF was cleared from the circulation of rats within minutes, mainly by the liver, the kidneys, and the small intestine.     

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。     

The enzymic hydrolysis of amygdalin

Chromatographic examination has shown that the enzymic hydrolysis of amygdalin by an almond beta-glucosidase preparation proceeds consecutively: amygdalin was hydrolysed to prunasin and glucose; prunasin to mandelonitrile and glucose; mandelonitrile to benzaldehyde and hydrocyanic acid. Gentiobiose was not formed during the enzymic hydrolysis. The kinetics of the production of mandelonitrile and hydrocyanic acid from amygdalin by the action of the beta-glucosidase preparation favour the probability that three different enzymes are involved, each specific for one hydrolytic stage, namely, amygdalin lyase, prunasin lyase and hydroxynitrile lyase. Cellulose acetate electrophoresis of the enzyme preparation showed that it contained a number of enzymically active components.     

Tissue distribution of the 1,25-dihydroxyvitamin D3 receptor in the male rat.

Tissue distribution of 1,25-dihydroxyvitamin D3 receptors was studied in male rats using a quantitative immunoradiometric assay. Extracts were prepared from 16 different rat tissues and assayed for 1,25-dihydroxyvitamin D3 receptor. Measurable levels of receptor were detected in intestine, stomach, kidney, bone thyroid/parathyroid, skin, liver, spleen, heart and lung. The highest levels were found in the proximal small intestine and colon, containing over 1000 fmol/mg total protein, while ileum and kidney contained one-half and one-fourth of this amount, respectively. Other parts of the vitamin D endocrine system, including bone, thyroid/parathyroid and skin, contained moderate levels of receptor of 40 to 80 fmol/mg, while lung, heart, stomach, spleen and liver had levels at or below 20 fmol/mg. No 1,25-dihydroxyvitamin D3 receptor was detected in cerebrum, cerebellum or skeletal muscle. The data support a wide-spread role for 1,25-dihydroxyvitamin D3 on cellular processes and suggest a more important role for vitamin D in colon.     

Carbon monoxide generation from tin- and zinc-protoporphyrin by tissue homogenates

Both heme and tin-protoporphyrin (TP), but not zinc-protoporphyrin (ZP), supported significant NADPH-stimulated, concentration-dependent CO production in all tissues. These rates, for 400 microM substrate, ranged: for heme 0.52 (intestine) to 4.18 (spleen); for TP 0.08 (kidney) to 0.71 (liver); and for ZP 0.01 (liver) to 0.25 (kidney) nmoles CO/hr/mg protein. All three metalloporphyrins (400 microM) supported concentration-dependent CO production in the absence of NADPH. The rates ranged: for heme 0.31 (kidney) to 0.80 (spleen); for TP 0.41 (kidney) to 1.04 (intestine); and for ZP 0.12 (kidney) to 0.51 (spleen) nmoles/hr/mg protein. We conclude that both TP and ZP are subject to in vitro degradation by 13,000 x g supernatants of adult rat organs via CO-producing reactions.     

Contribution of different organs to increased glucose consumption after endotoxin administration

Glucose utilization of different organs (spleen, liver, ileum, kidney, skin, lung, and testis) was investigated in vivo in conscious rats 3, 24, or 48 h after treatment with 100 micrograms of endotoxin/100 g of body weight. Glucose uptake was determined by the 2-deoxyglucose technique, which was validated by demonstrating that endotoxin treatment did not alter either the intracellular retention of the phosphorylated metabolites (P-2-dGlc) of the tracer or the discrimination against 2-deoxyglucose in pathways of glucose metabolism. At 3 h after endotoxin the accumulation of P-2-dGlc was markedly increased in the liver (4.8-fold), spleen and skin (2.9-fold), lung (2.4-fold), and ileum and kidney (2.1-fold), as compared to time-matched controls. This effect was sustained in the liver at 24 and 48 h, was diminishing but still significant in spleen, ileum, and kidney, and absent in skin and lung. Accumulation of P-2-dGlc in the testis remained unchanged after endotoxin. Glucose uptake by individual organs and their contribution to whole body glucose utilization in control and endotoxin-treated rats were compared based on P-2-dGlc accumulation data. Organs rich in mononuclear phagocytes (liver and spleen) exhibited a marked and prolonged increase in glucose uptake after endotoxin. Yet the bulk of the increment in the whole body glucose disappearance rate (Rd) was due to three large tissues (skin, intestine, and muscle, accounting for more than 80% of the total P-2-dGlc accumulation in soft tissues), which showed a more moderate and transient increase in glucose utilization.     

Changes in glutamine synthesis activity in the different organs of developing rats

The changes experienced by the glutamine synthetase activity in the liver, kidney, striated muscle, adipose tissue, brain, stomach, small intestine and skin of developing rats have been estimated. Skin and stomach enzymes attained the adult values in the late foetal period. Striated muscle, intestine and kidney glutamine synthetase belonged to the neonatal cluster, while liver and brain rose to values comparable to those of adults in late suckling. Glutamine synthesis between different organs of the rat during development matures soon after birth, gaining a considerable importance that helps to compensate the lack of availability of other nitrogen transport systems between peripheral and splanchnic bed organs in developing rats.     

肝细胞生长因子mRNA在成年小鼠和人胎儿不同器官中的表达

本实验从成年小鼠和胎龄４－５月的人胎儿不同器官中分离总ＲＮＡ。经斑点印迹分析显示,肝细胞生长因子（ＨＧＦ）ｍＲＮＡ在成年ＫＭ小鼠多种器官中表达,其表达水平由高到低依次为：肺、肝、肾、卵巢、睾丸、大脑和胃;在脾、心、骨髓、小肠和骨骼肌组织中以ＨＧＦｍＲＮＡ。在胎龄４－５月的人胎儿中,ＨＧＦｍＲＮＡ表达水平由高到低依次为：大脑、肝、腮腺、胃、小肠、肾、心和骨骼肌;肺和脾组织为阴性。由此可见,ＨＧＦ在成     

Catalytic degradation of amygdalin by extracellular enzymes from Aspergillus niger

Amygdalin is a controversial anti-tumor natural product that has been used as an alternative cancer drug for many years. The anti-tumor mechanism and metabolism of amygdalin have been the focus of many studies. However, previous studies by our group demonstrated that amygdalin itself has no anti-tumor activity, but rather the active ingredients were determined to be amygdalin degradation products. To screen novel drugs with anti-tumor activity, the extracellular enzymes from Aspergillus niger were used to degrade amygdalin. Within 4 h of the catalytic reaction at 37°, amygdalin was rapidly degraded into four products. The products were then extracted and purified by column chromatography. By comparing the HPLC chromatograms, ¹H NMR, ¹³C NMR and MS data, the products were identified as mandelonitrile, prunasin, benzaldehyde and phenyl-(3,4,5-trihydroxy-6-methyl-tetrahydro-pyran-2-yloxy)-acetonitrile (PTMT), a novel hydroxyl derivative of prunasin. Furthermore, pharmacology studies of these compounds demonstrated that 10 mg/kg of PTMT significantly suppressed the growth of S-18 tumor cells within 11 days in a concentration-dependent manner.     

Utilization of Amygdalin during Seedling Development of Prunus serotina

Cotyledons of mature black cherry (Prunus serotina Ehrh.) seeds contain the cyanogenic diglucoside (R)-amygdalin. The levels of amygdalin, its corresponding monoglucoside (R)-prunasin, and the enzymes that metabolize these cyanoglycosides were measured during the course of seedling development. During the first 3 weeks following imbibition, cotyledonary amygdalin levels declined by more than 80%, but free hydrogen cyanide was not released to the atmosphere. Concomitantly, prunasin, which was not present in mature, ungerminated seeds, accumulated in the seedling epicotyls, hypocotyls, and cotyledons to levels approaching 4 [mu]mol per seedling. Whether this prunasin resulted from amygdalin hydrolysis remains unclear, however, because these organs also possess UDPG:mandelonitrile glucosyltransferase, which catalyzes de novo prunasin biosynthesis. The reduction in amygdalin levels was paralleled by declines in the levels of amygdalin hydrolase (AH), prunasin hydrolase (PH), mandelonitrile lyase (MDL), and [beta]-cyanoalanine synthase. At all stages of seedling development, AH and PH were localized by immunocytochemistry within the vascular tissues. In contrast, MDL occurred mostly in the cotyledonary parenchyma cells but was also present in the vascular tissues. Soon after imbibition, AH, PH, and MDL were found within protein bodies but were later detected in vacuoles derived from these organelles.     

Distribution of basic fibroblast growth factor binding sites in various tissue membrane preparations from adult guinea pig

In order to localize a rich source of basic FGF receptor, we examined the distribution of basic FGF binding sites in brain, stomach, lung, spleen, kidney, liver and intestine membrane preparations from adult guinea pig. Comparative binding studies using iodinated basic FGF showed that a specific binding was detected in all the membrane preparations tested. Scatchard plots from iodinated basic FGF competition experiment with native basic FGF in various membrane preparations, suggested the presence of one class of binding sites in some tissues such as liver, kidney, spleen, lung, stomach, and intestine with an apparent dissociation constant (appKD) value ranging from 4 to 7.5 nM and the existence of a second class of higher affinity sites in brain membranes with appKD value of 15 pM. Characterization of these basic FGF high affinity interaction sites was performed using a cross-linking reagent. These results show for the first time that specific interaction sites for basic FGF are widely distributed, suggesting that this growth factor might play a role in the physiological functions of a number of adult organs.     

Expression patterns of the chicken peroxisome proliferator-activated receptors (PPARs) during the development of the digestive organs

Peroxisome proliferator-activated receptors (PPARs) play very important roles in various biological phenomena such as regulation of lipid metabolism, homeostasis, cell differentiation and proliferation, in a variety of organs and tissues. However, their functions in the development of the digestive organs have not been studied yet, although it has been supposed that they are involved in the tumor development and regression of digestive organs. To provide fundamental data to analyze functions of PPARs in the developing digestive organs in the chicken embryos, we performed thorough analysis of expression of PPARalpha, beta (delta) and gamma in the esophagus, proventriculus (glandular stomach), gizzard (muscular stomach), small and large intestines from early developmental stages to post hatch stages. The results showed that each PPAR is expressed in spatio-temporally regulated manner. In general, PPARbeta is widely expressed among digestive organs whereas PPARalpha and gamma showed restricted expression. In the intestine, all PPARs are expressed after hatch, indicating that they play important roles in the physiology of the adult intestine.     

Taurine distribution in rat tissues during development.

1. Taurine levels have been determined in eight rat organs. 2. During postnatal growth the taurine content in retina, heart, small intestine, spleen and lung increases with advancing age, although adult values are not reached at the same time. 3. In contrast the taurine content decreases with age in brain cortex, liver and kidney. 4. The taurine in subcellular fractions of adult, 20-day-old and 5-day-old rat tissues exists predominantly in the cytosol of the cell. Taurine content in particulate fractions shows marked variations during development in the different organs. 5. Taurine distribution in the subcellular fractions suggests that some of the cellular taurine in the tissues is not freely mobile in cytosol.     

黄缘盒龟细菌性感染的观察

利用电子显微镜,对一只濒死黄缘盒龟的心、肝、脾、肺、肾、胃和肠道进行了检查,在心、肝、脾、肾均发现一种短杆状细菌感染,受染器官均出现明显的病理变化,如线粒体、高尔基体和内质网均肿大变形. 肺部虽未找到细菌,但发现有明显的病变存在,如细支气管的微绒毛脱落,并可见坏死区. 胃和肠道未发现细菌感染,未见明显的病理改变.     

Prostaglandin D2 formation and characterization of its synthetases in various tissues of adult rats

When the amounts of primary prostaglandins formed from endogenous arachidonic acid were determined in homogenates of various tissues of adult rats, prostaglandin D2 was the major prostaglandin found in most tissues. It was formed actively in the spleen (3100 ng/g tissue/5 min at 25 degrees C), intestine (2600), bone marrow (2400), lung (1100), and stomach (630); moderately in the epididymis, skin, thymus, and brain (140-340); and weakly in other tissues (less than 100). Addition of exogenous arachidonic acid (1 mM) accelerated the formation of prostaglandin D2 in all tissues as follows: spleen (15,000); bone marrow, intestine, thymus, liver, and lung (1600-5200); stomach, adrenal gland, epididymis, brain, salivary gland, skin, spinal cord, and seminal vesicle (380-1000); and other tissues (80-310). The activity of prostaglandin D synthetase (prostaglandin-H2 D-isomerase) was detected in 100,000g supernatants of almost all tissues. As judged by glutathione requirement for the reaction, inhibition of the activity by 1-chloro-2,4-dinitrobenzene, and immunotitration or immunoabsorption analyses with specific antibodies, the enzyme in the epididymis, brain, and spinal cord (1.8-9.2 nmol/min/mg protein) was glutathione-independent prostaglandin D synthetase (Y. Urade, N. Fujimoto, and O. Hayaishi (1985) J. Biol. Chem. 260, 12410-12415). The enzyme in the spleen, thymus, bone marrow, intestine, skin, and stomach (2.0-57.1) was glutathione-requiring prostaglandin D synthetase (Y. Urade, N. Fujimoto, M. Ujihara, and O. Hayaishi (1987) J. Biol. Chem. 262, 3820-3825). The activity in the kidney and testis (3.7-4.5) was catalyzed by glutathione S-transferase. The activity in the liver, lung, adrenal gland, salivary gland, heart, pancreas, and muscle (0.6-5.1) was due to both the glutathione-requiring synthetase and the transferase.     

Altered regional blood flow responses to submaximal exercise in older rats.

Maximal aerobic capacity and the ability to sustain submaximal exercise (Ex) declines with advancing age. Whether altered muscle blood flow (BF) plays a mechanistic role in these effects remains to be resolved. The present investigation determined the effects of aging on the hemodynamic and regional BF response to submaximal Ex in rats. Heart rate (HR), mean arterial pressure (MAP), and BF to different organs (kidneys, splanchnic organs, and 28 hindlimb muscles) were determined at rest and during submaximal treadmill Ex (20 m/min, 5% grade) with radiolabeled microspheres in young (Y; 6-8 mo old, 339 +/- 8 g, n = 9) and old (O; 27-29 mo old, 504 +/- 18 g, n = 7) Fischer 344 x Brown Norway rats. Results demonstrated that HR, MAP, and BF to the pancreas, small and large intestine, and total hindlimb musculature were similar between Y and O rats at rest. BF to the kidneys, spleen, and stomach were 33, 60, and 43% lower, respectively, in O compared with Y rats. BF to the total hindlimb musculature increased (P < 0.05) during Ex and was similar for both Y and O rats (Y: 16 +/- 3 to 124 +/- 7 vs. O: 20 +/- 3 to 137 +/- 12 ml.min-1.100 g-1). However, in O vs. Y rats, BF was reduced in 6 (highly oxidative) and elevated in 8 (highly glycolytic) of the 28 individual hindquarter muscles or muscle parts examined (P < 0.05). During Ex, BF to the spleen and stomach decreased (P < 0.05) from rest in Y rats, whereas BF decreased in the kidneys, pancreas, spleen, stomach, as well as the small and large intestines of O rats. In conclusion, these data demonstrate that, despite similar increases in total hindlimb BF in Y and O rats during submaximal Ex, there is a profound BF redistribution from highly oxidative to highly glycolytic muscles.     

Immunohistochemical localization of heparan sulfate proteoglycan in human gastrointestinal tract

Heparan sulfate proteoglycans (HS-PGs) are associated with important cell functions, for example, cell motility, cell adhesion, and oncogenesis. We examined the localization of HS-PGs in normal and carcinoma tissues of the gastrointestinal tract to help elucidate their roles in these organs. Fresh surgical materials from 134 patients with carcinoma of the stomach or large intestine and 26 patients with various diseases of the small intestine were immunostained after fixation with 10E4 (an antibody against the HS of HS-PG) as a primary antibody. Immunoelectron microscopy (immunogold method) was also performed. The basolateral surfaces of normal tissues of the large and small intestines were strongly stained with antibody confirmed by electron microscopy. In the stomach, lesions with intestinal metaplasia showed the same staining as the intestines, although normal gastric tissue showed staining only in some parts of the basal layer of fundic and pyloric glands. Carcinoma tissues in all cases examined showed staining with antibody. Better results were obtained after fixation in acetic alcohol or zinc-containing solutions than in ordinary formalin. These characteristic localizations of HS-PG in intestines and stomachs suggest that this kind of HS-PG staining could be a hallmark characteristic of the intestine.     

Ethanol and the antioxidant defense in the gastrointestinal tract.

Ethanol is known to have profound actions on the gastrointestinal tract. The present study was undertaken to examine the effects of ethanol on some of the natural antioxidant defensive enzymes in the gastrointestinal tract; the activities of these enzymes in the liver and the brain were also measured for comparison with those in the gastrointestinal tract. Oral administration of absolute ethanol induced severe gastric mucosal lesions and also damage in the small intestine, however the total superoxide dismutase was unaffected in the tissues measured. The glucose-6-phosphate dehydrogenase activity was reduced only in the stomach while the total glutathione was elevated in the small intestinal mucosa. The catalase activities were activated in the stomach, small and large intestines, and brain, but not in the liver which contained the highest concentration of the enzyme. The present findings indicate that endogenous hydrogen peroxide may be an important damaging agent towards biomolecules in different organs and the removal of this by catalase represents an important defensive mechanism against ethanol toxicity.