Role of Y(2) receptors in the regulation of gastric tone in rats

We set out to determine the effect of peptide YY(3-36) (PYY(3-36)) on the gastric muscle tone in conscious rats by measuring intragastric pressure (IGP) during intragastric nutrient drink infusion. After an overnight fast, a chronically implanted gastric fistula was connected to a custom-made nutrient drink infusion system and a catheter to measure IGP. IGP was measured before and during the infusion of a nutrient drink (Nutridrink; 0.5 ml/min) until 10 ml was infused. Rats were treated with PYY(3-36) (0, 33, and 100 pmol·kg(-1)·min(-1)) in combination with a subcutaneous injection of the Y(2) receptor antagonists JNJ31020028 (10 mg/kg) or BIIE0246 (2 mg/kg). Experiments were also performed after subdiaphragmatic vagotomy and after pretreatment with 3 ml of nutrient drink (to mimic a fed state). IGP was compared as the average IGP during nutrient infusion, represented as means ± SE and compared using ANOVA. PYY(3-36) dose dependently increased the IGP during nutrient infusion (4.7 ± 0.3, 5.7 ± 0.5 and 7.3 ± 0.7 mmHg; P < 0.01) while JNJ31020028 and BIIE0246 could block this increase [4.4 ± 0.5 (P < 0.001) and 4.8 ± 0.4 (P < 0.05) mmHg, respectively]. Also in vagotomized rats, PYY(3-36) was able to significantly increase the IGP during, an effect attenuated by JNJ31020028. BIIE0246 and JNJ31020028 were not able to decrease the IGP when no PYY(3-36) was administered. PYY(3-36) increased gastric tone through an Y(2) receptor-mediated mechanism that does not involve the vagus nerve. Y(2) receptor antagonists were not able to decrease gastric tone without exogenous administration of PYY(3-36), indicating that Y(2) receptors do not play a crucial role in the determination of gastric tone in physiological conditions.     

Fos Expression in the Rat Brain After Intraperitoneal Injection of Staphylococcus Enterotoxin B and the Effect of Vagotomy

The current study was designed to locate the neuronal activation in rat brain following intraperitoneal injection of Staphylococcus enterotoxin B (SEB) and observe the consequence of preliminary subdiaphragmatic vagotomy on SEB-induced brain Fos expression to clarify the role of the vagus nerve in sensation and transmission of abdominal SEB stimulation. The results showed that intraperitoneal SEB (1 mg/kg) induced a robust Fos expression in widespread brain areas. A significant increase of Fos immunoreactive cells were observed in the solitary tract nucleus, locus ceruleus, lateral parabrachial nucleus, ventrolateral part of central gray, medial amygdaloid nucleus, central amygdaloid nucleus, ventromedial part of thalamus, dorsomedial part of thalamus, hypothalamic paraventricular nucleus, lateral habenula, and lateral septum nucleus following SEB challenge. In hypothalamic paraventricular nucleus, in addition to the dense Fos expression in the parvocellular portion, some Fos-positive cells were also observed in the anterior magnocellular nucleus of the complex. Double immunofluorescence studies showed that these Fos-immunoreactive cells were mostly oxytocinergic. The results also showed that subdiaphragmatic vagotomy largely attenuated, but not totally abrogated, the brain Fos expression induced by abdominal administration of SEB. Our data suggest that peripheral SEB stimulation can induce activation of neurons in widespread brain areas and that the vagus plays a crucial role in transmitting the signal of abdominal immune stimulation to the brain.     

Tight Junction Dynamics in the Frog Urinary Bladder

In a previous study in frog skin (Castro et al., J. Memb. Biol. 134:15-29, 1993), it was shown that TJs experimentally disrupted by a selective deposition of BaSO₄ could be re-sealed upon addition of Ca²⁺to the apical solution; in the absence of apical Ca²⁺, the normal Ca²⁺ activity of the Na₂SO₄-Ringer's bathing the basolateral side was not able to induce TJ resealing. We now show that apical Ca²⁺also activates the TJ sealing mechanism in frog urinary bladders. Three known procedures were utilized to increase TJ permeability, all in the absence of apical Ca²⁺: (i) exposure to high positive transepithelial clamping potentials; (ii) exposure of the apical surface to hypertonic solutions; and (iii) selective deposition of BaSO₄ in the TJs. The resealing of the TJs was promoted by raising the concentration of Ca²⁺ in the apical solution. This effect of Ca²⁺ is not impaired by the presence of Ca²⁺ channel blockers (nifedipine, verapamil, Mn²⁺ or Cd²⁺) in the apical solution, indicating that junction resealing does not depend on Ca²⁺ entering the cells through the apical membrane. TJ resealing that occurs in response to raised apical Ca²⁺ most likely results from a direct effect of Ca²⁺, entering the disrupted TJs from the apical solution and reaching the zonula adhaerens Ca²⁺ receptors (E-cadherins). Protein kinase C (PKC) must play a significant role in the control of TJ assembly in this tight epithelia since the PKC inhibitor (H7) and the activator (diC8) markedly affect TJ recovery after disruption by apical hypertonicity. H7 treated tissues show marked recuperation of conductance even in the absence of apical Ca²⁺. In contrast, diC8 prevents tissue recuperation which normally occurs after addition of Ca²⁺ to the apical solution.     

A brain-liver circuit regulates glucose homeostasis

Increased glucose production (GP) is the major determinant of fasting hyperglycemia in diabetes mellitus. Previous studies suggested that lipid metabolism within specific hypothalamic nuclei is a biochemical sensor for nutrient availability that exerts negative feedback on GP. Here we show that central inhibition of fat oxidation leads to selective activation of brainstem neurons within the nucleus of the solitary tract and the dorsal motor nucleus of the vagus and markedly decreases liver gluconeogenesis, expression of gluconeogenic enzymes, and GP. These effects require central activation of ATP-dependent potassium channels (K(ATP)) and descending fibers within the hepatic branch of the vagus nerve. Thus, hypothalamic lipid sensing potently modulates glucose metabolism via neural circuitry that requires the activation of K(ATP) and selective brainstem neurons and intact vagal input to the liver. This crosstalk between brain and liver couples central nutrient sensing to peripheral nutrient production and its disruption may lead to hyperglycemia.     

柔木丹改善小鼠肝纤维化的TGF-β1/Smad4信号通路机制*

目的:探讨柔木丹(RMD)对改善CCl₄诱导的小鼠肝纤维化的TGF-β1/果蝇抗生物皮肤生长因子蛋白家族4号因子(Smad4)信号通路机制。方法:雄性BALB/c小鼠随机分为空白对照组、模型组、RMD治疗组(n=11)。腹腔注射CCl₄诱导小鼠肝纤维化模型,模型及RMD治疗组小鼠腹腔注射20 % CCl₄(CCl₄∶橄榄油=1∶4),注射量为2.5 ml/kg,空白对照组以同样方法注射等量橄榄油,每周2次;第2周起调整模型及RMD治疗组小鼠CCl₄腹腔注射量为5 ml/kg(空白对照组注射等量橄榄油),每周2次。成模后,RMD治疗组小鼠使用RMD灌胃给药(6.2 g/(kg·d);空白对照组、模型组使用等量的水灌胃),模型及RMD治疗组小鼠继续腹腔注射20 % CCl₄,注射量为1.5 ml/kg(空白对照组注射等量橄榄油),每周1次,持续3 周。采取各组小鼠血清样本检测谷丙转氨酶(ALT)、谷草转氨酶(AST)活性;采取各组小鼠肝组织样本使用HE、Masson、原位杂交、免疫组织化学染色、Western blot、Q-PCR等方法进行检测。结果:与正常组相比,CCl₄造模5 周后,模型组小鼠肝脏纤维化病理特征明显。与模型组相比,RMD治疗3 周,治疗组小鼠肝组织病理学改变减轻,小鼠的肝脏指数(P＜0.01)、血清中的ALT(P＜ 0.01)、AST(P＜0.01)活性、肝组织中羟脯氨酸的含量(P＜0.05)均降低;Ⅰ型胶原(Collagen Ⅰ,P＜0.01)、Ⅲ型胶原(Collagen Ⅲ,P＜0.01)表达减少,胶原沉积减少;肝组织中TGF-β1(P＜0.05)和α-SMA(P＜0.05)表达均降低;肝组织中Smad4阳性表达区域缩小、表达强度降低。结论:RMD通过抑制TGF-β1/Smad4通路信号转导,减少胶原沉积,进而发挥抗小鼠肝纤维化的作用。     

电刺激猕猴迷走神经中枢端对海马单位放电的影响

本文观察了用强电刺激猕猴颈迷走神经中枢端,对海马单位放电活动的影响。结果如下:(1)刺激迷走神经中枢端,海马单位放电频率,多数增加,部分减少,少数不变;侧脑室注射吗啡后,刺激迷走神经中枢端,增频反应的单位增多,减频反应的单位减少。(2)侧脑室注射纳洛酮,可明显拮抗吗啡的上述作用,使发生增频反应的单位减少,减频反应的单位增多。由此表明,迷走传入冲动可影响海马单位放电活动。并且提示,胆碱能纤维与海马脑啡肽能神经元之间存在着机能上的联系。     

The effect of vagotomy on the satiety effects of neuropeptides and naloxone

As abdominal vagotomy blocks the satiety effect of cholecystokinin-octapeptide, we felt it would be worthwhile to examine whether the satiety effect of any of the other putative satiety neuropeptides was mediated through the vagus. We confirmed that the satiety effect of peripherally administered cholecystokinin (10 micrograms/kg) was mediated through the vagus. In addition, the satiety effect of peripherally administered TRH (8 mg/kg) also was not present in vagotomized animals. Vagotomy had no effect on the satiety effects of peripherally administered bombesin, calcitonin and naloxone. Nor did vagotomy alter the satiety effect produced by central administration of bombesin, TRH, calcitonin nor naloxone.     

Acute abdominal vagotomy reduces drinking to peripheral but not central angiotensin II

Rats were tested two or three days after bilateral abdominal vagotomy or a laparotomy control procedure for their drinking responses to subcutaneous (1 mg-kg-1) or intracerebroventricular (100 ng) injections of angiotensin II. Vagotomy delayed the initiation of drinking and decreased 60-min water intake after subcutaneous, but not after intracerebroventricular, angiotensin II. This is the shortest postoperative interval in which the decrease in drinking after systemic injection of angiotensin II by abdominal vagotomy has been observed. The failure of vagotomy to decrease the response to intracerebroventricular angiotensin II demonstrates that the deficit after subcutaneous injection was not a nonspecific effect of recent vagotomy. These results, therefore, suggest that the abdominal vagus is necessary for normal drinking in response to circulating angiotensin II. Furthermore, the selective and acute onset of the deficit is consistent with the loss of a specific, rather than tonic facilitatory, vagal mechanism for drinking after elevation of circulating angiotensin II levels. Finally, the results imply that the physiological mechanisms which mediate the drinking responses to central and peripheral angiotensin are not identical.     

Effect of intermittent CO2 enrichment during nutrient starvation on tertiary treatment of wastewater by alginate-immobilized Scenedesmus bicellularis

A method of accelerating the removal of ammonium and phosphate by the unicellular microalga Scenedesmus bicellularis is presented for municipal tertiary wastewater treatment using immobilized cells to obtain a high quality of effluents. Microalgal cells grown in defined medium were harvested by centrifugation and stored at 4°C in the dark for 8 months before immobilization. The concentrated cell suspension was then immobilized in alginate films supported on polypropylene screens. Immobilized cells were incubated in a water-saturated air stream enriched with CO₂ at 750, 1,000, or 1,500 ppm for 3 h periods followed by 2 h periods without enrichment. The quantitative effects of these three CO₂ enrichments on nutrient uptake from secondary municipal wastewater effluent were compared to a control laboratory air at 320 ppm under the same conditions of illumination, photoperiod, and humidity. The exposure cycle of 48-h nutrient deprivation in air with CO₂ enrichment followed by 2 h of nutrient uptake from wastewater was repeated three times with a residual NH₄---N content dropping to 0% after 105 min for the 1,500 ppm CO₂ treatment and to 34% of the initial level after 120 min for the control treatment. Complete PO₄---P removal required more than 2 h. The chlorophyll a contents obtained with 1,000 and 1,500 ppm CO₂ enrichments were comparable. This study establishes that intermittent CO₂ enrichment during nutrient deprivation of immobilized microalgal cells in a water-saturated air stream may accelerate tertiary wastewater treatment.     

不同营养条件下竹叶眼子菜NH4+-N吸收动力学的初步研究

以竹叶眼子菜(Potamogeton malaianus)无菌系种苗为试验材料,研究了不同水体营养浓度水平(低营养:TN0.213 mg·L^-1,TP 0.0093 mg·L^-1;中营养:TN 0.71 mg·L^-1,TP 0.031 mg·L^-1;高营养:TN 7.1 mg·L^-1,TP0.31 mg·L^-1)对其生长与NH₄⁺-N的吸收动力学参数的影响。结果表明,不同浓度水体营养对竹叶眼子菜生长的影响较小,而NH₄⁺-N的吸收动力学参数有显著差异。竹叶眼子菜在高、中和低营养培养条件下的NH₄⁺-N最大吸收速率V_max分别为41.1、29.1、21.1μmol·g^-1·h^-1,米氏常数K_m分别为0.356、0.306、0.122 mmol·L^-1。竹叶眼子菜营养吸收动力学与其生长环境关系紧密,在低浓度生长环境中时,竹叶眼子菜可以通过降低K_m值来提高对营养离子的亲和力以满足营养需求;在高浓度生长环境中,该植物通过增大吸收潜力来适应高营养。     

Dorsal medullary oxytocin, vasopressin, oxytocin antagonist, and TRH effects on gastric acid secretion and heart rate

Injections of oxytocin and TRH (11 picomoles), centered on the dorsal motor nucleus of the vagus, substantially increased gastric acid secretion. Additionally, oxytocin, but not TRH, simultaneously produced a consistent reduction in heart rate. Vasopressin injected into the same locus, at doses of 11 and 110 picomoles, had no effect on either function. Both the gastric and cardiac effects of oxytocin were eliminated by the central injections of oxytocin antagonist dEt₂Tyr(Et)Orn⁸Vasotocin (ETOV; 6 picomoles) or peripheral administration of atropine (300 μg/kg, IP). Application of oxytocin or TRH to the area postrema, at double the dosage (22 picomoles) yielded no consistent effects on either gastric secretion or heart rate. These findings indicate that oxytocin in the dorsal motor nucleus of the vagus may act as a regulator of vagally-mediated gastric and cardiovascular functions while TRH effects, in this medullary area, seem limited to the regulation of gastric function.     

胃壁肾上腺素能受体作用的分析

选用46只 Wistar 大鼠,分别观察了酚妥拉明和心得安对迷走神经完整和切断迷走神经大鼠胃内压的影响。结果为:酚妥拉明对迷走神经完整大鼠的胃内压没有影响,但能使切断迷走神经大鼠的胃内压明显下降,心得安可使去迷走神经和迷走神经完整大鼠的胃内压均升高,且两者无明显差异。结果表明:(1)支配胃的肾上腺素能神经紧张性作用主要表现为抑制;(2)β-受体可能仅位于胃平滑肌上,且介导抑制作用;(3)依赖迷走神经发挥作用的 α-受体介导抑制作用,而胃壁平滑肌上的 α 受体介导兴奋作用。     

Effect of practolol on experimental hypertension in dogs]

In the dog, the intra-venous injection of practolol (1 to 3 mg/kg) reduces the hypertension provoked by vagotomy and sino-aortic nerves section, or by intra-venous administration of potassium cyanide. But practolol differs from propranolol ; he does not modify hypertension observed after electrical stimulation of central end of saphene, laryngeal superior, or vagus nerf.     

大鼠蓝斑核对迷走-迷走抑胃反射的加强作用

本文研究了蓝斑核对迷走-迷走抑胃反射的影响。实验结果表明,单独刺激迷走神经中枢端抑制胃电和胃运动,胃电慢波的振幅和胃内压分别下降到对照值的60.9％和45.7％,与对照值相比有明显的统计学意义(P<0.05)。刺激迷走神经中枢端的同时,以弱刺激刺激蓝斑核时,胃电慢渡的振幅和胃内压分别下降到对照值的42.1％和34.1％,与单独刺激迷走神经的效果相比较有非常显著的差异(P<0.01)。本文结果提示:蓝斑核的兴奋加强迷走-迷走抑胃反射。     

Statistical media optimization for cell growth and azadirachtin production in Azadirachta indica (A. Juss) suspension cultures

Azadirachtin is one of the most widely used biopesticide originating from a plant source. Its production from plant cell cultivation was viewed to overcome constraints associated with its regular supply from the seed kernels. In order to select the effective carbon and nitrogen source, different concentrations of carbon (sucrose/glucose) and nitrogen (NO₃⁻/NH₄⁺ ratio) were studied in A. indica suspension culture. Glucose turned out to be a better carbon source over sucrose yielding high biomass (6.32 g/L) and azadirachtin (11.12 mg/L) content. Nitrate alone as nitrogen source was favorable for both biomass and azadirachtin accumulation. Plackett–Burman design was adopted to select the most important nutrients influencing the growth and azadirachtin accumulation in suspension culture. After identifying effective nutrients, Central Composite Design (CCD) was used to develop mathematical model equations, study responses and establish the optimum concentrations of the key nutrients for higher growth and azadirachtin production. A maximum of 15.02 g/L biomass and 2.98 mg/g azadirachtin was produced using optimum nutrient concentrations representing 99 and 96% validity of the model prediction with respect to biomass and azadirachtin, respectively. This optimized media can be used for cultivation of A. indica cells in bioreactor for mass production of azadirachtin.     

Effects of phenolic acids on ammonia oxidation by terrestrial autotrophic nitrifying microorganisms

Abstract It has been hypothesized that vegetation in certain ecosystems inhibits nitrification in soil by producing phenolic compounds that inhibit oxidation of ammonia by nitrifying microorganisms. This hypothesis is based largely on a report that very low concentrations (10⁻⁶ M–10⁻⁸ M) of several phenolic acids (notably ferulic acid) completely inhibited NO₂⁻ production in an aqueous suspension of soil treated with (NH₄)₂SO₄ and a nutrient solution suitable for growth of Nitrosomonas and other autotrophic nitrifying microorganisms. To evaluate this hypothesis, we determined the effects of three ohenolic acids (ferulic acid, caffeic acid, and p -coumaric on nitrite production by representatives of three genera of terrestrial autotrophic nitrifying microorganisms ( Nitrosospira, Nitrosomonas , or Nitrosolubos ) grown on a defined medium containing NH₄⁺. We found that nitrite production by the Nitrososspira was not inhibited by ferulic acid, caffeic acid, or p -coumaric acid at concentrations of 10⁻⁶ or 10⁻⁵ M and was only slightly inhibited when these acids were at a concentration of 10⁻⁴ M. We also found that ferulic acid did not markedly inhibit nitrite production by the three genera of nitrifying microorganisms studied, even when its concentration was as high as 10⁻³ M. These observations invalidate the hypothesis tested because the phenolic acids studied did not significantly retard ammonia oxidation by autotrophic microorganisms even when their concentration in cultures of these microorganisms greatly exceeded their concentrations in soils.     

Effect of CCK pretreatment on the CCK sensitivity of rat polymodal gastric vagal afferent in vitro

To prevent the blood-borne interference and reflex actions via neighboring organs and the central nervous system, the study was conducted in an in vitro isolated stomach-gastric vagus nerve preparation obtained from overnight-fasted, urethan-anesthetized rats. Afferent unit action potentials were recorded from the gastric branch of the vagus nerve. The left gastric artery was catheterized for intra-arterial injection. In vitro we found that 1) 55/70 gastric vagal afferents (GVAs) were polymodal, responding to CCK-8 and mechanical stimuli, 13 were mechanoreceptive, and 2 were CCK-responsive; 2) sequential or randomized intra-arterial injections of CCK-8 (0.1-200 pmol) dose-dependently increased firing rate and reached the peak rate at 100 pmol; 3) the action was suppressed by CCK-A (Devazepide) but not by CCK-B (L-365,260) receptor antagonist; 4) neither antagonist blocked the mechanosensitivity of GVA fibers. These results are consistent with corresponding in vivo well-documented findings. Histological data indicate that the layered structure of the stomach wall was preserved in vitro for 6-8 h. Based on these results, it seems reasonable to use the in vitro preparation for conducting a study that is usually difficult to be performed in vivo. For instance, because there was no blood supply in vitro, the composition of the interstitial fluid, i.e., the ambient nerve terminals, can be better controlled and influenced by intra-arterial injection of a defined solution. Here we report that acutely changing the ambient CCK level by a conditioning stimulus (a preceding intra-arterial injection of increasing doses of CCK-8) reduced the CCK sensitivity of GVA terminals to a subsequent test stimulus (a constant dose of CCK-8 intra-arterial injection).     

The vagus-inhibiting action of alpha-endorphin]

An intravenous bolus injection of 0.1 ml alpha-endorphin (1 x 10(-8)-1 x 10(-4) g/ml) didn't change the heart rate in frogs. The parasympathetic bradycardia induced by the peripheral vagus stimulation was decreased by alpha-endorphin. This vago-inhibitory action was dose-dependent (1 x 10(-5)-1 x 10(-4) g/ml). The maximal inhibitory action was watched in 4-8 and 9-15 minutes after bolus injection of alpha-endorphin in concentration of 1 x 10(-5) and 1 x 10(-4) g/ml accordingly.     

Adrenal modulation of the inhibitory effect of corticotropin releasing factor on feeding

Corticotropin releasing factor (CRF) reduces food intake in rats after central administration. In these studies we examined whether the adrenal gland and the vagus were involved in CRF suppression of intake. One hour intake was reduced by a 5 μg (ICV) injection of CRF in sham but not adrenalectomized rats maintained on 0.9% NaCl. In a separate experiment on rats maintained on tap water, the inhibitory effect of CRF (5 μg) lasted at least 4 hours in sham rats whereas adrenalectomized rats did not significantly differ from controls. These experiments suggest that the adrenal gland modulates the feeding response to CRF. As replacement with corticosterone (0.75 mg/kg) in total adrenalectomized rats did not restore responsiveness to 5 or 10 μg of CRF, we next studied whether the adrenal medulla was responsible for the decreased responsiveness to CRF. In rats lacking the adrenal medulla only, food intake was reduced by a 5 μg injection of CRF; in sham rats, intake was significantly reduced by doses as low as 0.1 μg of CRF. An additional experiment examined the effect of gastric vagotomy on the CRF feeding response. Vagotomized rats were as responsive to 5 and 10 μg injections of CRF as sham rats, which suggests that the effect is not dependent on the vagus nerve. These findings indicate that the adrenal gland, primarily the medulla, plays an intermediate role in the reduction of food intake caused by central injections of CRF. This conclusion is consistent with the known effect of CRF on adrenomedullary discharge.     

A novel dodecadepsipeptide, cereulide, is an emetic toxin of Bacillus cereus

Abstract A vacuole-formation substance, cereulide of Bacillus cereus , is an emetic toxin in animals. Both oral administration and intraperitoneal injection of cereulide caused dose-dependent emesis in Suncus murinus , a new animal model of emesis. Vagotomy or a 5-HT₃ receptor antagonist completely abolished this emetic effect. Therefore, cereulide causes emesis through the 5-HT₃ receptor and stimulation of the vagus afferent. We also found that our purified cereulide caused swelling of mitochondria of HEp-2 cells.