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Target Concepts:
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Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Pancreatic microcirculation in acute pancreatitis and the effect of dopamine and pancreatic protease inhibitor were investigated in 35 mongrel dogs. Acute pancreatitis was induced by the injection of autologous bile added
trypsin
into pancreatic duct. In acute pancreatitis dogs femoral artery pressure and pulse pressure gradually decreased and pancreatic microflow in basal state temporarily increased immediately after bile injection, however, thereafter continuously decreased during the experiments.
Portal
flow severely decreased just after onset of acute pancreatitis. By administration of dopamine femoral artery pressure was maintained during the first 90 minutes of experiments, however, thereafter decreased until the end of experiments. Pancreatic microflow, 56.1 +/- 15.3 ml/min/100g in basal level was shown 66.1 +/- 13.7 and 60.3 +/- 10.3 ml/min/100g at 1 and 2 hours, respectively, after bile injection, which were significantly high values as compared with those of non dopamine administration. However those values decreased at 5 hours of both experiments.
Portal
flow whose basal level was 237 +/- 67 ml/min was maintained during the first 1 hour however it decreased to 139 +/- 25 ml/min at 5 hours. By administration of pancreatic protease inhibitor femoral artery pressure and pulse pressure, temporarily decreased immediately after bile injection, however, they were maintained thereafter. Pancreatic microflow, 57.1 +/- 18.3 ml/min/100g in basal level, was maintained during the first 2 hours, however significantly decreased to 27.6 +/- 9.7 ml/min/100g at 5 hours.
Portal
flow significantly increased to 442 +/- 115 ml/min at 2 hours, however, thereafter decreased 219 +/- 93 ml/min at 5 hours.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:[Pancreatic microcirculation in acute pancreatitis of dogs]. 336 29
Met-enkephalin is known to circulate in human and animal plasma in low levels. However, the source(s) of plasma met-enkephalin have not been completely elucidated. It has been proposed that the adrenal gland, sympathetic nerves, pancreas and the gut might be implicated. Recently, markedly elevated levels of met-enkephalin have been documented in the presence of liver disease. To investigate potential sources of met-enkephalin in liver disease, rats with acute cholestatic hepatitis 24 h after gavage with alpha naphthylisothiocyanate (ANIT) 100 mg/kg were studied. Plasma met-enkephalin levels were determined by radioimmunoassay in plasma samples from normal, adrenalectomized, or chemically sympathectomized animals. In control rats, ANIT treatment resulted in a striking 8.7-fold increase in systemic venous met-enkephalin levels (inferior vena cava) (P < or = 0.0005) and a significant increase in peptidase-derived met-enkephalin levels (determined after
trypsin
/carboxypeptidase B digestion of plasma samples) (P < or = 0.05). ANIT-treatment also resulted in a 5.6-fold increase in portal vein met-enkephalin levels (P < or = 0.005).
Portal
vein met-enkephalin levels were only 1.2-fold higher than IVC levels in ANIT-treated rats (P < or = 0.05). Plasma activities of the two main enkephalin degrading enzymes, aminopeptidase and enkephalinase, were similar in control and ANIT-treated rats. Chemical sympathectomy, prior to ANIT treatment, decreased the elevation in inferior vena caval met-enkephalin levels by 35% (P < or = 0.005). Adrenalectomy did not alter ANIT-induced increases in circulating met-enkephalin levels (pNS).(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Sympathetic nerves, but not the adrenal gland, contribute to elevated plasma levels of met-enkephalin in rats with acute cholestatic hepatitis. 821 May 12
Leukocyte adhesion may play a central role in the pathogenesis of preservation-reperfusion injury to liver grafts. We previously showed that lymphocyte adhesion to sinusoids is dependent on the length of cold ischemia. In the present study we examined the mechanisms of lymphocyte adherence after harvesting combined with a short and a long preservation time. The effects of lymphocyte adherence on liver function were also examined. Rat livers were stored at 1 degrees C in University of Wisconsin solution for 45 min or 30 hr and then reperfused at 37 degrees C in the isolated perfused rat liver with isogeneic lymphocytes in an asanguineous perfusate. The role of reactive oxygen intermediates was investigated with allopurinol, a vitamin E analog and ascorbate or superoxide dismutase and catalase. For us to determine the role of Kupffer cells, Kupffer cell blockade was produced by gadolinium chloride. Leukotriene B4 effects were examined with the lipooxygenase inhibitor, nordihydroguaiaretic acid. We evaluated the possible presence of mechanical obstruction by studying flow rates and the circulation of red blood cells. We examined the role of adhesion molecules by pretreating lymphocytes with
trypsin
or neuraminidase and by exposing livers to arabinogalactan. We investigated the effects of lymphocyte adhesion on liver function by comparing perfusate liver enzymes in livers reperfused with and without lymphocytes, with trypsinized lymphocytes and with an increased number of lymphocytes. Allopurinol significantly reduced hypoxanthine degradation, and nordihydroguaiaretic acid inhibited leukotriene B4 release into the perfusate. The ability of gadolinium chloride to inhibit Kupffer cells was shown by colloid carbon uptake. In livers harvested and preserved for 45 min, lymphocytes decreased about 40% during reperfusion. In livers preserved for 30 hr, the reduction was significantly greater (about 80%). Lymphocyte adherence was lessened in livers preserved for 45 min by all three of the reactive oxygen intermediate protectants and by gadolinium chloride. In contrast, neither reactive oxygen intermediate protectants nor gadolinium chloride reduced adherence in livers preserved for 30 hr. Nordihydroguaiaretic acid had no effect in livers preserved for either 45 min or 30 hr.
Portal
flow in livers preserved for 45 min and 30 hr was similar, suggesting an absence of mechanical obstruction, and this finding was supported by a complete absence of red cell trapping. Trypsinization of lymphocytes and exposure of livers to arabinogalactan significantly lessened lymphocyte adherence in livers preserved for 30 hr but not in those preserved for 45 min.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Lymphocyte adherence in the reperfused rat liver: mechanisms and effects. 838 Jul 89
Portal
blood leukocytes play an important, but still poorly defined, role in the immune processes of the liver. In our previous studies, we showed that certain leukocyte subsets are selectively halted in the liver. These cells marginate in sinusoids and, together with resident Kupffer and endothelial sinusoidal cells, participate in antiviral and antitumor processes. The molecular mechanisms of margination and cooperation with resident sinusoidal cells require clarification. However, in vivo harvesting of portal blood leukocytes is associated with cumbersome cannulation of portal and hepatic veins and manipulation of the liver, causing major disturbances in splanchnic blood flow and liver blood supply, totally distorting sinusoidal blood perfusion and leukocyte margination. To overcome these difficulties, we have developed an in situ normothermic rat liver perfusion model permitting quantitative observations of blood leukocyte extraction in sinusoids. First, liver was flushed through the portal vein and the effluent leukocytes, named liver-associated leukocytes (LAL1), were collected from hepatic veins. Then, the liver was perfused for 60 min with 50 ml of blood using a semiclosed perfusion system. Upon completion of perfusion, the liver portal vasculature was flushed again to retrieve the leukocytes extracted from the perfusing blood (LAL2). These cells were characterized with respect to their phenotype and cytotoxicity. The mean leukocyte count of the washout before perfusion was 1.04+/-0.2x10(6)/g of liver tissue and 0.9+/-0.1x10(6)/g after 60 min of perfusion, indicating retention by the perfused liver, the live leukocyte extracting capacity. To further evaluate the efficiency of perfusion, FITC-labelled leukocytes were added to the perfusing leukocyte-free blood. Around 95% of the postperfusion washout LALs were FITC(+). Heat-killed leukocytes did not marginate in sinusoids. Preincubation of leukocytes with substances able to lower adhesion capacity, such as lidocaine,
trypsin
and AAGM1, significantly decreased the postperfusion LAL2 washout population. The numbers of extracted postperfusion LAL2 CD5(+), CD4(+), CD8(+), CD56(+) and class II(+) subsets did not differ statistically from those of preperfusion LAL1. Moreover, the cytotoxicity of LAL2 and LAL1 against CC531 and K562 remained at a similar level. Thus, perfused liver also retained its selective leukocyte extraction capacity. This model shows that the process of selective margination of portal blood cell subsets in the liver can be studied in an artificially perfused liver subject to physiological blood flow parameters, temperature, oxygenation and minimal ischemic time before connection to the perfusion device. Furthermore, it is suitable for studies of the selective recruitment of blood cells in sinusoids in a wide large of situations including liver tumors, infections, rejection after transplantation, graft vs. host disease, as well as in the investigation of the effect of drugs on these processes.
...
PMID:A liver perfusion model for studies of selective adherence and transient halting of portal blood leukocytes in sinusoids. 1250 17
