Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023890 (cirrhosis)
42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The behaviour of prekallikrein (PKK), factor XII, high molecular weight kininogen (HMWK) and kallikrein-inhibitor (KK-I) in 367 patients with various diseases is described. Malignancies lead to elevation of factor XII and KK-I, and reduction of PKK. The effect is more pronounced in patients with metastases. In renal diseases also one or more of the above mentioned parameters are abnormal. Defects requiring dialysis treatment significantly impair the contact factors. In this group low levels of PKK, Factor XII and HMWK and increased KK-I are common. In chronic renal disease patients, only F XII and KK-I are elevated, whereas PKK and HMWK are normal. Kidney transplantation leads to a rise in KK-I and reduction of PKK and HMWK. The values almost normalize few days after the operation. Factor XII, slightly increased immediately after transplantation, remains high in long term transplant recipients, whereas HMWK falls below normal. In liver disease patients, acute and chronic hepatitis, cirrhosis of the liver and coma, PKK is reduced. In cases with acute hepatitis PKK raises with recovery. Cirrhosis and coma lead to low HMWK and factor XII concentrations. KK-I is mostly affected during acute hepatitis, and is then highly increased. Our results clearly demonstrate that the biologic activity of one or more of contact factors is affected in many diseases.
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PMID:Prekallikrein, HMW-kininogen and factor XII in various disease states. 635 59

Twenty cirrhotic patients with ascites, divided into two groups of 10 each, according to their daily urinary sodium excretion (sodium retainers and sodium excretors) and given a diet of 75 mEq of sodium daily, underwent acute plasma volume expansion with 1,000 ml of 10% dextran in saline, infused through a catheter located in the right atrium. Even if a significant increase in sodium excretion was observed in both groups (p less than 0.001 in sodium excretors and p less than 0.05 in sodium retainers), plasma expansion did not reverse sodium retention in sodium retainers. A significant increase in creatinine clearance was found only in sodium retainers (p less than 0.02). Basal plasma renin activity and plasma aldosterone were elevated only in a few patients of both groups. The renin-angiotensin-aldosterone system was highly responsive to plasma expansion. Sodium retainers, who showed an ineffective natriuretic response after expansion, were able to suppress both plasma renin activity and plasma aldosterone in an analogous manner to the sodium-excreting group. This result lends strong support to the concept that the elevated aldosterone level in cirrhosis is not the major determinant of sodium retention. The kallikrein-kinin system was responsive to volume stimulus, since a decrease in kallikrein excretion was noted. It was significant in sodium retainers (p less than 0.05). Plasma PGE1,2 levels were significantly higher in sodium retainers than in controls. This may suggest that there is an activation of the intrarenal prostaglandin system, which could play a protective role against renal ischaemia. After volume expansion, PGE1,2 increased, but not significantly. Octopamine appeared unrelated to sodium excretion and unresponsive to volume stimulus. Endotoxins did not seem to be involved in renal sodium handling. Plasma volume expansion seemed effective in inducing a reduction of vasoconstrictor and sodium-retaining factors, such as the renin-angiotensin-aldosterone system. It is possible to suggest that volume expansion could increase PGE1,2. Plasma volume expansion produced different rates of sodium excretion in the two groups of patients and this suggests that impaired sodium handling in cirrhosis could, to some extent, be independent of effective plasma volume.
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PMID:Vasoactive factors in the mechanism of renal sodium handling in cirrhotics: the effect of acute plasma expansion. 643 53

1. Previous studies have documented activation of protease enzymes, such as the plasma kallikrein-kinin system, in hepatic cirrhosis. Increased plasma kinin generation could contribute to pathological systemic vasodilatation in cirrhosis, and reduced systemic vascular resistance has been suggested as a trigger to renal sodium retention in this disease. We investigated the effect of aprotinin, a protease inhibitor which binds to plasma kallikrein, on systemic haemodynamics and renal function in patients with hepatic cirrhosis and ascites. 2. Aprotinin was infused intravenously in high dosage (2 x 10(6) kallikrein inhibitory units loading, 1 x 10(6) kallikrein inhibitory units/h). 3. Of 13 patients, 10 had a low systemic vascular resistance (< 1200 dyn s cm-5) at baseline. In this group, eight showed an increase in systemic vascular resistance during aprotinin infusion. Overall, the increase in systemic vascular resistance was significant, and there was a small but significant increase in mean arterial pressure. In all patients, there were increases in renal plasma flow, glomerular filtration rate, and absolute and fractional urinary sodium excretion during aprotinin infusion. 4. Plasma renin activity, plasma angiotensin II and plasma aldosterone fell significantly during aprotinin infusion. Plasma prekallikrein, plasma noradrenaline and plasma atrial natriuretic peptide did not change. Plasma aprotinin concentration was 209 +/- 11 kallikrein inhibitory units/ml at the end of the infusion. 5. Before and during the infusion, there was a significant negative correlation between systematic vascular resistance and plasma renin activity. There was a positive correlation between the change in systemic vascular resistance and the change in renal plasma flow during aprotinin infusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of the serine protease inhibitor, aprotinin, on systemic haemodynamics and renal function in patients with hepatic cirrhosis and ascites. 752 42

The vasoactive peptide bradykinin may be involved in the pathogenesis of vasodilation, which has been considered the initiating event of ascites formation in cirrhotic patents. Since bradykinin is generated through the cleavage of high molecular weight kininogen (HK) by kallikrein, we looked for the cleavage of HK by an immunoblotting technique in plasma and ascitic fluid of 28 patients with cirrhosis of different etiology. The majority of patients showed massive cleavage of HK in ascitic fluid (median 50% of total HK; range 23-100%). Patients with severe ascites had more cleaved HK in plasma (29%; range 8-38%) than normal subjects (22%; range 11-32) (P = 0.02). Patients with high levels of plasma renin activity (5-60 ng/ml/hour), which is considered a consequence of peripheral vasodilation, had more plasma cleaved HK (31%; range 18-38)(p = 0.0097) than normals. Thus, our data support the view that cleavage of HK could play a role in the pathogenesis of vasodilation and ascites formation in patients with decompensated cirrhosis.
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PMID:Cleavage of high molecular weight kininogen in ascites and plasma of patients with cirrhosis. 763 8

The urinary endothelin level in patients with chronic liver disease was determined in order to explore its possible involvement in renal function. The plasma endothelin level was significantly higher in patients with liver cirrhosis (LC) than in those with chronic hepatitis (CH) or in control patients (C). Similarly, urinary endothelin excretion in LC was significantly increased, compared with CH and C. Urinary endothelin demonstrated a significant positive correlation with creatinine clearance. The ratio of endothelin clearance/creatinine clearance did not differ statistically among the three groups. Urinary sodium excretion in LC was positively correlated with plasma endothelin, but not with urinary endothelin. Urinary endothelin excretion demonstrated a significant negative correlation with urinary kallikrein in LC. The present data suggest that increased urinary endothelin excretion in cirrhotic patients primarily depends upon elevated plasma levels of endothelin, but not renal production. Also, a possible link between endothelin and the kallikrein-kinin system in liver cirrhosis is indicated.
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PMID:Increased urinary endothelin excretion in patients with liver cirrhosis. 871 1

Cirrhosis is associated with compromised hemostasis and coagulopathy during orthotopic liver transplantation (OLT). It has been suggested that hemostasis is better preserved during OLT in primary biliary cirrhosis (PBC) than other cirrhotic states. The aim of this study was to compare coagulation and fibrinolysis in 15 patients with PBC with 31 patients with other liver disease before and during OLT. Preoperatively, both groups had subnormal mean levels of prekallikrein, factor XIIa, antithrombin III (ATIII), plasminogen, and alpha2-antiplasmin. C1 esterase inhibitor and kallikrein inhibition in PBC was higher than the normal range (P < .01), but not in non-PBC. Non-PBC had lower median fibrinogen levels and shorter euglobulin clot lysis times (ECLT) (P < .05). Tissue plasminogen activator (tPA) antigen levels did not differ between groups but were elevated from the normal range, as were median thrombin-antithrombin complexes (TAT). Plasminogen activator inhibitor (PAI) activity was significantly higher in PBC (0.0041). Perioperatively in the PBC group during the early anhepatic phase of OLT, there was more thrombin generation, as evidenced by higher TAT levels (P = .0455) and less hyperfibrinolysis with longer ECLTs. We hypothesize that there is a preserved capacity to generate thrombin and less fibrinolytic activation during the anhepatic phase of OLT, and we suggest that, in PBC, the use of antifibrinolytic agents may have an adverse effect.
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PMID:Coagulation and fibrinolysis in primary biliary cirrhosis compared with other liver disease and during orthotopic liver transplantation. 904 19

Bradykinin, a nonapeptide with vasodilatory and permeabilizing activity, is generated through the cleavage of high-M(r) ('high-molecular-weight') kininogen by kallikrein, and its generation is facilitated by plasmin. In the ascitic fluid of patients with cirrhosis, there is massive cleavage of high-M(r) kininogen and activation of fibrinolysis, but bradykinin has never been measured directly. In the ascitic fluid of 24 patients with cirrhosis, we measured bradykinin-(1-9)-nonapeptide levels by RIA after liquid-phase and subsequent HPLC extraction, and those of its catabolic product bradykininin-(1-5)-pentapeptide by ELISA after liquid-phase extraction. Cleaved high-M(r) kininogen, activated factor XII and plasmin-antiplasmin complexes were measured in ascitic fluid and plasma. Plasma renin activity (PRA) was also determined. As a control, we also analysed plasma from 24 healthy subjects matched for sex and age with the patients. In the ascitic fluid from patients with cirrhosis, the median bradykinin-(1-9) concentration was 3.3 fmol/ml (range 0.2-29.0 fmol/ml), and the median bradykinin-(1-5) concentration was 210 fmol/ml (range 58-7825 fmol/ml). The levels of bradykinin-(1-5) in ascitic fluid were higher in patients with refractory ascites [median 1091 fmol/ml (range 58-7825 fmol/ml)] than in patients with responsive ascites [134 fmol/ml (72-1084 fmol/ml)] (P=0.010). Ascitic fluid levels of bradykinin-(1-9) were not related to the severity of ascites. PRA was higher in patients with refractory ascites [23.0 ng x h(-1) x ml(-1) (7.9-80.0 ng.h(-1).ml(-1))] than in patients with responsive ascites [6.9 ng x h(-1) x ml(-1) (0.9-29.4 ng x h(-1) x ml(-1))] (P=0.002). In ascitic fluid, 48% (19-68%) of high-M(r) kininogen was cleaved, and plasmin-antiplasmin complexes were more concentrated than in plasma (P=0.0001). In conclusion, in the ascitic fluid of patients with cirrhosis, both bradykinin-(1-9) and bradykinin-(1-5) are present, with cleavage of high-M(r) kininogen and activation of fibrinolysis. The highest levels of the long-lived metabolite bradykinin-(1-5) were found in the ascitic fluid of patients with refractory ascites and high PRA. Activation of the kinin system may therefore be involved in decompensating cirrhosis, but a cause-effect relationship remains to be established.
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PMID:Bradykinin in the ascitic fluid of patients with liver cirrhosis. 1172 53

Portal hypertension is the most common complication of chronic liver diseases, such as cirrhosis. The increased intrahepatic vascular resistance seen in hepatic disease is due to changes in cellular architecture and active contraction of stellate cells. In this article, we review the historical aspects of the kallikrein-kinin system, the role of bradykinin in the development of disease, and our main findings regarding the role of this nonapeptide in normal and experimental models of hepatic injury using the isolated rat liver perfusion model (mono and bivascular) and isolated liver cells. We demonstrated that: 1) the increase in intrahepatic vascular resistance induced by bradykinin is mediated by B2 receptors, involving sinusoidal endothelial and stellate cells, and is preserved in the presence of inflammation, fibrosis, and cirrhosis; 2) the hepatic arterial hypertensive response to bradykinin is calcium-independent and mediated by eicosanoids; 3) bradykinin does not have vasodilating effect on the pre-constricted perfused rat liver; and, 4) after exertion of its hypertensive effect, bradykinin is degraded by angiotensin converting enzyme. In conclusion, the hypertensive response to BK is mediated by the B2 receptor in normal and pathological situations. The B1 receptor is expressed more strongly in regenerating and cirrhotic livers, and its role is currently under investigation.
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PMID:Portal hypertensive response to kinin. 1972 13

Heart failure, hypertension, cirrhosis and nephritic syndrome are among conditions that alter volume and composition of body fluids and are modulated by diuretics. Natural products are important source of diuretics and have been considered remarkable alternative with greater effectiveness and fewer side effects. However, many of these plants used in traditional medicine must be scientifically assessed about their efficacy and toxicity. Despite the large number of published articles claiming that plants or plant-derived components may act as diuretic agents, few studies have addressed the mechanism of action of medicinal plants. Thus, the aim of this review was to provide an overview of the current knowledge about the major cellular and molecular mechanisms of diuretic plants and/or their main compounds. Many well-established mechanisms (water channels, renal carriers, nitric oxide-cGMP and prostaglandin-cAMP pathways, renin-angiotensin and kinin-kallikrein systems, carbonic anhydrase, and osmotic effects), along with other newly identified targets, are connected to the diuretic activity of many natural products. However, the central path responsible for the activity of these agents remains unclear. Further studies may help clarifying the central role of each of these pathways in the pleiotropic response of these agents.
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PMID:Cellular and Molecular Mechanisms of Diuretic Plants: An Overview. 2775 2


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