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Enzyme
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Target Concepts:
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Query: EC:3.1.1.34 (
lipoprotein lipase
)
7,025
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Intravenous heparin has previously been shown to release the high-heparin-affinity fraction C of extracellular-superoxide dismutase (EC-SOD, EC 1.15.1.1) to plasma in man and other mammals. This paper reports on further studies of the phenomena in the pig. A dose-response curve of the effect of heparin revealed that 1000 IU/kg body weight is needed for maximal release of EC-SOD C. This dose is an order of magnitude larger than that needed for the maximal release to plasma of factors such as
lipoprotein lipase
, hepatic lipase, and diamine oxidase, which are distributed between plasma and endothelium similarly to EC-SOD C. Thus EC-SOD C appears to have an unusually high affinity for endothelial cell-surface sulfated glycosaminoglycans relative to the affinity for heparin. There was no significant difference in releasing potency between unfractionated heparin and heparin subfractions with high or low affinity for antithrombin III. The heparin structure conferring high-affinity binding to antithrombin III is thus not specifically involved in binding to EC-SOD C. The non-biosynthetic compound dextran sulfate 5000 was an order of magnitude more efficient than heparin.
Protamine
displayed dual effects. Given alone in high dose it released EC-SOD to plasma, probably due to binding to endothelial cell-surface sulfated glycosaminoglycans displacing fraction C of the enzyme. When given after heparin, in a dose just below that expected to neutralize the heparin, protamine reversed the heparin-induced EC-SOD release.
...
PMID:Heparin-, dextran sulfate- and protamine-induced release of extracellular-superoxide dismutase to plasma in pigs. 245 67
The anticoagulant, lipolytic and protamine reversible effects of high doses of low molecular weight (LMW) heparin 21-23 and unfractionated heparin were compared in man. 7,500 units of each heparin were applied, which corresponds to 90 mg LMW heparin and 48 mg unfractionated heparin. The anticoagulant properties of the LMW heparin are characterized by a doubled half life of factor Xa activity, smaller influence on aPTT and thrombin after intravenous (i.v.) and subcutaneous (s.c.) injection, and higher bioavailability of factor Xa activity after s.c. administration (90% versus 15%).
Protamine
chloride completely neutralizes the effect on aPTT and thrombin and reduces the anti factor Xa activity by 60%. The bleeding time is prolonged by both normal and LMW heparin by 20%. This effect is normalized by protamine chloride, too. Thrombelastography with recalcified whole blood demonstrates that protamine chloride shortens but not completely normalizes the coagulation time in presence of either unfractionated or LMW heparin. The half life of
lipoprotein lipase
(
LPL
) activity is 60 min after i.v. administration of unfractionated heparin and 120 min with LMW heparin. Although the release of lipases (
LPL
and HTGL) is higher after i.v. and s.c. administration of the LMW heparin they do not induce higher releases of free fatty acids. This indicates that the lipolytic activity of this LMW heparin and unfractionated heparin is similar. The results show an improved anticoagulant pharmacological profile of this LMW heparin as compared to unfractionated heparin.
Protamine
normalizes the anticoagulant effects of LMW heparin with exception of a residual anti factor Xa activity and normalizes the changes of bleeding time and thrombelastography.
...
PMID:The pharmacological profile of the low molecular weight heparin 21-23 in man: anticoagulant, lipolytic and protamine reversible effects. 248 15
The alkaline, heparin-releasable
lipoprotein lipase
(
LPL
) activity of isolated, perfused rat hearts was compared with the residual neutral lipase (NL) activity detectable in the post nuclear supernatant (PNS) from a tissue homogenate. Both enzyme activities were increased by serum, heparin and apolipoprotein CII, inhibited by high salt concentrations and by immunotitration with an anti-
LPL
gamma-globulin fraction.
Protamine
sulphate from saline liver inhibited
LPL
activity and the NL activity only in the absence of serum. Incubation of the PNS NL under classic conditions of hormonal stimulation (by phosphorylation) did not alter its activity and upon short-term preperfusion of the hearts with norepinephrine and glucagon also unchanged
LPL
and NL activities were measured. Our experiments are indicative of a possible similarity between vascular
LPL
and tissue NL and show that the lipase activities are not sensitive towards hormonal stimulation.
...
PMID:Comparison of heparin-releasable lipase and tissue neutral lipase activity of rat heart. 667 39
The polycation protamine impedes the catabolism of triglyceride-rich lipoproteins and this has been suggested to be due to intravascular inactivation of
lipoprotein lipase
. We have made intravenous injections of protamine to rats and found that both
lipoprotein lipase
and hepatic lipase activities were released to plasma. The effect of protamine was more short-lived than that obtained by injection of heparin. The release of hepatic lipase by protamine was as effective as the release by heparin, while the amount of
lipoprotein lipase
released by protamine was only about one-tenth of that released by heparin. This was not due to inactivation of
lipoprotein lipase
, since injection of an excess of heparin 10 min after injection of protamine released as much
lipoprotein lipase
activity to plasma as in controls. The results in vivo differed from those obtained in model experiments in vitro.
Protamine
was able to almost quantitatively release both
lipoprotein lipase
and hepatic lipase from columns of heparin-agarose. The displacement was dependent on the total amount of protamine that had passed over the column, indicating that it was due to occupation by protamine of all available binding sites. Our results in vivo showed that the binding sites for
lipoprotein lipase
were not blocked as efficiently as those for hepatic lipase, indicating that the binding structures were not identical. It was concluded that the impaired turnover of lipoproteins by protamine probably was due to prevention of binding of the lipoproteins to endothelial cell surfaces rather than to impaired lipase function.
...
PMID:Effect of protamine on lipoprotein lipase and hepatic lipase in rats. 781 3
Oil-induced mononuclear phagocytes (MN) were quantitatively assayed for various hydrolases as unfractionated suspensions of frozen and thawed cells. They apparently contain two proteases. The first, measured with urea- or acid-denatured hemoglobin, was similar to purified Proteinase I of lung with respect to pH optimum (pH 4), stability, hydrolytic and polymerizing activities, and reactions to various inhibitors. The second protease resembled chymotrypsin in its hydrolysis of glycyl-L-phenylalanine amide, acetyl-L-tyrosine ethyl ester and N-benzoyl-DL-phenylalanine-beta-naphthol ester (BPN). With the latter, its pH optimum was between 5.0 and 5.8, and its action was inhibited by diisopropylphosphorofluoridate (DFP) and p-chloromercuribenzoate. When assayed under the above conditions, polymorphonuclear exudate cells (PMN) and red blood corpuscles (RBC) manifested little or no hydrolysis of either hemoglobin or BPN. MN also contained esterases that split methyl butyrate and beta-naphthyl acetate. The pH optimum with the latter was 7.4, and its hydrolysis was partially inhibited by DFP, fluoride, taurocholate, and eserine. PMN had low esterase activity; RBC had little or none. MN, but not PMN or RBC, contained a stable lipase with a pH optimum of 6.1 in maleate buffer.
Protamine
, NaCl, heat, p-chloromercuribenzoate, ethylenediamine tetraacetate, taurocholate, and DFP were inhibitory, but no appreciable activation occurred in the presence of heparin or serum. Thus it possessed some of the characteristics of Korn's
lipoprotein lipase
, but not others.
...
PMID:HYDROLYTIC ENZYMES OF RABBIT MONONUCLEAR EXUDATE CELLS. I. QUANTITATIVE ASSAY AND PROPERTIES OF CERTAIN PROTEASES, NON-SPECIFIC ESTERASES, AND LIPASES OF MONONUCLEAR AND POLYMORPHONUCLEAR CELLS AND ERYTHROCYTES. 1415 92
An increase in triglyceride levels in familial hyperlipidemia during pregnancy has been reported. Severe hypertriglyceridemia can lead to complications such as acute pancreatitis, preeclampsia, maternal and fetal complications. Because of the teratogenic effects associated with fibrate therapy in pregnancy, alternative treatment strategies such as insulin as a rapid and potent activator of
lipoprotein lipase
are required during pregnancy. We report a case of hypertriglyceridemia in a 33-year-old pregnant woman in whom treatment with merely single one time administration of Neutral
Protamine
Hagedorn insulin was accompanied by a reduction in the serum triglyceride level; to the best of our knowledge, this has never been reported in the literature. Her triglyceride level was 3616 mg/dL before insulin treatment and 1246 mg/dL after insulin treatment. Although this regimen was used safely and effectively in our patient, comprehensive studies are required to evaluate the effectiveness and safety of subcutaneously intermediate-acting Neutral
Protamine
Hagedorn insulin for the treatment of severe hypertriglyceridemia in non-diabetic pregnant women.
...
PMID:Subcutaneous NPH Insulin for Severe Hypertriglyceridemia in a Pregnant Patient with Type V Hyperlipoproteinemia: a Case Report. 2520 2
