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Target Concepts:
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Query: EC:3.5.1.1 (
asparaginase
)
2,695
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Fibrinolytic factors were assessed during
L-asparaginase
administration, to study whether their changes may predispose to a haemorrhagic or thrombotic diathesis. The total level of alpha 2-antiplasmin declined, as well as the ratio of the plasminogen-binding form of alpha 2-antiplasmin to the non-plasminogen-binding form. After cessation of
L-asparaginase
administration, the ratio increased to 1.6 times that of the pretreatment value. These data indicate that the plasminogen-binding form of alpha 2-antiplasmin is the form primarily synthesized in vivo. L-Asparaginase therapy reduced plasma levels of plasminogen and histidine-rich glycoprotein ( HRG ) and influenced the equilibrium between HRG , plasminogen and HRG -plasminogen complex, with a more pronounced decrease of plasminogen (62% +/- 8) and HRG (76% +/- 11) in comparison to the free-plasminogen levels (51% +/- 6). alpha 2-Macroglobulin was only slightly influenced by
L-asparaginase
and may consequently play a more pronounced role in inhibition. This is suggested by moderate declines in functional tests of plasmin,
urokinase
and tissue activator inhibition by patients plasma, and by the ratio of inhibition of these enzymes over alpha 2-antiplasmin. Thus the bleeding tendency described during
L-asparaginase
therapy can be ascribed not only to a temporary deficiency of coagulation factors but also to temporary alpha 2-antiplasmin deficiency.
...
PMID:The influence of L-asparaginase therapy on the fibrinolytic system. 620 49
Polymer conjugation is of increasing interest in pharmaceutical chemistry for delivering drugs of simple structure or complex compounds such peptides, enzymes and oligonucleotides. For long time drugs, mainly with antitumoral activity, have been coupled to natural or synthetic polymers with the purpose of increasing their blood permanence time, taking advantage of the increased mass that reduces kidney ultrafiltration. However only recently complex constructs were devised that exploit the 'enhanced permeability and retention' (EPR) effect for an efficient tumor targeting, the high molecular weight for adsorption or receptor mediated endocytosis and finally a lysosomotropic targeting, taking advantage of acid labile bonds or cathepsin susceptible polypeptide spacers between polymer and drug. New original, very active conjugates of this type, as those based on poly(hydroxyacrylate) polymers, are already in advanced state of development. Labile oligonucleotides, including antisense drugs, were also successfully coupled to polymers in view of an increased cell penetration and stabilization towards nucleases. However, the most active research activity resides in the field of polypeptides and proteins delivery, mainly for the two following reasons: first of all because a great number of therapeutically interesting compounds are now being produced by genetic engineering in large quantity and, secondly, because these products are difficult to administer to patients for several inherent drawbacks. Proteins are in fact easily digested by many endo- and exo-peptidases present in blood or in other body districts; most of them are immunogenic to some extent and, finally, they are rapidly excreted by kidney ultrafiltration. Covalent polymer conjugation at protein surface was demonstrated to reduce or eliminate these problems, since the bound polymer behaves like a shield hindering the approach of proteolytic enzymes, antibodies, or antigen processing cell. Furthermore, the increase of the molecular weight of the conjugate allows to overcome the kidney elimination threshold. Many successful results were already obtained in peptides and proteins, conjugated mainly to water soluble or amphiphilic polymers like poly(ethylene glycol) (PEG), dextrans, or styrenemaleic acid anhydride. Among the most successful are the conjugates of
asparaginase
, interleukin-2 or -6 and neocarcinostatin, to remind some antitumor agents, adenosine deaminase employed in a genetic desease treatment, superoxide dismutase as scavenger of toxic radicals, hemoglobin as oxygen carrier and
urokinase
and streptokinase as proteins with antithrombotic activity. In pharmaceutical chemistry the conjugation with polymers is also of great importance for synthetic applications since many enzymes without loss of catalytic activity become soluble in organic solvents where many drug precursors are. The various and often difficult chemical problems encountered in conjugation of so many different products prompted the development of many synthetic procedures, all characterized by high specificity and mild condition of reaction, now known as 'bioconjugation chemistry'. Bioconjugation developed also the design of new tailor-made polymers with the wanted molecular weight, shape, structure and with the functional groups needed for coupling at the wanted positions in the chain.
...
PMID:Bioconjugation in pharmaceutical chemistry. 1051 Aug 47
Two patients with cerebral sinus thrombosis were successfully treated with neuroradiological intervention procedures, one with local thrombolysis and the other with mechanical thrombosuction using a hydrolyser catheter. The first patient, a 20-year-old woman, was treated with
asparaginase
for acute lymphatic leukaemia. She lapsed into coma with extensor posturing due to superior sagittal and right transverse sinus thrombosis. She recovered completely after local thrombolysis with 2,940,000 units
urokinase
, administered over a period of 40 hours. The second patient was a 29-year-old man who presented with clinical deterioration after seizures due to superior sagittal, left transverse and straight sinus thrombosis. A CT-scan demonstrated bilateral haemorrhagic cerebral infarctions. Since the risk of haemorrhage during thrombolysis with
urokinase
was considered to be high, mechanical thrombosuction with a hydrolyser catheter was performed. This procedure took only 4 hours. The patient recovered completely in two weeks. These cases add further evidence to the effectiveness of thrombolysis and thrombosuction in selected patients with severe cerebral sinus thrombosis.
...
PMID:[Neuroradiologic intervention in two patients with cerebral sinus thrombosis]. 1115 59
