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
Query: EC:3.1.27.4 (
ribonuclease
)
6,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A method for studying inhibitors of the contact stages of blood coagulation is described. A number of positively charged substances were shown to inhibit the contact stages. The inhibitory substances include spermine, cytochrome c,
ribonuclease
, and lysozyme. The inhibitory effect of these substances was neutralized by the addition of an activated plasma thromboplastin antecedent,
factor XI
, (PTA) fraction. Other positively charged substances including protamine, hexadimethrine, polylysine, polyornithine, methylene blue, and ortho-toluidine blue also inhibited the contact stages of coagulation, but the inhibitory effect on coagulation was not neutralized by the activated PTA fraction. Negatively charged substances such as heparin and insulin did not inhibit the contact stages of coagulation. Cytochrome c inhibited Celite adsorption of a partially purified Hageman factor fraction, and cytochrome,
ribonuclease
, spermine, and lysozome inhibited the adsorption of Hageman factor from PTA-deficient plasma. Very much smaller quantities of Celite completely adsorbed Hageman factor from the fraction rather than from whole plasma, which suggested the possibility that plasma contains an inhibitor or inhibitors of Hageman factor adsorption. Furthermore cytochrome c, spermine,
ribonuclease
, and lysozyme inhibited the coagulant activity of the following activators of the Hageman and PTA factors: Celite, kaolin, sodium stearate, ellagic acid, and skin. It is suggested that negatively charged sites on these activators are critical for adsorption and activation and that inhibition results from neutralization of the negatively charged sites by the adsorbed inhibtor. Tests with polylysine polymers indicate that inhibitory activity is directly related to molecular size over the molecular weight range of 4000 to 100,000.
...
PMID:Inhibition of Hageman factor activation. 564 60
Biological roles for extracellular RNA (eRNA) have become apparent. For example, eRNA can induce contact activation in blood via activation of the plasma proteases factor XII (FXII) and
factor XI
(
FXI
). We sought to reveal the biological role of the secretory enzyme
ribonuclease
1 (RNase 1) in an organismal context by generating and analyzing RNase 1 knockout (
Rnase1
-/-
) mice. We found that these mice are viable, healthy, and fertile, though larger than
Rnase1
+/+
mice.
Rnase1
-/-
plasma contains more RNA than does the plasma of
Rnase1
+/+
mice. Moreover, the plasma of
Rnase1
-/-
mice clots more rapidly than does wild-type plasma. This phenotype appeared to be due to increased levels of the active form of FXII (FXIIa) in the plasma of
Rnase1
-/-
mice compared to
Rnase1
+/+
mice, and is consistent with the known effects of eRNA on FXII activation. The apparent activity of
FXI
in the plasma of
Rnase1
-/-
mice was 1000-fold higher when measured in an assay triggered by a low concentration of tissue factor than in assays based on recalcification, consistent with eRNA enhancing
FXI
activation by thrombin. These findings suggest that one of the physiological functions of RNase 1 is to degrade eRNA in blood plasma. Loss of this function facilitates FXII and
FXI
activation, which could have effects on inflammation and blood coagulation. We anticipate that
Rnase1
-/-
mice will be a useful tool for evaluating other hypotheses about the functions of RNase 1 and of eRNA in vivo.
...
PMID:Phenotype of ribonuclease 1 deficiency in mice. 3105 53
