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Query: EC:3.2.1.26 (
invertase
)
4,927
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have investigated the quantitative relationship between
sucrase
inhibition and reduction in the 0-3 h glycemic response to an oral dose of sucrose in rats.
Castanospermine
is a quasi-irreversible
sucrase
inhibitor that did not dissociate from
sucrase
during tissue preparation or assay for
sucrase
activity. An oral dose of castanospermine (0.1-3.0 mg/kg body wt) dose-dependently reduced
sucrase
activity of intestinal segments by 15-90%; 0.4 mg/kg body wt reduced total
sucrase
activity about 50%. The lower doses inhibited
sucrase
much more extensively in the proximal than in the distal segments.
Castanospermine
also dose-dependently reduced the 0-3 h glycemic response to sucrose; 1.5 mg/kg body wt reduced the glycemic response about 50%. Each submaximal castanospermine dose inhibited total
sucrase
activity more than it reduced the glycemic response. We conclude that intestinal sucrase activity in the rat is in modest excess relative to the rate-determining step of glucose absorption following sucrose administration. Fourteen days of castanospermine treatment (0.2 mg.kg body wt-1.d-1) resulted in
sucrase
inhibition that was similar to a single castanospermine treatment, suggesting that castanospermine treatment resulted in neither cumulative
sucrase
inhibition nor induction of
sucrase
activity.
...
PMID:Quantitative relationship between intestinal sucrase inhibition and reduction of the glycemic response to sucrose in rats. 230 7
Castanospermine
(CS) is a potent but non-selective inhibitor of many glycohydrolases including the intestinal disaccharidases. Several CS-glucosides were synthesized to investigate the effect of an attached glucopyranosyl residue on the potency and selectivity of CS toward inhibition of intestinal disaccharidases. 8 alpha-glucosyl-CS and 7 alpha-glucosyl-CS were nearly as potent against
sucrase
activity as CS (IC50 values = 30, 40, and 20 nM respectively) but were 1/50 or less as potent as CS against lactase and trehalase activities. 8 beta-glucosyl-CS was 1/20 to 1/140 as potent as CS and 1 alpha-glucosyl-CS was 1/57 to 1/1500 as potent as CS against disaccharidase activities. 1 alpha-glc-CS was less selective than CS, whereas the other CS-glucosides were more selective. 7 alpha-glc-CS and 8 alpha-glc-CS were the most
sucrase
selective and were particularly ineffective against trehalase and lactase activities. 8 beta-glc-CS was similar to CS except for relatively weaker trehalase inhibition. In summary, selectivity toward certain disaccharidases was achieved by glucosylation of CS hydroxyls. However, a simple structural comparison of the CS-glucoside to a disaccharide substrate did not reliably predict which disaccharidase would be more inhibited by the CS-glucoside.
...
PMID:Castanospermine-glucosides as selective disaccharidase inhibitors. 233 10
Castanospermine
-glucosides (CS-glcs) are new compounds which have been evaluated as glycohydrolase inhibitors in rats. 7-O-alpha-D-Glucopyranosyl-CS (7 alpha-glc-CS) and 8 alpha-glc-CS were potent
sucrase
inhibitors with IC50s of 40 and 30 nM, respectively. Their
sucrase
inhibition was poorly reversible. They were much weaker liver lysosomal alpha-glucosidase inhibitors with IC50s of 40,000 nM. 1 alpha-glc-CS and 8 beta-glc-CS were both weaker and less selective
sucrase
inhibitors. In vivo, 7 alpha-glc-CS and 8 alpha-glc-CS effectively reduced the glycemic response to an oral 2 g/kg sucrose load at doses less than or equal to 1 mg/kg. 8 alpha-glc-CS was effective when administered up to 4 hr before sucrose. The known glucohydrolase inhibitors 1-deoxynojirimycin and N-hydroxyethyl-1-deoxy-nojirimycin were also potent
sucrase
inhibitors (IC50s = 200 and 400 nM, respectively) but their
sucrase
inhibition was readily reversible in vitro and their in vivo duration of action was much shorter than for the CS-glcs. Among the glucohydrolase inhibitors tested, the prolonged in vivo duration of action could be predicted by poor reversibility from
sucrase
. These CS-glcs provide a new generation of
sucrase
inhibitors which may be useful in the treatment of diabetes mellitus.
...
PMID:Castanospermine-glucosides are potent, selective, long-acting sucrase inhibitors. 267 17
Castanospermine
(1,6,7,8-tetrahydroxyoctahydroindolizine) is a potent time-dependent inhibitor of the sucrase-isomaltase complex purified from rat small intestine, in vitro. First-order kinetics for the inactivation of
sucrase
and isomaltase by castanospermine were observed. Protection studies showed that castanospermine competes for the glucosyl subsite with the substrates of
sucrase
and isomaltase. The second-order rate constants (k1) for the association reaction between castanospermine and the protein complex were calculated to be 6.5 X 10(3) and 0.3 X 10(3) M-1 s-1 for
sucrase
and isomaltase, respectively. Only barely detectable reactivation of the inhibited isomaltase was detectable over 24 h, whereas about 30% reactivation of the inhibited
sucrase
was observed in 24 h (k2 = 3.6 X 10(-6) s-1). These results suggest that castanospermine functions as a transition-state analog that binds extremely tightly to
sucrase
and isomaltase.
...
PMID:Time-dependent inhibition of sucrase and isomaltase from rat small intestine by castanospermine. 366 35
Castanospermine
is a potent inhibitor of rat intestinal glycohydrolases in vitro and prevents the hyperglycemic response to an oral sucrose challenge in vivo. Among the glycohydrolases tested, castanospermine was most effective against
sucrase
with an IC50 of 1.1 x 10(-7) M. In vivo, a significant effect was seen at doses less than 1 mg/kg in both normal and streptozotocin-treated rats.
Castanospermine
has a prolonged duration of activity in vivo with significant activity when administered 4 hours before sucrose.
...
PMID:Castanospermine blocks the hyperglycemic response to carbohydrates in vivo: a result of intestinal disaccharidase inhibition. 368 80
Castanospermine
is an indolizidine alkaloid that is found in the seeds of the Australian tree Castanospermum australe. These seeds have been reported to be toxic to animals and to cause severe gastrointestinal upset. In order to determine whether castanospermine is responsible for this toxicity, the alkaloid was injected into young mice or rats, and its effects on various intestinal disaccharidases were determined. Another indolizidine alkaloid, the alpha-mannosidase inhibitor swainsonine, was also tested to compare its effects to those of castanospermine.
Castanospermine
strongly and rapidly inhibited the activity of the disaccharidases,
sucrase
, maltase, and trehalase, with
sucrase
being the most sensitive to inhibition. The loss of activity of these enzymes, especially
sucrase
, in injected animals appeared to be due to a direct inhibition of enzyme activity, rather than to a change in the structure of the glycan chains of the enzyme, since only minor alterations in carbohydrates were observed. On the other hand, swainsonine, when injected into animals, also profoundly decreased the activity of the
sucrase
, but this alkaloid had no direct effect on
sucrase
activity although it did markedly alter the carbohydrate nature of this glycoprotein. This change in oligosaccharide structure may affect protein conformation, stability, or targeting, any or all of which may in turn affect activity. In in vitro studies with the purified enzyme, castanospermine was found to be a competitive inhibitor of intestinal sucrase, but it was a noncompetitive inhibitor of intestinal maltase. A number of other glucosidase inhibitors that inhibit
sucrase
activity in vitro are also described.
...
PMID:The effects of castanospermine and swainsonine on the activity and synthesis of intestinal sucrase. 848 56
