Weng_2021_Biomed.Pharmacother_141_111865

Reference

Title : Syringaldehyde promoting intestinal motility with suppressing alpha-amylase hinders starch digestion in diabetic mice - Weng_2021_Biomed.Pharmacother_141_111865
Author(s) : Weng L , Chen TH , Zheng Q , Weng WH , Huang L , Lai D , Fu YS , Weng CF
Ref : Biomed Pharmacother , 141 :111865 , 2021
Abstract :

The antihyperglycemic potential of syringaldehyde has been previously investigated; however, the underlying mechanism remains unclear. In this study, we performed a postprandial glucose test (in vivo) including oral glucose tolerance test (OGTT) and oral starch tolerance test (OSTT) in fructose-induced diabetic mice on a high-fat diet for mimicking type 2 diabetes to explore the hypoglycemic efficacy of syringaldehyde and the underlined molecular involvement of syringaldehyde in a glucose-lowering effect. The results revealed that syringaldehyde dose-dependently suppressed blood glucose in both the OSTT and OGTT when referenced to acarbose and metformin, respectively. Surprisingly, syringaldehyde triggered jejunum motility (ex vivo) via activation of the muscarinic-type acetylcholine receptor. By performing virtual screening with molecular docking, the data showed that syringaldehyde nicely interacted with glucagon-like peptide 1 receptor (GLP-1R), peroxisome proliferator-activated receptor (PPAR), dipeptidyl peptidase-IV (DPP-4), acetylcholine M2 receptor, and acetylcholinesterase. These results showed that syringaldehyde can potentiate intestinal contractility to abolish the alpha-amylase reaction when concurrently reducing retention time and glucose absorption to achieve a glucose-lowering effect in diabetic mice, suggesting its potential therapeutic benefits with improvement for use as a prophylactic and treatment.

PubMedSearch : Weng_2021_Biomed.Pharmacother_141_111865
PubMedID: 34246193

Related information

Citations formats

Weng L, Chen TH, Zheng Q, Weng WH, Huang L, Lai D, Fu YS, Weng CF (2021)
Syringaldehyde promoting intestinal motility with suppressing alpha-amylase hinders starch digestion in diabetic mice
Biomed Pharmacother 141 :111865

Weng L, Chen TH, Zheng Q, Weng WH, Huang L, Lai D, Fu YS, Weng CF (2021)
Biomed Pharmacother 141 :111865