Salivary gland dysfunction is a common complication of diabetes. Decreased saliva production and changes in saliva composition may cause oral diseases. Reactive oxygen species (ROS) generation in the salivary glands results in the loss of acinar cells and decreased saliva secretion. Glucagon-like peptide 1 (GLP-1) is the incretin hormone that regulates blood glucose level and can suppress ROS production and inflammation through its antioxidant effects. Dipeptidyl peptidase-4 (DPP-4) is an enzyme that breaks down GLP-1. In this study, we evaluated the pathological role of DPP-4 and GLP-1 on salivary gland dysfunction in type 2 diabetic db/db mice. We observed reduced salivary secretion and histopathological alteration of salivary glands in the db/db mice. The increased DPP-4 and decreased GLP-1 levels in the salivary glands were also detected in the db/db mice. Furthermore, the db/db mice had increased apoptosis and oxidative injury in salivary glands. There was an accumulation of advanced glycation end products and mucus in the salivary glands of the db/db mice. In conclusion, these results showed the possible involvement of DPP-4 and GLP-1, leading to increased ROS-induced apoptosis in diabetes-related salivary gland dysfunction. DPP-4 and GLP-1 may be a pharmacological target for patients with diabetes-related salivary gland dysfunction.
Background : This study was performed to know the effect of mulching materials on the growth and root characteristics of Platycodin grandiflorum Ridix. Methods and Results : Platycodin grandiflorum Ridix was treated by with biodegradable film, rice husks, and sawdust, non-mulching (hand weeding). To measure the fresh weight and length, thickness and the number of fine root of the Platycodin grandiflorum Ridix roots harvested in October. Root length appeared in the biodegradable film and sawdust were 27.5 and 26.7㎝ longest, rice husks was the shortest 22.0㎝. Diameter at the thickest showed 30.9 ㎜ in biodegradable film, the following phrase appeared sawdust and rice husks application. The number of fine-root was investigated in biodegradable film most piece 36.0. Fresh weight, which is directly related to yield were biodegradable film to 130 g the highest in the number of fine-root and the longest root length. Conclusion : For the increasing the yield that Pharmacological effect, biodegrada
Background : This study was performed to know the effect of organic fertilizers on the growth and root characteristics of Platycodin grandiflorum Ridix. Methods and Results : As basal fertilizer were treated before transplanting Platycodin grandiflorum Ridix with chemical fertilizer(Super21, 21-17-17, Namhae Chemical), mixed organic fertilizer, bacterial cultures and fermented oil cake, manure in each trial of nitrogen based on 3 ㎏/10a criteria. To measure the fresh weight and length, thickness and the number of fine root of the Platycodin grandiflorum Ridix roots harvested in October. Root length appeared in the mixed organic fertilizer and chemical fertilizer were 25.3 and 24.0 ㎝ longest, oil cake was the shortest 15.3㎝. Diameter at the thickest showed 26.6 ㎜ in chemical fertilizer, the following phrase appeared bacterial cultures and mixed organic fertilizer application. The number of fine-root was investigated in mixed organic fertilizer and chemical fertilizer most pieces 20.0 and 17.0. Fresh weight, which is directly related to yield were mixed organic fertilizer to 55.7 g the highest in the number of fine-root and the longest root length. Conclusion : For the increasing the yield that Pharmacological effect, organic fertilizer is effective to increase the number of fine-root high which high contented with saponins.