Data_Sheet_1_Gadus morhua Eggs Sialoglycoprotein Prevent Estrogen Deficiency-Induced High Bone Turnover by Controlling OPG/RANKL/TRAF6 Pathway and Serum Metabolism.docx

In recent years, the development of safe and effective anti-osteoporosis factors has attracted extensive attention. In this study, an estrogen-deficient osteoporosis rat model was employed to study the improving mechanism of sialoglycoprotein isolated from Gadus morhua eggs (Gds) against osteoporosi...

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Bibliographic Details
Main Authors: Meihui Zhao, Fengfeng Mei, Jinfeng Lu, Qingying Xiang, Guanghua Xia, Xueying Zhang, Zhongyuan Liu, Chenghui Zhang, Xuanri Shen, Qiuping Zhong
Format: Dataset
Language:unknown
Published: 2022
Subjects:
Clinical and Sports Nutrition
Dietetics and Nutrigenomics
Nutritional Physiology
Public Nutrition Intervention
Nutrition and Dietetics not elsewhere classified
Food Chemistry and Molecular Gastronomy (excl. Wine)
Food Nutritional Balance
Animal Nutrition
Crop and Pasture Nutrition
Gadus morhua
bone resorption
serum metabolism
osteoporosis
OPG
Online Access:https://doi.org/10.3389/fnut.2022.871521.s001
https://figshare.com/articles/dataset/Data_Sheet_1_Gadus_morhua_Eggs_Sialoglycoprotein_Prevent_Estrogen_Deficiency-Induced_High_Bone_Turnover_by_Controlling_OPG_RANKL_TRAF6_Pathway_and_Serum_Metabolism_docx/19583413
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Summary:In recent years, the development of safe and effective anti-osteoporosis factors has attracted extensive attention. In this study, an estrogen-deficient osteoporosis rat model was employed to study the improving mechanism of sialoglycoprotein isolated from Gadus morhua eggs (Gds) against osteoporosis. The results showed that compared with OVX, Gds ameliorated the trabecular microstructure, especially the increased trabecular thickness, decreased trabecular separation, and enhanced the trabecular number. The analysis of qRT-PCR and western blotting found that Gds reduced bone resorption by inhibiting RANKL-induced osteoclastogenesis. The LC-MS/MS was used to investigate serum metabolism, and the enrichment metabolites were analyzed by the KEGG pathway. The results revealed that the Gds significantly altered the fat anabolism pathway, which includes ovarian steroidogenesis pathway and arachidonic acid metabolism pathway. Altogether, Gds could improve osteoporosis by suppressing high bone turnover via controlling OPG/RANKL/TRAF6 pathway, which is implicated with ovarian steroidogenesis pathway and arachidonic acid metabolism pathway. These findings indicated that Gds could be a candidate factor for anti-osteoporosis.

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