A Propolis-Derived Small Molecule Tectochrysin Ameliorates Type 2 Diabetes in Mice by Activating Insulin Receptor ß.

SCOPE: Propolis has been found to decrease glucose levels and increase insulin sensitivity in type 2 diabetes. However, the active ingredient responsible for these effects and its regulating mechanism are not fully understood. METHODS AND RESULTS: To address this, molecular docking screening is used to screen the effective hypoglycemic ingredient in propolis and found that tectochrysin (TEC) has a high affinity to the insulin receptor (IR), highlighting its potential for glycemic control. In vivo tests show that TEC decreases glucose levels and enhances insulin sensitivity in db/db mice. By hyperinsulinemic euglycemic clamp test, this study further finds that TEC promotes glucose uptake in adipose tissue and skeletal muscle, as well as inhibits hepatic gluconeogenesis. Moreover, it finds that TEC promotes glucose uptake and adipocytes differentiation in 3T3-L1 cells like insulin, suggesting that TEC exerts an insulin mimetic effect. Mechanistically, pharmacology inhibition of IRß abolishes the effects of TEC on glucose uptake and the phosphorylation of IR. The study further demonstrates that TEC binds to and activates IRß by targeting its E1077 and M1079. CONCLUSION: Therefore, this study sheds light on the mechanism underlying propolis' potential for ameliorating type 2 diabetes, offering a natural food-derived compound as a promising therapeutic option.

DNA methylation status of SERPINA3 gene involved in mRNA expression in three cattle breeds.

DNA methylation could take part in the gene expression and acts an important role in muscle development. In this study, DNA methylation and expression in adipose and muscle tissues were examined at the same time to evaluate the extent of epigenetic modifications and gene expression on the differentially methylated region (DMR) in SERPINA3. Chain reaction of bisulfite sequencing polymerase (BSP) was used to compared difference among DNA methylation patterns. The result of quantitative real-time PCR (qPCR) analysis showed that there was an extensive expression of SERPINA3 gene in tissue and there was a significant difference existing in muscle and adipose between Jiaxian cattle and individual of other breeds with increasing hybridization (p < 0.05). The statistic analyses indicated that DNA methylation patterns had a significant influence to the level of mRNA in tissue of fat and muscle. This study may be an important reference for investigating development of muscle tissue in cattle, and may promote the process of cattle molecular breeding.

Determination of genetic effects of SERPINA3 on important growth traits in beef cattle.

Serine protease inhibitor protein 3 (serpin peptidase inhibitor, clade A, member 3, SERPINA3) is a member of the serpin superfamily, probably related to the yield and quality of muscle. This study focuses on the relationship between SERPINA3 gene polymorphism and growth traits in beef cattle. The study first uses sequencing pooled DNA samples (Pool-Seq), PCR-RFLP and Tetra-primer ARMS-PCR techniques to determine the genetic polymorphisms of SERPINA3 in 765 beef cattle. Then, the polymorphic loci were correlated with the growth characters of cattle. Five SNPs (SNP1:A-648G, SNP2:T6496A, SNP3:G2495A, SNP4:T2595A, SNP5:A2615G) were found, located in the promoter, introns 5 and SNP 3, 4, 5 were in exons 2, respectively. The observed He was from 0.44 to 0.5, Ne were approaching 2 (1.78 to 2.00). The maximum and minimum PIC (polymorphism information content) values were 0.37 and 0.34, respectively. The association analysis results showed that the SNPs had a significant height in the chest girth and body length. (p < 0.05 or p < 0.01). This will provide important information for the rapid breeding of Chinese yellow cattle and the establishment of a molecular genetic marker database.

Novel copy number variation of the KLF3 gene is associated with growth traits in beef cattle.

Copy number variation (CNV) related to complex traits, such as disease and quantitative phenotype, is considered an important and wealthy source of genetic and phenotypic diversity. It suggests that the copy number variation of function gene maybe leads to the phenotypic changes. Kupple like factor 3 (KLF3) gene is a vital transcription factor associated with the growth and development of muscle and adipose tissue. It has been mapped in a CNV region by animal genome re-sequencing. In this study, we detected the distribution diversity of KLF3 gene copy numbers in six Chinese cattle breeds (QC, NY, XN, PN, QDM and JX) and associated the phenotypic traits with it. Then, we analyzed the KLF3 gene transcription expression level in different tissues of Jiaxian (JX) cattle. Furthermore, we detected mRNA expression level of muscle and fat tissues of Jiaxian cattle (JX), Angus × Jiaxian (AJ). The results showed that the copy number in CNV loss was more frequent in QC than others. And we revealed a positive effect of KLF3 CNV on growth traits, such as body mass and heart girth (P < 0.05). In a word, we ascertained the significance between CNVs of KLF3 gene and growth traits in different cattle breeds, and our data indicates that the CNVs of KLF3 gene may as a marker for the future molecular breeding of Chinese beef cattle.

Relationship between insulin A chain regions and insulin biological activities.

AIM:To study the relationship between insulin A chain regions and insulin biological activities, we designed a series of insulin analogues with changes at A21, A12-18 of C terminal helical region and A8-10 located in the region of A6-A11 intra-chain disulphide bond.METHODS:Insulin A-chain analogues were prepared by stepwise Fmoc solid phase manual synthesis and then combined with natural B-chain of porcine insulin to yield corresponding insulin analogues. Their biological activities were tested by receptor binding, mouse convulsion and immunological assay.RESULTS: A21Ala Ins retains 70.3% receptor binding capacity and 60% in vivo biological activity.DesA13-14, A21Ala Ins and DesA12-13-14-15, A21Ala Ins still have definite biological activity,7.9% and 4.0% receptor binding,and 6.2% and 3.3% in vivo biological activity respectively. A15Asn, A17Pro, A21Ala Ins maintains 10.4% receptor binding and 10% in vivo biological activity. A8His, A9Arg, A10Pro, A21Ala Ins, A8His, A9Lys, A10Pro, A21Ala Ins and A8His, A9Lys, A10Arg, A21Ala Ins have 51.9%, 44.3% and 32.1% receptor binding respectively,50%, 40% and 30% in vivo biological activity respectively, and 28.8%, 29.6% and 15.4% immunological activity respectively.CONCLUSION:A21Asn can be replaced by simple amino acid residues.The A chains with gradually damaged structural integrity in A12-18 helical region and the demolition of the A12-18 helical region by the substitution of Pro and Asn for A17Glu and A15Gln respectively can combine with the B chain and the combination products show definite biological activity, the helical structure of A12-18 is essential for biological activities of insulin. A8-10 is not much concerned with biological activities, but is much more important antigenically in binding to its antibodies, these results may help us design a new type of insulin analogue molecule.