This study was performed to investigate the body fat-lowering effect of garlic powder in peroxisome proliferator-activated receptor γ coactivator-1 α (PGC-1α)-luciferase transgenic mice (TG). In this study, we generated transgenic mice with a PGC-1α promoter (—970/+412 bp) containing luciferase as a reporter gene. Mice were fed a 45% high-fat diet for 8 weeks to induce obesity. Subsequently, mice were maintained on either a high-fat control diet (CON), or high-fat diets supplemented with 2% (GP2) or 5% (GP5) garlic powder for an additional 8 weeks. Dietary garlic powder reduced the body weight in the GP2 and GP5 groups, compared to the CON group. Furthermore, garlic supplementation significantly decreased the plasma levels of triglycerides, total cholesterol, and leptin in the GP5 group, compared to the CON group. Specifically, luciferase activity in liver, white adipose tissue (WAT), and brown adipose tissue (BAT) was increased by garlic supplementation in a dose-dependent manner. These results suggest that the body fat-lowering effect of garlic powder might be related to PGC-1α by the increase in luciferase activity in liver, WAT, and BAT. Furthermore, transgenic mice might be useful for evaluating the body fat-lowering effect of various health functional foods.
This study was performed to investigate the effects of garlic on uncoupling protein 2 (UCP2) transcriptional regulation of UCP2- luciferase transgenic mice fed on a high fat diet to induce obesity. To examine the transcriptional regulation of UCP2, we generated transgenic mice with a UCP2 promoter (-1,830/+30 bp) containing luciferase as a reporter gene. UCP2-luciferase transgenic mice were fed a 45% high-fat diet for 8 weeks to induce obesity. Subsequently, mice were maintained on either a high-fat control diet (TG-CON), or high-fat diets supplemented with 2% (TG-GL2) or 5% (TG-GL5) garlic for a further 8 weeks. Dietary garlic reduced body weight and energy efficiency ratio in the TG-GL5 group, compared to the TG-CON group. Furthermore, garlic supplementation significantly decreased white adipose tissue fat mass and plasma levels of triglycerides, total cholesterol, and leptin in the TG-GL2 and TG-GL5 groups, compared to the TG-CON group. Specifically, UCP2 promoter activity in metabolic tissues such as liver, white adipose tissue, brown adipose tissue, and skeletal muscle was increased by garlic supplementation. These results suggest that dietary garlic was partially associated with an increase of UCP2 transcriptional activity in metabolic tissues for decreasing obesity.
Serum amyloid A (SAA) is an acute phase protein with pro-inflammatory cytokine-like properties. Recent studies have revealed that SAA promotes γδT cell to produce IL-17 and T helper 17 (Th17) cells differentiation and function.
In this study, we established the hepatic SAA1 overexpressed transgenic mice (TG). In this mouse, IL-17 was significantly increased in conditional state by γδT cell. We revealed that SAA1 mediated IL-17 producing from γδT cell is dependent on TLR2. Moreover we immunized SAA1 TG mice with Complete Freund’s adjuvant (CFA), which is well-known inducer of Th1 response and IFN-γ. We observed increased IL-17 secretion with increased Th17 cells and decreased IFN-γ, which is contrast to wild type mice (WT). In addition, we showed that locally increased transforming growth factor- β (TGF-β) followed by Th17 cells polarization might involve in Th17 cell maintenance by suppressing the expression of T-bet, a key transcription factor for the differentiation of T helper 1 (Th1) cells.
These data demonstrate that SAA1 represent potent endogenous protein that drives IL-17 induced inflammation by γδT cell partially through TLR2 and by Th17 cell. Also these increased IL-17 response maintained by TGF-β Smad2/3 signaling. Therefore we could say that SAA is central player in IL-17 related inflammatory response.
In all mammalian species, progesterone is essential in the preparation for and maintenance of pregnancy, if it occurs. Progesterone primes the endometrium for possible implantation and inhibits uterine contraction until birth. 20-alpha hydroxysteroid dehydrogenase (20α-HSD; EC.1.1.1.149) enzyme belongs to the family of aldo-keto reductases. 20α-HSD predominantly converts progesterone into its biologically inactive form 20α-hydroxyprogesterone (20α-OHP), and plays a crucial role in the termination of pregnancy and initiation of parturition. In addition, the activity of 20α-HSD during the luteal phase known to be inhibited by prolactin.
In this study, we focused on the analysis of transgenic mice expressing EGFP under control of monkey 20α-HSD promotor in mice testis. The protein expression and localization were detected by Western blotting and Immunohistochemical analysis, respectively. 20α-HSD protein was detected at molecular weight of 37-kDa by Western blotting analysis and EGFP was found at 27-kDa in the testis of TG mice. Also EGFP and 20a-HSD protein expression on 1, 2, 4, 6 and 8 weeks after birth were assessed. Both of them were increased the expression level time-dependently. 20α-HSD were strongly expressed in seminiferous tubule from 1 week after birth as seen in Immunohistochemical analysis. However, EGFP was strongly expressed in the seminiferous epithelial cells. Then, we determined the expression of EGFP mRNA in mice testis. Using primers specific for mouse EGFP, mRNA expression levels were analyzed by RT-PCR. The EGFP molecular weights is 400bp, qRT-PCR results using EGFP primer, The Cq value of the ratio decreased as the age increased. On this basis, mRNA were increased the expression level time-dependently.
In conclusion, these observations suggest that the 20α-HSD in testis could be play a pivotal role in the spermatogenesis.
Serum amyloid A (SAA) is an acute-phase response protein in the liver, and SAA1 is the major precursor protein involved in amyloid A amyloidosis. This amyloidosis has been reported as a complication in chronic inflammatory conditions such as arthritis, lupus, and Crohn's disease. Obesity is also associated with chronic, low-grade inflammation and sustained, elevated levels of SAA1. However, the contribution of elevated circulating SAA1 to metabolic disturbances and their complications is unclear. Furthermore, in several recent studies of transgenic (TG) mice overexpressing SAA1 that were fed a high-fat diet (HFD) for a relatively short period, no relationship was found between SAA1 up-regulation and metabolic disturbances. Therefore, we generated TG mice overexpressing SAA1 in the liver, challenged these mice with an HFD, and investigated the influence of elevated SAA1 levels. Sustained, elevated levels of SAA1 were correlated with metabolic parameters and local cytokine expression in the liver following 16 weeks on the HFD. Moreover, prolonged consumption (52 weeks) of the HFD was associated with impaired glucose tolerance and elevated SAA1 levels and resulted in systemic SAA1-derived amyloid deposition in the kidney, liver, and spleen of TG mice. Thus, we concluded that elevated SAA1 levels under long-term HFD exposure result in extensive SAA1-derived amyloid deposits, which may contribute to the complications associated with HFD-induced obesity and metabolic disorders.
Human protein C (hPC) is a regulator of homeostasis, suggesting its potential use as a therapy for many disease states. Protein C is a zymogen of a serine protease that is activated by thrombin. Protein C, also known as autoprothrombin ⅡA and blood coagulation factor ⅪⅤ, is a zymogenic (inactive) protein, the activated form of which plays an important role in regulating blood clotting, inflammation, cell death and maintaining the permeability of blood vessel walls in humans and other animals. hPC is a 62 KD disulfide- linked heterodimer consisting of a 21 KD light chain and a 41 KD heavy chain which circulates as an inactive zymogen in plasma. In this study, we focus on generation of hPC transgenic mice. hPC transgenic mice were produced by using micro-injection method. The hPC cDNA was cloned into pBC1 vector under goat β-casein promoter. One-cell stage embryos microinjected were transferred to 24 recipient mice on day 1 of the estrus cycle. We screened 61 mice by the PCR. Four line transgenic mice were identified and confirmed expression of protein C gene in mammary gland and several organ. We also analyzed the expression of mRNA and protein through the northern blot and western blot in mammary gland of hPC transgenic mice. hPC was localized in the alveolar epithelial cell by immunohistochemistry. Now, we are collecting the milk from the 2 found lines. After then, we are checking the activity of hPC produced from mice milk.
The circling (cir/cir ) mouse is a murine model for human non‐syndromic deafness DFNB6. The causative gene is transmembrane inner ear (tmie), in which the mutation is a 40‐kilobase genomic deletion including tmie. The function of Tmie is unknown. To better understand the function of Tmie, we observed the spatiotemporal expression of tmie in the mouse cochlea using a Tmie‐specific antibody during postnatal inner ear development. Tmie was expressed in the cochlear hair cells of the mouse inner ear from embryonic days to adult. It is postulated that Tmie protein is involved in the hair cell structural formation and maturation before hearing onset (around P14), and maintenance of organ of Corti tissues after that. The cochlear hair cells of the circling mouse showed a basal‐to‐apical gradient of outer hair cell degeneration. The hair cell stereocilia bundles revealed the abnormal structure and it expanded to the apical region. In order to find the exact localization of Tmie protein inside the cell, we transfected the plasmids expressing GFP‐Tmie fusion protein into the HEI‐OC1 auditory hair cells. Tmie protein was colocalized with Calnexin (Canx), ER marker protein, but not with beta‐COP, Golgi marker protein. We next produced the Myo7a promoterdirected tmie expression transgenic mice to induce the phenotypic rescue of circling mice in a gene therapeutic way. Some circling mice with tmie transgene showed the normal behavior and hearing ability. These results indicate that tmie has a critical role in the inner ear development and hearing ability in the mice.
<Objective> Injection of a linear transgene into male pronucleus has been widely used to produce Transgenic (Tg) mice. This approach however is inefficient and results in concatemerised transgene insertion and associated reduced protein expression from such insertions. The objective of this study is to develop active transgenesis method by using a piggyBac transposase plasmid DNA, and generate double transgene harboring transgenic mice. <Method> We examined the piggyBac transposase plasmid (pm- GENIE‐3) on its ability to produce transgenic animals with NaOH, HCl and FuGENE6 treated sperm followed by ICSI‐Tr, for its effectiveness in creating EGFP Tg mice, as judged by offspring epifluorescence. After these steps, we explored if the embryo development affects ICSI‐Tr efficiency by using substrate‐free media or aphidicolin. Moreover, we tested to determine if transgenesis is possible by directly injecting the DNA into the cytoplasm or into pronuclei. Finally, we attempted the introduction of two transgenes, such as EGFP and dsRED simultaneously in one transposon and the ability to generate double Tg mice by using NaOH treated sperm during ICSI‐Tr. <Results> The best results were obtained when sperm were treated with NaOH and co‐incubated with circular plasmid DNA of pmGENIE‐3. This resulted in Tg pups that could successfully express EGFP, with efficiencies of 37.9% of born animals being transgenic. Furthermore, the effectiveness of this method was proved by the production of Tg offspring from inbred strains of mice, such as C57BL/6, Balb/c and CD‐1 nude. While injection of DNA into the pronucleus or cytoplasm of one cell embryos, and delayed embryo development‐method were not as effective as ICSI‐Tr in producing Tg mice, they nevertheless proved successful. Finally, NaOH‐ICSI‐Tr successfully obtained Tg mice expressing both the EGFP and dsRED transgene. In conclusion, the current study developed an active form of NaOH‐ICSI‐Tr mediated transgenesis utilizing the piggyBac transposition machinery, and was successful in obtaining Tg mice which expressed simultaneously not only EGFP but also the dsRED transgene stably inserted in these animals.
Erythropoietin (EPO), a glycoprotein hormone produced from primarily cells of the peritubular capillary endothelium of the kidney, is responsible for the regulation of red blood cell production. We have been investigating the roles of glycosylation site added in the biosynthesis and function of recombinant protein. In this study, we analyzed by immunohistochemical methods adaptive mechanisms to excessive erythrocytosis in transgenic (tg) mice expressing dimeric human erythropoietin (dHuEPO) gene. Splenomegaly was observed over 11 21 times in the tg mice. The 2,672 candidate spleen‐gderived genes were identified through the microarray analysis method, and decreased genes were higher than increased genes in the spleen. The specific proteins in the increased and decreased genes were analyzed by immunohistochemical methods. Our results demonstrate that problems of abnormal splenomegaly would solve in tg mice overexpressing dHuEPO gene.