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Miao Hou Departments of, Child Health Care, General Surgery, Institute of Pediatric Research, Department of Public Health and Clinical Medicine, Nanjing Children's Hospital, Nanjing Medical University, 72 Guangzhou Road, Nanjing 210008, People's Republic of China

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Chenlin Ji Departments of, Child Health Care, General Surgery, Institute of Pediatric Research, Department of Public Health and Clinical Medicine, Nanjing Children's Hospital, Nanjing Medical University, 72 Guangzhou Road, Nanjing 210008, People's Republic of China

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Jing Wang Departments of, Child Health Care, General Surgery, Institute of Pediatric Research, Department of Public Health and Clinical Medicine, Nanjing Children's Hospital, Nanjing Medical University, 72 Guangzhou Road, Nanjing 210008, People's Republic of China

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Yanhua Liu Departments of, Child Health Care, General Surgery, Institute of Pediatric Research, Department of Public Health and Clinical Medicine, Nanjing Children's Hospital, Nanjing Medical University, 72 Guangzhou Road, Nanjing 210008, People's Republic of China

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Bin Sun Departments of, Child Health Care, General Surgery, Institute of Pediatric Research, Department of Public Health and Clinical Medicine, Nanjing Children's Hospital, Nanjing Medical University, 72 Guangzhou Road, Nanjing 210008, People's Republic of China

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Mei Guo Departments of, Child Health Care, General Surgery, Institute of Pediatric Research, Department of Public Health and Clinical Medicine, Nanjing Children's Hospital, Nanjing Medical University, 72 Guangzhou Road, Nanjing 210008, People's Republic of China

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Jonas Burén Departments of, Child Health Care, General Surgery, Institute of Pediatric Research, Department of Public Health and Clinical Medicine, Nanjing Children's Hospital, Nanjing Medical University, 72 Guangzhou Road, Nanjing 210008, People's Republic of China

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Xiaonan Li Departments of, Child Health Care, General Surgery, Institute of Pediatric Research, Department of Public Health and Clinical Medicine, Nanjing Children's Hospital, Nanjing Medical University, 72 Guangzhou Road, Nanjing 210008, People's Republic of China
Departments of, Child Health Care, General Surgery, Institute of Pediatric Research, Department of Public Health and Clinical Medicine, Nanjing Children's Hospital, Nanjing Medical University, 72 Guangzhou Road, Nanjing 210008, People's Republic of China

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Early life nutrition is important in the regulation of metabolism in adulthood. We studied the effects of different fatty acid composition diets on adiposity measures, glucose tolerance, and peripheral glucocorticoid (GC) metabolism in overfed neonatal rats. Rat litters were adjusted to a litter size of three (small litters (SLs)) or ten (normal litters (NLs)) on postnatal day 3 to induce overfeeding or normal feeding respectively. After weaning, SL and NL rats were fed a ω6 polyunsaturated fatty acid (PUFA) diet (14% calories as fat, soybean oil) or high-saturated fatty acid (high-fat; 31% calories as fat, lard) diet until postnatal week 16 respectively. SL rats were also divided into the third group fed a ω3 PUFA diet (14% calories as fat, fish oil). A high-fat diet induced earlier and/or more pronounced weight gain, hyperphagia, glucose intolerance, and hyperlipidemia in SL rats compared with NL rats. In addition, a high-fat diet increased 11β-hsd1 (Hsd11b1) mRNA expression and activity in the retroperitoneal adipose tissue of both litter groups compared with standard chow counterparts, whereas high-fat feeding increased hepatic 11β-hsd1 mRNA expression and activity only in SL rats. SL and a high-fat diet exhibited significant interactions in both retroperitoneal adipose tissue and hepatic 11β-HSD1 activity. Dietary ω3 PUFA offered protection against glucose intolerance and elevated GC exposure in the retroperitoneal adipose tissue and liver of SL rats. Taken together, the results suggest that dietary fatty acid composition in the post-sucking period may interact with neonatal feeding and codetermine metabolic alterations in adulthood.

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Qiong You Department of Cardiovasology, The Affiliated Hospital, Guangdong Medical College, Guangdong, Zhanjiang, China

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Zijun Wu Department of Cardiovasology, The Affiliated Hospital, Guangdong Medical College, Guangdong, Zhanjiang, China

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Bin Wu Department of Cardiovasology, The Affiliated Hospital, Guangdong Medical College, Guangdong, Zhanjiang, China

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Chang Liu Department of Cardiovasology, The Affiliated Hospital, Guangdong Medical College, Guangdong, Zhanjiang, China

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Ruina Huang Department of Cardiovasology, The Affiliated Hospital, Guangdong Medical College, Guangdong, Zhanjiang, China

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Li Yang Department of Cardiovasology, The Affiliated Hospital, Guangdong Medical College, Guangdong, Zhanjiang, China

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Runmin Guo Department of Cardiovasology, The Affiliated Hospital, Guangdong Medical College, Guangdong, Zhanjiang, China

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Keng Wu Department of Cardiovasology, The Affiliated Hospital, Guangdong Medical College, Guangdong, Zhanjiang, China

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Jingfu Chen Department of Cardiology, The Third People’s Hospital of Dongguan City, Cardiovascular Institute of Dongguan City, Dongguan, Guangdong, China

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We previously reported that naringin (NRG) protects cardiomyocytes against high glucose (HG)-induced injuries by inhibiting the MAPK pathway. The aim of this study was to test the hypothesis that NRG prevents cardiomyocytes from hyperglycemia-induced insult through the inhibition of the nuclear factor kappa B (NF-κB) pathway and the upregulation of ATP-sensitive K+ (KATP) channels. Our results showed that exposure of cardiomyocytes to HG for 24h markedly induced injuries, as evidenced by a decrease in cell viability and oxidative stress, and increases in apoptotic cells as well as the dissipation of mitochondrial membrane potential (MMP). These injuries were markedly attenuated by the pretreatment of cells with either NRG or pyrrolidine dithiocarbamate (PDTC) before exposure to HG. Furthermore, in streptozotocin (STZ)-induced diabetic rats and in HG-induced cardiomyocytes, the expression levels of caspase-3, bax and phosphorylated (p)-NF-κB p65 were increased. The increased protein levels were ameliorated by pretreatment with both NRG and PDTC. However, the expression levels of bcl-2 and KATP and superoxide dismutase (SOD) activity were decreased by hyperglycemia; the expression level of Nox4 and the ADP/ATP ratio were increased by hyperglycemia. These hyperglycemia-induced indexes were inhibited by the pretreatment of cardiomyocytes with NRG or PDTC. In addition, in STZ-induced diabetic rats, we also observed that NRG or PDTC contributed to protecting mitochondrial injury and myocardium damage. This study demonstrated that NRG protects cardiomyocytes against hyperglycemia-induced injury by upregulating KATP channels in vitro and inhibiting the NF-κB pathway in vivo and in vitro.

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Hai-Fan Yu College of Veterinary Medicine, Jilin University, Changchun, People’s Republic of China

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Zhan-Peng Yue College of Veterinary Medicine, Jilin University, Changchun, People’s Republic of China

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Kai Wang College of Veterinary Medicine, Jilin University, Changchun, People’s Republic of China

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Zhan-Qing Yang College of Veterinary Medicine, Jilin University, Changchun, People’s Republic of China

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Hong-Liang Zhang College of Veterinary Medicine, Jilin University, Changchun, People’s Republic of China

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Shuang Geng College of Veterinary Medicine, Jilin University, Changchun, People’s Republic of China

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Bin Guo College of Veterinary Medicine, Jilin University, Changchun, People’s Republic of China

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Although Gja1 has been proved to play an important role in uterine decidualization, its regulatory mechanism remains largely unknown. Here, we showed that Gja1 was highly expressed in the decidual cells and promoted the proliferation of uterine stromal cells and expression of Prl8a2 and Prl3c1, which were two well-known differentiation markers for decidualization. Further analysis revealed that Gja1 might act downstream of Acvr1 and cAMP to regulate the differentiation of uterine stromal cells. Administration of cAMP analog 8-Br-cAMP to Acvr1 siRNA-transfected stromal cells resulted in an obvious increase of Gja1 expression, whereas PKA inhibitor H89 impeded the induction of Gja1 elicited by Acvr1 overexpression, indicating that cAMP–PKA signal mediates the regulation of Acvr1 on Gja1 expression. In uterine stromal cells, knockdown of Gja1 blocked the cAMP induction of Hand2. Moreover, siRNA-mediated downregulation of Hand2 impaired the stimulatory effects of Gja1 overexpression on the expression of Prl8a2 and Prl3c1, whereas constitutive expression of Hand2 reversed the inhibitory effects of Gja1 siRNA on stromal differentiation. Meanwhile, Gja1 might play a vital role in the crosstalk between Acvr1 and Hand2. Collectively, Gja1 may act downstream of cAMP–PKA signal to mediate the effects of Acvr1 on the differentiation of uterine stromal cells through targeting Hand2.

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Dang-Dang Li College of Veterinary Medicine, Jilin University, Changchun 130062, People's Republic of China

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Ying-Jie Gao College of Veterinary Medicine, Jilin University, Changchun 130062, People's Republic of China

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Xue-Chao Tian College of Veterinary Medicine, Jilin University, Changchun 130062, People's Republic of China

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Zhan-Qing Yang College of Veterinary Medicine, Jilin University, Changchun 130062, People's Republic of China

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Hang Cao College of Veterinary Medicine, Jilin University, Changchun 130062, People's Republic of China

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Qiao-Ling Zhang College of Veterinary Medicine, Jilin University, Changchun 130062, People's Republic of China

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Bin Guo College of Veterinary Medicine, Jilin University, Changchun 130062, People's Republic of China

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Zhan-Peng Yue College of Veterinary Medicine, Jilin University, Changchun 130062, People's Republic of China

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Tryptophan 2,3-dioxygenase (T do 2) is a rate-limiting enzyme which directs the conversion of tryptophan to kynurenine. The aim of this study was to examine the expression and regulation of T do 2 in mouse uterus during decidualization. T do 2 mRNA was mainly expressed in the decidua on days 6–8 of pregnancy. By real-time PCR, a high level of T do 2 expression was observed in the uteri from days 6 to 8 of pregnancy, although T do 2 expression was observed on days 1–8. Simultaneously, T do 2 mRNA was also detected under in vivo and in vitro artificial decidualization. Estrogen, progesterone, and 8-bromoadenosine-cAMP could induce the expression of T do 2 in the ovariectomized mouse uterus and uterine stromal cells. T do 2 could regulate cell proliferation and stimulate the expression of decidual marker Dtprp in the uterine stromal cells and decidual cells. Overexpression of T do 2 could upregulate the expression of Ahr, Cox2, and Vegf genes in uterine stromal cells, while T do 2 inhibitor 680C91 could downregulate the expression of Cox2 and Vegf genes in uterine decidual cells. These data indicate that T do 2 may play an important role during mouse decidualization and be regulated by estrogen, progesterone, and cAMP.

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