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M Liang
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E Ekblad
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JA Gustafsson
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BO Nilsson
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The objective of this study was to investigate the effects of oestrogen receptor (ER) beta activation on vascular protein synthesis and protein expression. Nuclear immunoreactivity towards ER beta was observed abundantly in vascular smooth muscle and endothelial cells of mouse aorta. No ER alpha-positive cell nuclei were observed. In aorta from ovariectomized mice, treatment with the selective ER beta agonist genistein (100 nM) for 24 h increased [(3)H]leucine incorporation by about 30%. This effect was prevented by the ER blocker ICI 182780 (10 microM). Although genistein treatment stimulated protein synthesis, it caused no change in total protein determined either by the Lowry method on tissue homogenate or by densitometric scanning of protein bands (10-220 kDa) separated by SDS-PAGE. Separation of [(35)S]methionine-labelled proteins by SDS-PAGE did not reveal the protein(s) stimulated by genistein. DNA synthesis was not affected by 100 nM genistein, suggesting that genistein-induced stimulation of protein synthesis is not part of a growth response. Protein expression, determined by SDS-PAGE, was similar in aorta from ER beta-knockout and wild-type mice, suggesting that expression of vascular proteins does not depend solely on a functional ER beta gene. We suggest that activation of vascular ER beta stimulates synthesis of proteins and that this response is not associated with vascular growth.

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YF Ma
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M Stimpel
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H Liang
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S Pun
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WS Jee
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Skeletal effects of moexipril, an angiotensin-converting enzyme (ACE) inhibitor, and hydrochlorothiazide (HCTZ), a thiazide diuretic, were studied in ovariectomized (OVX) spontaneously hypertensive rats (SHR). Moexipril (10 mg/kg per day), HCTZ (10 mg/kg per day), alone or in combination, as well as 17 alpha-estradiol (30 micrograms/kg per day) were given to OVX SHR immediately after surgery and studied for short- and long-term effects (14 and 56 days respectively). All drugs were given orally. Histomorphometric data on the secondary spongiosa of proximal tibial metaphyses (cancellous bone) and tibiofibular junctions of tibial shafts (cortical bone) were analyzed. Ovariectomy induced cancellous bone loss in SHR by inducing negative bone balance. Estrogen prevented ovariectomy-induced cancellous bone loss in the SHR by reducing bone turnover and partially suppressing the coupling of bone formation to resorption on the endocortical surface. HCTZ reduced blood pressure after 1 week of treatment, yet this effect was no lower than that seen in controls after 3 weeks of treatment. Two weeks of HCTZ transiently prevented ovariectomy-induced increases in bone turnover rate and eroded surface. This delayed ovariectomy induced trabecular bone loss in the proximal tibial metaphysis, but had no effect on the tibial shaft. Like HCTZ, moexipril also reduced blood pressure after the first week of treatment but it had no apparent effect on either the proximal tibial metaphysis or the tibial shaft. A combination of moexipril and HCTZ exhibited a much more potent hypotensive effect and had the same effect on bone mass and dynamic end-points as HCTZ alone. Our data indicate that (1) HCTZ treatment has some transient beneficial effects on both antihypertension and osteoprotection in hypertensive osteopenic rats, (2) the combination of moexipril with HCTZ improved the antihypertensive effect but did not potentiate or hamper the osteoprotective effect of HCTZ, and (3) the skeletal effect of estrogen is not impacted by the hypertensive state. These findings are relevant for the use of ACE inhibitor and thiazide diuretics, alone or in combination, in antihypertensive therapy in postmenopausal women.

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Junlan Zhou
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Min Cheng Department of Medicine–Cardiology, Department of Cardiology, Department of Biochemistry, Institute for Medical Biology and Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, GeneSys Research Institute, Department of Medicine, Department of Surgery, Kosair Children Hospital Research Institute, Lady Davis Institute for Medical Research, Center for Translational Medicine, Feinberg Cardiovascular Research Institute, Northwestern University Feinberg School of Medicine, 303 E Chicago Avenue, Tarry 14‐721, Chicago, Illinois 60611, USA

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Chan Boriboun
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Mariam M Ardehali
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Changfei Jiang Department of Medicine–Cardiology, Department of Cardiology, Department of Biochemistry, Institute for Medical Biology and Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, GeneSys Research Institute, Department of Medicine, Department of Surgery, Kosair Children Hospital Research Institute, Lady Davis Institute for Medical Research, Center for Translational Medicine, Feinberg Cardiovascular Research Institute, Northwestern University Feinberg School of Medicine, 303 E Chicago Avenue, Tarry 14‐721, Chicago, Illinois 60611, USA

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Qinghua Liu Department of Medicine–Cardiology, Department of Cardiology, Department of Biochemistry, Institute for Medical Biology and Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, GeneSys Research Institute, Department of Medicine, Department of Surgery, Kosair Children Hospital Research Institute, Lady Davis Institute for Medical Research, Center for Translational Medicine, Feinberg Cardiovascular Research Institute, Northwestern University Feinberg School of Medicine, 303 E Chicago Avenue, Tarry 14‐721, Chicago, Illinois 60611, USA

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Shuling Han
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David A Goukassian Department of Medicine–Cardiology, Department of Cardiology, Department of Biochemistry, Institute for Medical Biology and Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, GeneSys Research Institute, Department of Medicine, Department of Surgery, Kosair Children Hospital Research Institute, Lady Davis Institute for Medical Research, Center for Translational Medicine, Feinberg Cardiovascular Research Institute, Northwestern University Feinberg School of Medicine, 303 E Chicago Avenue, Tarry 14‐721, Chicago, Illinois 60611, USA

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Yao-Liang Tang Department of Medicine–Cardiology, Department of Cardiology, Department of Biochemistry, Institute for Medical Biology and Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, GeneSys Research Institute, Department of Medicine, Department of Surgery, Kosair Children Hospital Research Institute, Lady Davis Institute for Medical Research, Center for Translational Medicine, Feinberg Cardiovascular Research Institute, Northwestern University Feinberg School of Medicine, 303 E Chicago Avenue, Tarry 14‐721, Chicago, Illinois 60611, USA

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Ting C Zhao Department of Medicine–Cardiology, Department of Cardiology, Department of Biochemistry, Institute for Medical Biology and Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, GeneSys Research Institute, Department of Medicine, Department of Surgery, Kosair Children Hospital Research Institute, Lady Davis Institute for Medical Research, Center for Translational Medicine, Feinberg Cardiovascular Research Institute, Northwestern University Feinberg School of Medicine, 303 E Chicago Avenue, Tarry 14‐721, Chicago, Illinois 60611, USA

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Ming Zhao
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Lu Cai Department of Medicine–Cardiology, Department of Cardiology, Department of Biochemistry, Institute for Medical Biology and Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, GeneSys Research Institute, Department of Medicine, Department of Surgery, Kosair Children Hospital Research Institute, Lady Davis Institute for Medical Research, Center for Translational Medicine, Feinberg Cardiovascular Research Institute, Northwestern University Feinberg School of Medicine, 303 E Chicago Avenue, Tarry 14‐721, Chicago, Illinois 60611, USA

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Stéphane Richard Department of Medicine–Cardiology, Department of Cardiology, Department of Biochemistry, Institute for Medical Biology and Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, GeneSys Research Institute, Department of Medicine, Department of Surgery, Kosair Children Hospital Research Institute, Lady Davis Institute for Medical Research, Center for Translational Medicine, Feinberg Cardiovascular Research Institute, Northwestern University Feinberg School of Medicine, 303 E Chicago Avenue, Tarry 14‐721, Chicago, Illinois 60611, USA

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Raj Kishore Department of Medicine–Cardiology, Department of Cardiology, Department of Biochemistry, Institute for Medical Biology and Hubei Provincial Key Laboratory for Protection and Application of Special Plants in Wuling Area of China, GeneSys Research Institute, Department of Medicine, Department of Surgery, Kosair Children Hospital Research Institute, Lady Davis Institute for Medical Research, Center for Translational Medicine, Feinberg Cardiovascular Research Institute, Northwestern University Feinberg School of Medicine, 303 E Chicago Avenue, Tarry 14‐721, Chicago, Illinois 60611, USA

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Gangjian Qin
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Obesity is associated with insulin resistance and type 2 diabetes; molecular mechanisms that promote energy expenditure can be utilized for effective therapy. Src-associated in mitosis of 68 kDa (Sam68) is potentially significant, because knockout (KO) of Sam68 leads to markedly reduced adiposity. In the present study, we sought to determine the mechanism by which Sam68 regulates adiposity and energy homeostasis. We first found that Sam68 KO mice have a significantly reduced body weight as compared to controls, and the difference is explained entirely by decreased adiposity. Interestingly, these effects were not mediated by a difference in food intake; rather, they were associated with enhanced physical activity. When they were fed a high-fat diet, Sam68 KO mice gained much less body weight and fat mass than their WT littermates did, and they displayed an improved glucose and insulin tolerance. In Sam68 KO mice, the brown adipose tissue (BAT), inguinal, and epididymal depots were smaller, and their adipocytes were less hypertrophied as compared to their WT littermates. The BAT of Sam68 KO mice exhibited reduced lipid stores and expressed higher levels of Ucp1 and key thermogenic and fatty acid oxidation genes. Similarly, depots of inguinal and epididymal white adipose tissue (WAT) in Sam68 KO mice appeared browner, their multilocular Ucp1-positive cells were much more abundant, and the expression of Ucp1, Cidea, Prdm16, and Ppargc1a genes was greater as compared to WT controls, which suggests that the loss of Sam68 also promotes WAT browning. Furthermore, in all of the fat depots of the Sam68 KO mice, the expression of M2 macrophage markers was up-regulated, and that of M1 markers was down-regulated. Thus, Sam68 plays a crucial role in controlling thermogenesis and may be targeted to combat obesity and associated disorders.

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Shisan Xu Department of Biomedical Sciences, College of Veterinary Medicine and Life Science, City University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Fangjing Xie Department of Biomedical Sciences, College of Veterinary Medicine and Life Science, City University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Li Tian Department of Biomedical Sciences, College of Veterinary Medicine and Life Science, City University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Samane Fallah Department of Biomedical Sciences, College of Veterinary Medicine and Life Science, City University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Fatemeh Babaei Department of Chemistry, City University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Sinai H C Manno Department of Biomedical Sciences, College of Veterinary Medicine and Life Science, City University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Francis A M Manno III School of Biomedical Engineering, Faculty of Engineering, University of Sydney, Sydney, New South Wales, Australia

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Lina Zhu Department of Biomedical Sciences, College of Veterinary Medicine and Life Science, City University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Kin Fung Wong Department of Biomedical Engineering, Polytechnic University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Yimin Liang Department of Chemistry, City University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Rajkumar Ramalingam Department of Chemistry, City University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Lei Sun Department of Biomedical Engineering, Polytechnic University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Xin Wang Department of Biomedical Sciences, College of Veterinary Medicine and Life Science, City University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Robert Plumb Waters Technologies Corporation, Milford, Massachusetts, USA

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Lee Gethings Waters Technologies Corporation, Milford, Massachusetts, USA

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Yun Wah Lam Department of Chemistry, City University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Shuk Han Cheng Department of Biomedical Sciences, College of Veterinary Medicine and Life Science, City University of Hong Kong, Hong Kong SAR, People’s Republic of China
State Key Laboratory of Marine Pollution (SKLMP) at City University of Hong Kong, Hong Kong SAR, People’s Republic of China
Department of Materials Science and Engineering, College of Science and Engineering, City University of Hong Kong, Hong Kong SAR, People’s Republic of China

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Sexual differences have been observed in the onset and prognosis of human cardiovascular diseases, but the underlying mechanisms are not clear. Here, we found that zebrafish heart regeneration is faster in females, can be accelerated by estrogen and is suppressed by the estrogen-antagonist tamoxifen. Injuries to the zebrafish heart, but not other tissues, increased plasma estrogen levels and the expression of estrogen receptors, especially esr2a. The resulting endocrine disruption induces the expression of the female-specific protein vitellogenin in male zebrafish. Transcriptomic analyses suggested heart injuries triggered pronounced immune and inflammatory responses in females. These responses, previously shown to elicit heart regeneration, could be enhanced by estrogen treatment in males and reduced by tamoxifen in females. Furthermore, a prior exposure to estrogen preconditioned the zebrafish heart for an accelerated regeneration. Altogether, this study reveals that heart regeneration is modulated by an estrogen-inducible inflammatory response to cardiac injury. These findings elucidate a previously unknown layer of control in zebrafish heart regeneration and provide a new model system for the study of sexual differences in human cardiac repair.

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