Effects of puerarin on apelin-12, angiotensin II,NO and blood pressure in renovascular hypertensive rat

AIM: To investigate the effects of puerarin on blood pressure in renovascular hypertensive rats, and to measure puerarin-induced changes of apelin-12, angiotensin II (Ang II) and nitric oxide(NO), the factors related to development of hypertension. METHODS: Sixty-five male Sprague-Dawley rats were used, of which 8 rats were randomly selected as sham operation group, and the remaining were used to make two-kidney, one-clip model. The rats that met the criterion for Goldblatt hypertensive rat model were randomly allocated into 5 groups: high-, middle- and low-dose puerarin groups, captopril group, and model group. The drugs were administered for 6 weeks. Blood pressure was measured every 2 weeks. Six weeks after treatment, all rats were sacrificed under deep anesthesia. Blood and kidney samples were collected. The level of apelin-12 in serum and kidneys was detected by ELISA. The level of Ang II in plasma and kidneys was measured by radioimmunoassay. NO level in serum was examined by nitrate reductase assay. RESULTS: Puerarin had an antihypertensive effect in a dose-dependent manner. Marked decreases in the level of serum apelin-12 in high- and middle-dose puerarin groups were observed(P<0.01). Puerarin at low dose did not cause obvious change in the content of apelin but still reached significant level (P<0.05). As the dose of puerarin went up, the level of apelin-12 in the kidneys was gradually decreased. Puerarin at high and middle doses obviously reduced the level of AngII in plasma, while purarin at low dose did not produce any significant effects. Puerarin at high and middle doses markedly increased the level of NO in serum, but puerarin at low dose did not induce any significant changes. CONCLUSION: Puerarin has an antihypertensive effect, and its mechanism may be related to inducing the changes of apelin, Ang II and NO, and regulating the balance among those factors.     

Comparatively examining of the apelin‐13 levels in the Capoeta trutta (Heckel, 1843) and Cyprinus carpio (Linnaeus, 1758)

Apelin is a recently discovered peptide produced by several tissues in the various vertebrates and fish. Apelin has been suggested to have role in regulation of many diverse physiological functions including food intake, energy homoeostasis, immunity, osmoregulation and reproduction. In this study, apelin‐13 levels in the blood serum of Cyprinus carpio and Capoetta trutta were determined. Then the results were compared between two species and sexes of each species. Apelin‐13 level was analysed using the enzyme‐linked immunoassay (ELISA) kit (Rat apelin‐13 ELISA kit, catalog no: CSB‐E14367r). Apelin‐13 level in the blood serum of C. trutta was significantly higher than those of the C. carpio (p < 0.05). However, its levels were observed to be no significant difference (p > 0.05) that compared to between sexes of each species. There was a significant negative correlation (r = ?0.829, p = 0.0001) between the apelin‐13 level and body weight of C. carpio. However, no significant correlation (r = ?0.022, p = 0.924) between the apelin‐13 level and weight of C. trutta observed.     

Serum apelin and chemerin levels in female obese children and their correlation with insulin resistance

AIM: To investigate the serum levels of apelin and chemerin in female obese children and their correlation with insulin resistance (IR).METHODS: Thirty-five female children participated in the study, 20 of which were obese and 15 were non-obese controls ,without statistical difference in age between the 2 groups. Serum levels of apelin and chemerin were measured by ELISA method. The concentrations of triglyceride (TG), cholesterol (TC), low-density lipoprotein cholesterol (LDL-C), high-density lipoprotein cholesterol (HDL-C), fasting glucose and fasting insulin (FINS) were measured. Body mass index standard deviation score (BMI-SDS) and homeostasis model assessment of insulin resistance (HOMA-IR) were calculated for all participants. RESULTS: A significant difference of BMI between obese group and control group (24.02±3.90 vs 16.46±1.93, P<0.01) was observed. Serum levels of TG, LDL-C, FINS, and HOMA-IR were significantly higher in obese group than those in control group (allP<0.05). Serum levels of apelin and chemerin were also significantly higher in obese children than those in the controls . Serum level of apelin was positively correlated with BMI-SDS (r=0.356, P<0.05), TG (r=0.548, P<0.01), FINS (r=0.541, P<0.01) and HOMA-IR (r=0.551, P<0.01) in all individuals. The negative correlation between serum chemerin level and age (r=-0.362, P< 0.05), and positive correlations between serum chemerin level and BMI-SDS (r= 0.315, P<0.01), TG (r= 0.28, P<0.05), FINS (r= 0.38, P<0.01) and HOMA-IR (r= 0.41, P< 0.01) were detected.CONCLUSION: Increased serum apelin and chemerin levels are correlated with insulin resistance, indicating their roles in the pathogenesis of children obese.     

Apelin与鱼类摄食

鱼类通过摄食活动获得能量和营养物质，而食欲是影响鱼类摄食的重要因素之一。食欲调控是一个复杂的网络，大脑整合机体能量和摄食信号，通过食欲调节因子（包括促进食欲因子和抑制食欲因子）调控鱼类摄食行为。Apelin作为一种新型内分泌因子，在体内发挥广泛的生物学作用。其中，apelin在摄食调节方面的作用正在引起学者的关注。本文以哺乳动物为参照，综述了apelin的组织分布、饥饿和营养物质对apelin表达的影响、apelin处理对鱼类摄食的影响及其可能的机制和信号通路，旨在为促进鱼类摄食和水产养殖提供参考。     

Role of apelin in rat myocardial ischemic preconditioning and ischemia/ reperfusion injury

AIM: To study the alteration and role of apelin in myocardial ischemic preconditioning and ischemia/reperfusion injury of rats.METHODS: Forty-five SD rats were randomly divided into three groups: ischemia/reperfusion group (IR),ischemia pre-conditioning group (IP) and sham operation group.ECG was continuously used to evaluate the score of arrhythmias.The protein levels of apelin-36 in myocardium and plasma were detected by radioimmunoassay.The expression of apelin was observed by immunohistochemistry.RESULTS: (1) The scores of arrhythmias in IP group (2.1±0.5) was only 58.3% of IR group (3.6±0.8) ( P<0.01).(2) The apelin-36 protein level of plasma and myocardium in IR group were respectively lower by 36.1% and 45.6% than those in SH group (P<0.01),and those in IP group were lower by 23.8% and 24.7% than those in SH group (P<0.01),but higher than those in IR group (18.9% and 38.5%,respectively,P<0.05).(3) The staining absorbance of apelin in IR,SH and IP group was (7.87±2.41),(22.53±2.54) and (14.23±2.15),respectively.There were significant differences between IR and SH (P<0.01) and between IP group and SH group (P<0.05).(4) The scores of arrhythmias in IP and IR were negatively correlated with the protein level of apelin-36 in myocardium (r= 0.847,P <0.01).CONCLUSION: The down-regulation of apelin-36 in the plasma and myocardium of rats indicates that apelin has an important role in myocardial ischemic preconditioning and ischemia/reperfusion injury.     

Apelin is involved in postprandial responses and stimulates secretion of arginine-vasopressin, adrenocorticotropic hormone, and growth hormone in the ruminant

Apelin and its mRNA are expressed in several tissues, including the supraoptic and paraventricular nuclei in the hypothalamus. Although apelin is reported to be involved in the regulation of fluid homeostasis, little is known about the postprandial dynamics of apelin in plasma and its regulatory effects on the anterior pituitary hormones of ruminants. Therefore, the aims of this study were to investigate the following: (1) changes in plasma apelin concentrations in response to food intake under conditions of hydration (free access to water) or dehydration (water restriction), and (2) the effects of intravenous administration of apelin on plasma concentrations of arginine-vasopressin (AVP), ACTH, GH, and insulin. In Experiment 1 with the use of goats, the postprandial plasma apelin concentration was significantly increased under the dehydration condition compared with the hydration condition, and this increase was accompanied by increased plasma concentrations of AVP and ACTH after 24 h of dehydration. In Experiment 2 with the use of sheep and hydration conditions, the intravenous administration of apelin ([Pyr(1)]-apelin-13; 0.5 mg/head) caused a tendency to increase or caused a significant increase in plasma concentrations of AVP, ACTH, GH, insulin, and glucose. On the basis of these findings, we concluded that apelin is involved in the feeding process, and it regulates endocrine functions in the anterior pituitary gland via AVP in ruminant animals.