Wistar大鼠海马CA1区、CA3区和齿状回区的解剖分割

目的:在体视显微镜下分割Wistar大鼠海马CA1区、CA3区和齿状回(DG)区。方法:24只健康Wistar大鼠,分组如下:①6只大鼠取脑后硫堇染色,观察海马各区细胞形态;②6只大鼠分离出海马,体视显微镜下观察海马形态并分割CA1区、CA3区和DG区,各区分别切片后硫堇染色;③12只大鼠检测海马各区HSP 70的表达。结果:①大脑冠状切片硫堇染色清晰显示出海马CA1区、CA3区和DG区;②体视显微镜下,在海马腹侧面,沿着CA1区和DG区之间的海马沟可分割开CA1区和DG区,沿着CA3区和DG区之间的裂隙可分割开CA3区和DG区;分割后的海马各区细胞形态结构与整体大脑冠状切片上相对应区域的细胞形态结构一致;③Western blot结果显示:与对照组相比,脑缺血组HSP 70的表达在海马CA3+DG区明显上调、而在CA1无明显变化,这一结果与免疫组织化学结果一致。结论:上述方法可比较明确地分割Wistar大鼠海马CA1区、CA3区和DG区,分割得到的各区组织可用于蛋白质表达的检测。     

超声心动图Tei指数对不同血糖控制水平妊娠期糖尿病孕妇胎儿心功能及出生后整体心功能的评估价值

目的:探讨超声心动图Tei指数对不同血糖控制水平妊娠期糖尿病(GDM)孕妇胎儿心功能及出生后整体心功能的评估价值。方法:选择2017年2月至2019年10月期间我院产科接诊的134例GDM患者,根据血糖控制水平将其分为良好组(餐前空腹血糖≤5.3 mmol/L,餐后2 h血糖≤6.7 mmol/L,睡前血糖>3.3 mmol/L,妊娠期糖化血红蛋白<5.5%,65例)和不良组(餐前空腹血糖>5.3 mmol/L,餐后2 h血糖>6.7 mmol/L,睡前血糖≤3.3 mmol/L,妊娠期糖化血红蛋白≥5.5%,69例),另选择50例正常妊娠孕妇为对照组。分别于妊娠3238周、新生儿出生后17 d采用超声心动图测量胎儿、新生儿心功能和Tei指数。比较胎儿、新生儿心功能、Tei指数的差异。结果:不良组胎儿左室射血分数(LVEF)、二尖瓣E/A峰的速度比值(E/AMV)、右室舒张末期内径(RVDd)、右室收缩末期内径(RVDs)、左室短轴缩短率(LVFS)、左心室Tei指数、右心室Tei指数均高于良好组和对照组(P<0.05),三尖瓣E/A峰速度比值(E/ATV)低于良好组和对照组(P<0.05)。良好组LVFS高于对照组(P<0.05),良好组LVEF、E/AMV、E/ATV、RVDd、RVDs、左心室Tei指数、右心室Tei指数与对照组比较无统计学差异(P>0.05)。不良组新生儿LVEF、E/AMV、RVDd、RVDs、LVFS、左心室Tei指数、右心室Tei指数均高于良好组和对照组(P<0.05),E/ATV低于良好组和对照组(P<0.05)。良好组LVFS高于对照组(P<0.05),良好组LVEF、E/AMV、E/ATV、RVDd、RVDs、左心室Tei指数、右心室Tei指数与对照组比较无统计学差异(P>0.05)。结论:超声心动图Tei指数可敏感地反映GDM孕妇胎儿以及新生儿心功能损伤,妊娠期有效控制血糖水平有助于保护胎儿心功能。     

Effects of fucoidan on diabetic rat testicular tissue

Increased reactive oxygen species (ROS) resulting from hyperglycemia and inadequate endogenous antioxidant systems are responsible for the complications of diabetes. ROS accumulate in the cell and stimulate apoptosis, which compromises sperm quality and function. We investigated the possible effects of fucoidan, a potent antioxidant with a regulatory effect on blood glucose homeostasis, on the testicular tissues of rats with experimental diabetes. Diabetes was induced by administering 40 mg/kg streptozotocin (STZ) on five consecutive days. Twenty-four Wistar albino male rats were divided into four groups: group 1, control group (CG); group 2, diabetes group (DG); group 3, early fucoidan group (EFG) treated with 50 mg/kg fucoidan after diabetes induction; group 4, late fucoidan group (LFG) treated with the same dose of fucoidan 15 days after diabetes induction. Fucoidan was administered intraperitoneally every two days for four weeks. Basement membrane thickness and Johnsen scores were higher in the DG than in the CG; no difference was found for either the EFG or LFG compared to the CG. Seminiferous tubule diameters of EFG were significantly greater than for the DG. Apoptotic tubule and apoptotic cell indexes were significantly greater in the DG and significantly less in the EFG and LFG groups compared to the CG. Early use of fucoidan in diabetic individuals may minimize damage to testicular tissue.     

Glucose Metabolism Assessed with 2-Deoxyglucose and the Effect of Glutamate in Subdivisions of Rat Hippocampal Slices

A new approach to the study of glucose phosphorylation in brain slices is described. It is based on timed incubation with nonradioactive 2-deoxyglucose (DG), after which the tissue levels of DG and 2-deoxyglucose-6-phosphate (DG6P) are measured separately with sensitive enzymatic methods applied to specific small subregions. The smallest samples had dry weights of approximately 0.5 microgram. Direct measurements in different regions of hippocampal slices showed that within 6 min after exposure to DG, the ratios of DG to glucose in the tissue were almost the same as in the incubation medium, which simplifies the calculation of glucose phosphorylation rates and increases their reliability. Data are given for ATP, phosphocreatine, sucrose space, and K+ in specific subregions of the slices. DG6P accumulation proceeded at a constant rate for at least 10 min, even when stimulated by 10 mM glutamate in the medium. The calculated control rate of glucose phosphorylation was 2 mmol/kg (dry weight)/min. In the presence of 10 mM glutamate it was twice as great. The response to 10 mM glutamate of different regions of the slice was not uniform, ranging from 164% of control values in the molecular layer of CA1 to 256% in the stratum radiatum of CA1. There was a profound fall in phosphocreatine levels (75%) in response to 10 mM glutamate despite a 2.4-fold increase in glucose phosphorylation. Even in the presence of 1 mM glutamate, the increase in glucose phosphorylation (50%) was not great enough to prevent a significant drop in phosphocreatine content.     

Global Sex Differences in Stress-Induced Activation of Cerebral Metabolism Revealed by 2-Deoxyglucose Autoradiography

Although it is well known that there are sex differences in stress-induced activation of the hypothalamic–pituitary–adrenal axis, it is not known if there are also gender-related differences in stress-induced neural activity. In this study, restraint and formalin injections into a forelimb were used as stressors and 2-[¹⁴C]deoxyglucose (2DG) autoradiography was used to evaluate regional brain glucose metabolism, an index of neural activity. Analysis of blood samples collected during the 2DG procedure confirmed that stress elevates plasma glucose levels signficantly more in females than in males. Moreover, females show higher brain glucose utilization in all regions examined, including sex hormone-responsive regions such as the medial amygdala, medial preoptic nucleus, ventromedial nucleus, and arcuate nucleus, as well as the CA1 layer and dentate region of the hippocampus, the posterior parietal (sensorimotor) cortex, medial and lateral habenula, and splenium of the corpus callosum. The sex differences are apparent regardless of whether animals were injected with saline or formalin. Interestingly, the medial preoptic area, which shows robust neuroanatomical sex differences, demonstrates greater activation in response to formalin than to saline only in females. In some regions of both males and females, glucose utilization was higher on the side of the brain contralateral to the saline or formalin injection site. These findings suggest that there are widespread, gender-related differences in neuronal as well as endocrine activation in response to highly stressful conditions.     

Cellular Death in Hippocampus in Response to PI3K Pathway Inhibition and Oxygen and Glucose Deprivation

We investigated the importance of the phosphoinositide3-kinase (PI3K) pathway in CA1 and dentate gyrus (DG) areas of hippocampus by exposing organotypic cultures to LY294002, a PI3K inhibitor, or to oxygen and glucose deprivation (OGD) for up to 21 hours. LY294002 induced increased propidium iodide (PI) uptake and caspase 3/7 activity in both regions, with a faster onset in DG. In contrast, cultures exposed to 60 min of OGD showed a PI uptake only in the CA1 area, beginning 13 h after the insult and increasing until 21 h. We did not observe any significant changes in AKT phosphorylation and immunocontent in CA1 or DG areas of organotypic cultures exposed to OGD, suggesting that the phosphorylation of this protein at Ser-473 is unrelated to the cellular damage induced by ischemia. Our results suggest that the inhibition of the PI3K pathway does not mimic the cell death profile observed with an ischemic model.     

Cerebrospinal fluid nitrite/nitrate predicts poor outcome in patients with subarachnoid hemorrhage (SAH)

NAAG, an agonist at Group II metabotropic glutamate receptors and at the N-methyl- d -aspartate (NMDA)-type of ionotropic glutamate receptor, was infused at 250 nmoles in 0.25 μL of saline into each cerebral ventricle of 12-day-old rat pups. Proportion of pycnotic neurons was determined in 100 × 200 μm areas of medial and lateral blades of DG, and in areas CA1, CA3a, b of both dorsal and ventral hippocampus. In some sections we used Fluoro-JADE-B staining to visualize degenerating neuronal cell bodies. There was a marked neurodegeneration, particularly in the medial blade of DG, at 24 h after the administration of NAAG but it was lower at the 4-day time point. No significant damage was observed in 50-day-old rat. The results indicate that early postnatal administration of NAAG can cause serious loss of neurons in rat hippocampus.
Acknowledgement:  Supported by LNOOB122 MEYS CR.     

Neonatal neurodegeneration after N‐acetyl‐aspartylglutamate (NAAG) administration in rat hippocampus

NAAG, an agonist at Group II metabotropic glutamate receptors and at the N‐methyl‐d ‐aspartate (NMDA)‐type of ionotropic glutamate receptor, was infused at 250 nmoles in 0.25 μL of saline into each cerebral ventricle of 12‐day‐old rat pups. Proportion of pycnotic neurons was determined in 100 × 200 μm areas of medial and lateral blades of DG, and in areas CA1, CA3a, b of both dorsal and ventral hippocampus. In some sections we used Fluoro‐JADE‐B staining to visualize degenerating neuronal cell bodies. There was a marked neurodegeneration, particularly in the medial blade of DG, at 24 h after the administration of NAAG but it was lower at the 4‐day time point. No significant damage was observed in 50‐day‐old rat. The results indicate that early postnatal administration of NAAG can cause serious loss of neurons in rat hippocampus. Acknowledgement: Supported by LNOOB122 MEYS CR.     

黄芪多糖对缺血性脑损伤大鼠的神经保护作用及其机制研究

目的:探究缺血性脑损伤后,黄芪多糖(AG)对海马CA1区神经元重塑中粘附分子(NCAM)以及c-fos表达的影响。方法:取Wistar雄性大鼠100只,随机分成假手术组(SOG)、模型组(MG-1d,3d,7d),低剂量黄芪多糖治疗组(L-AGTG-1d,3d,7d),高剂量黄芪多糖治疗组(H-AGTG-1d,3d,7d),每组10只。所有MG和AGTG组颈部切开阻断右侧大脑中动脉,造成缺血性脑损伤后,AGTG组腹腔注射AG(5 mg/kg和15 mg/kg)。于1 d,3 d和7 d分别脑血流再灌注,随即评分神经功能缺损情况后取材,测算神经元凋亡数,免疫组织化学法和RT-PCR法半定量分析检测海马CA1区神经元NCAM和c-fos的表达。结果:L-AGTG和H-AGTG的神经功能缺损评分和海马神经元凋亡数显著低于MG(P<0.05或P<0.01),海马CA1区NCAM和c-fos的表达显著高于MG(P<0.05或P<0.01)。结论:黄芪多糖改善缺血性脑损伤大鼠的神经功能,可能与促进海马NCAM和c-fos表达,而阻止或逆转海马神经元凋亡有关。     

Regional Distribution of Longevity Population and Elements in Drinking Water in Jiangjin District,Chongqing City,China

This study was carried out to determine the protective effects of lithium borate (LTB) on blood parameters and histopathological findings in experimentally induced acute cadmium (Cd) toxicity in rats. Twenty-eight male Wistar albino rats were used, weighing 200–220 g, and they were randomly divided into four groups, including one control and the following three experimental groups: a Cd group (0.025 mmol/kg), a LTB group (15 mg/kg/day orally for 5 days), and a LTB + Cd group (15 mg/kg/day orally for 5 days and Cd 0.025 mmol/kg by intraperitoneal injection on the fifth day). All the rats in the study were anesthetized with ketamine at the end of the sixth day, blood was taken from their hearts, and then the rats were decapitated. The values in the control and LTB group were usually close to each other. White blood cell (WBC), neutrophil %, and C-reactive protein (CRP) levels increased in the Cd and LTB + Cd groups while lymphocyte and monocyte levels decreased in a statistically significant manner, in comparison to the other groups. It was determined that the levels of red blood cells (RBCs), hematocrit (Htc), and hemoglobin (Hb) did not change in the groups. The levels of aspartate aminotransferase (AST) and alanine aminotransferase (ALT) in the Cd and LTB + Cd groups significantly increased, in comparison to the other groups, while the glucose, alkaline phosphatase (ALP), albumin (ALB), and total protein (TP) levels decreased. According to histopathological findings in the control and LTB groups, the liver and kidney tissues were found to have normal histological structures. In the Cd group, severe necrotic hemorrhagic hepatitis, mild steatosis, and mononuclear cell infiltration were detected in the liver. In the LTB + Cd group, degeneration and mild mononuclear cell infiltration were found in the liver. Regarding the kidney tissue in the Cd group, severe intertubular hyperemia in both kidney cortex and medulla, as well as degeneration and necrosis in the tubulus epithelium, was observed. In the LTB + Cd group, mild interstitial hyperemia and mononuclear cell infiltration was detected. Resultantly, it can be said that LTB at this dose has non-toxic effects and some beneficial effects for liver and kidney damage caused by acute Cd toxicity.     

Ergothioneine and melatonin attenuate oxidative stress and protect against learning and memory deficits in C57BL/6J mice treated with D-galactose

Abstract

Male C57BL/6J mice treated with D-galactose (DG) were used to examine the effects of ergothioneine (EGT), melatonin (MEL), or their combination (EGT+MEL) on learning and memory abilities. The mice were divided into five groups and injected subcutaneously with DG (0.3 mL of 1% DG/mouse) except for group 1 (normal controls). Group 3 was orally supplemented with EGT [0.5 mg/kg body weight (bw)], group 4 with MEL (10 mg/kg bw, p.o.), and group 5 with EGT+MEL. EGT and MEL were provided daily for 88 days, while DG was provided between days 7 to 56. Active avoidance task and Morris water-maze task were used to evaluate learning and memory abilities. DG treatment markedly increased escape latency and decreased the number of avoidance in the active avoidance test, whereas EGT and MEL alone significantly improved the performance. DG also impaired the learning and memory abilities in the water-maze task, and EGT and MEL alone also significantly improved the performance. EGT+MEL produced the strongest effects in both tasks. EGT and MEL alone markedly decreased β-amyloid protein accumulation in the hippocampus and significantly inhibited lipid peroxidation and maintained glutathione/glutathione disulfide ratio and superoxide dismutase activity in brain tissues of DG-treated mice. MEL alone completely prevented the rise in brain acetylcholine esterase activity induced by DG, whereas EGT and EGT+MEL were only partially effective. Overall, EGT, MEL, and, in particular, the combination of EGT and MEL effectively protect against learning and memory deficits in C57BL/6J mice treated with DG, possibly through attenuation of oxidative damage.     

利多卡因和硫喷妥钠对培养的大鼠海马脑片神经元损伤的影响

目的 :观察利多卡因和硫喷妥钠对生后 2 2d大鼠培养海马脑片的实验型缺血后神经元损伤的影响。方法 :将培养的SD大鼠海马脑片实验型缺血 (缺氧缺糖 ) 1 0min ,给药组在缺血前 1 0min给予 1 0nmol/L、1 0 0nmol/L的利多卡因或 2 50nmol/L、60 0nmol/L的硫喷妥钠 ,缺血后换用正常培养基继续培养 7d ,并用荧光染料PropidiumIo dide(PI)连续观察海马CA1区和齿状回神经元的损伤。结果 :缺血后第 1d缺血组即出现神经元损伤高峰 ,CA1区和齿状回的PI指数显著增加 (P <0 .0 1 ) ;直至缺血后第 7d其损伤指数仍显著高于缺血前水平 (P <0 .0 1 )。两浓度的利多卡因和硫喷妥钠均可降低缺血后CA1区和齿状回神经元损伤的程度 (P <0 .0 1 ) ,并可将CA1区和齿状回的神经元损伤高峰推迟至缺血后第 3d。结论 :利多卡因和硫喷妥可减轻缺血后海马CA1区和齿状回的神经元损伤 ,推迟神经元的损伤高峰。     

Electroconvulsive shock causes neuronal death in the mouse hippocampus: correlation of neurodegeneration and convulsive activity

Relations between seizures induced by repeated electroshock (ES) and structural changes in the hippocampus were investigated in Balb/C mice. Brain sections of the animals 2 or 7 days after the last ES were stained for Nissl or TUNEL (apoptotic nuclei). Direct measurement of caspase-3 activity (a key enzyme of apoptosis) in brain regions was performed immediately after the last ES. Statistically significant, albeit moderate cell loss was demonstrated in the CA1 field and dentate gyrus, but not in the CA3 field of the hippocampus. The number of neurons in these fields inversely correlated with seizure severity. No apoptotic nuclei could be revealed either in hippocampus or in other brain regions. Caspase-3 in the hippocampus decreased after ES. The data obtained support the results from other groups showing prominent functional changes in neurons induced by repeated ES and extend this concept directly testifying for a moderate (within 10%), albeit statistically significant neuronal death in selected hippocampal fields. The inverse correlation of cell number with severity of seizures suggest that these are seizures inducing neuronal death.     

Hippocampus and amygdala neurotoxicity produced by systemic lidocaine in adult rats

There is evidence that using lidocaine-treated cellular culture produces cell damage. However, there are no studies in vivo demonstrating the potential injurious effect of lidocaine on the central nervous system. Therefore, the aim of our study was to investigate if lidocaine is involved in neuronal damage in the CA3 hippocampus and amygdala regions when using a single subconvulsive or a convulsive lidocaine dose. Two-month-old male Wistar rats (57) were used. The animals were randomly assigned to one of three groups. Group I received 0.9% saline ip (n=9), group II received a single lidocaine dose of 60 mg/kg (n=18), and group III received 90 mg/kg ip (n=12). At day 2, 7, and 10 after the dosing, three to six rats per group were sacrificed. The brains of the rats were removed and were embedded in paraffin. Coronal cuts of 7 microm were made. Each brain section was stained with cresyl-eosin. We evaluated the number of normal and abnormal neurons in the hippocampal CA3 (pyramidal) and basolateral amygdala (large and medium neurons) regions in a 10,000 microm2 section. To explore an association between lidocaine-induced seizure and neuronal damage, diazepam was used (10 mg/kg ig) as an anticonvulsant two hours before a 90 mg/kg dose of lidocaine. Lidocaine causes a morphological neuronal alteration in the CA3 hippocampal region and the basolateral amygdala and possibly an inhibition-excitation imbalance. Diazepam prevents lidocaine-induced seizures, but not neuronal damage in brain structures. Interaction of lidocaine with the membrane components produces disrupted Ca+2 homeostasis and causes neuronal damage. Moreover, it is possible that lidocaine or its metabolites could actively participate in the neuronal damage observed.     

有氧运动联合螺旋藻多糖对糖尿病大鼠学习记忆能力的影响及其机制*

目的:研究有氧运动联合螺旋藻多糖对糖尿病大鼠学习记忆能力及对海马脑组织p75^NTR信号相关蛋白的影响。方法:采用高糖高脂饮食喂养4周配合低剂量腹腔注射的方法复制Ⅱ型糖尿病大鼠实验模型。成模后随机分为:模型组(B组)、运动+糖尿病组(C组)、螺旋藻多糖+糖尿病组(D组)、运动+螺旋藻多糖+糖尿病组(E组),另设正常对照组(A组)。共5组,每组12只。C组和E组施加6周的有氧游泳训练,D组和E组给予螺旋藻多糖灌胃6周,A组不施加任何干预。用Morris水迷宫检测大鼠学习记忆能力;Tunel染色法检测神经元细胞凋亡情况;ELISA法检测BDNF含量,Western blot法检测p75^NTR和cleaved caspase-3蛋白表达,免疫组化法检测cleaved caspase-3表达变化。同时观察大鼠随机血糖、血胰岛素等指标的变化。结果:①与A组比较,B组不同时间点上的体重均显著降低(P＜0.01);与B组比较,C、D、E组在不同时间点上的体重差异均无统计学意义(P均＞0.05)。与A组比较,B组的血糖和胰岛素水平显著升高(P＜0.01);与B组比较,干预各组的血糖和胰岛素水平显著降低(P＜0.05或P＜0.01)。②与A组比较,B组寻找平台的逃避潜伏期明显延长(P＜0.01),目标象限时间和穿越平台次数显著减少(P＜0.01);与B组比较,各干预组逃避潜伏期均显著缩短(P＜0.05或P＜0.01),穿越平台次数均显著增加(P＜0.05或P＜0.01),其中以E组效果最好。③与B组比较,干预各组海马神经细胞凋亡减少,p75^NTR、cleaved caspase-3蛋白表达显著降低(P＜0.05或P＜0.01),BDNF含量明显增加(P＜0.05或P＜0.01)。其中以E组效果更为明显。结论:有氧运动与螺旋藻多糖能有效改善糖尿病大鼠学习记忆,其中以两者联合组的效果更为显著,其机制可能与其更好的调节p75^NTR信号相关蛋白的表达,一定程度抑制细胞凋亡,从而有效改善Ⅱ型糖尿病学习记忆,发挥神经保护作用有关。     

The relation of oxidative stress and apoptosis to histopathologic alterations in the lungs as a result of global cerebral ischemia

ABSTRACT

Heart attack and oxygen deficiency may cause necrosis in the brain and other tissues. We investigated the histopathological effects of nitric oxide (NO) on ischemia/reperfusion in lung and hippocampus using a rat brain bilateral occlusion ischemia model. Male rats were assigned to sham (SH), ischemic preconditioning (PC), global ischemia (GI) and ischemic reperfusion (IR) groups. Before ischemia was induced, blood was drawn to induce hypovolemic hypotension and for blood gas testing. After sacrifice, samples of hippocampus were harvested. Sections were examined using hematoxylin and eosin (H & E) staining and immunostaining using primary antibodies for GFAP, S100β, iNOS, eNOS and the TUNEL method. Following ischemia, we found evidence of gliosis induced oxidative stress and apoptosis in the hippocampus. No significant differences were detected between the SH and PC groups. In the GI and IR groups, apoptosis and necrosis were observed in the hippocampus. Lung sections were stained with H & E and Masson’s trichrome (MT) and immunostained for iNOS and eNOS. The TUNEL method was used to detect apoptosis. Interstitial edema, vascular congestion, intra-alveolar hemorrhage, perivascular edema, neutrophil infiltration and disruption of alveoli were observed after global ischemia and ischemic reperfusion. Inflammatory cells were detected in the connective tissue. The IR and GI groups exhibited significantly more apoptotic cells than the SH or PC groups. Free radicals, such as nitric oxide (NO), that appear following ischemia and reperfusion in the brain may also injure the lungs. Increased NO in both lung and brain tissue suggests that apoptosis in these organs can be induced by reactive nitrogen species.     

Tumor necrosis factor-alpha participates in apoptosis in the limbic system after myocardial infarction

This study was designed to determine the role of tumor necrosis factor-alpha (TNFα) in apoptosis observed in the myocardium and limbic system after myocardial ischemia. PEG sTNFRI, a recombinant, human, soluble p55 Type 1 TNF receptor (3 mg/kg) or vehicle (saline) was administered s.c. to male Sprague-Dawley rats on days 5, 3 and 1 before myocardial ischemia. The animals were then subjected, under anesthesia, to left anterior descending coronary artery occlusion for 40 min, followed by 15-min or 72-h reperfusion. Caspase-3 and -8 activities as well as terminal dUTP nick-end labelling-positive cells were examined in the myocardium (subendocardial and subepicardial regions), lateral (LA) and medial amygdala (MA) and hippocampus (CA1, CA3, dentate gyrus (DG)). After 15 min of reperfusion, the subendocardial and CA1 regions presented an increase in caspase-3 activity, whereas caspase-8 activity appeared to be augmented in the DG. PEG sTNFRI inhibited caspase-8 activation in the DG. After 72 h of reperfusion, plasma TNFα levels were reduced in the treated groups. The DG, CA1, CA3 and MA showed an increment of caspase-8 activity, which was reversed by PEG sTNFRI, except in the MA. Furthermore, caspase-3 activity was increased in the CA1, DG, LA and MA. These results indicate that TNFα contributes to apoptosis via activation of the extrinsic pathway in the limbic system after myocardial infarction, which is not the case in the myocardium.     

Production of Cloned Wuzhishan Miniature Pigs and Application for Alloxan Toxicity Test

Wuzhishan miniature pig is one of the four most important pig breeds in China and has many major economic characteristics. Herein, we successfully used SCNT to clone Wuzhishan miniature pig. First, ear fibroblasts were isolated from a 2-year-old female Wuzhishan miniature piglet to be used as the donor cell. Second, good-quality COCs were selected from ovaries obtained from pigs at a local slaughterhouse and cultured. Mature eggs with the first polar body and ear fibroblasts were applied SCNT. Lastly, we in total produced 12 piglets with 7 piglets surviving to adults. Next, we used these pigs to test alloxan toxicity and to build T I D diabetes type. We know that diabetes mellitus is a chronic heterogeneous metabolic disease characterized by a high blood glucose level and abnormal insulin secretion. In this study, T I D (type I diabetes) was experimentally induced in cloned Wuzhishan miniature pigs with alloxan. In brief, an intravenous injection of alloxan (group B: 170 mg/kg, n = 3) was administered to pigs weighing between 27 and 39 kg. Sterile saline was administered to control pigs (n = 3). We determined the glycometabolism related index, performed an intravenous glucose tolerance test, and carried out immunohistochemistry experiments. There were no significant differences in body weight, blood glucose, and serum insulin in all groups, before treatment. The level of blood glucose was significantly higher (P < 0.05) in group B (12.18 ± 0.70 mmol/L) than in the control (2.93 ± 0.39 mmol/L). By contrast, the level of serum insulin was lower in group B (5.641 ± 0.573 μIU/mL) than in the control (7.578 ± 0.539 μIU/mL). Histological studies by hematoxylin and eosin (H&E) revealed a loss of β-cells in the pancreas from pigs treated with 170 mg/kg alloxan. Immunolocalization studies showed a decrease in insulin reactivity in this treatment group as well. To conclude, our model holds promise in future studies of diabetes drug testing and islet xenotransplantation.