神经肽对小鼠急性脑缺血保护作用的研究

结扎小鼠一侧颈总动脉,建立急性脑缺血动物模型。术前腹腔给予人胚胎脑组织提取的生物活性多肽类物质神经肽,术后一小时测定脑组织中乳酸脱氢酶（ＬＤＨ）活性,同时进行组织学和超微结构观察。结果显示给药组小鼠脑组织ＬＤＨ活性明显高于未给药组,给药组小鼠脑组织脱水不明显,神经细胞中无明显空泡,细胞内超微结构改变较未给药组轻。本研究说明种经肽对脑组织急性缺血具有保护作用。     

Homer1a基因敲除对小鼠局灶性脑缺血再灌注损伤的作用

目的:通过研究homer1a基因敲除小鼠脑缺血再灌注损伤及海马区星形胶质细胞活化、数目形态变化,探讨homer1a基因在脑缺血损伤中的作用及机制。方法:取雄性homer1a基因敲除(Knock Out,KO)小鼠及同窝野生型(Wild Type,WT)小鼠各15只,分为基因敲除假手术组(Sham Knock Out,SKO,n=3)、基因敲除型缺血2 h再灌注24 h组(Model Knock Out,MKO,n=12)、野生型假手术组(Sham Wild Type,SWT,n=3)及野生型缺血2 h再灌24h组(Model Wild Type,MWT,n=12)。线栓法闭塞小鼠大脑中动脉制作脑缺血再灌注损伤模型(middle cerebral artery occlusion and reperfusion,MCAO/R),在缺血再灌注损伤前(0 h)及缺血再灌注后3 h、6 h、12 h、24 h后进行改良版神经损伤严重性评分(modified Neurological severity scores,m NSS)、2,3,5—氯化三苯基四氮唑(2,3,5triphenyltetrazolium chloride,TTC)染色、苏木素—伊红染色(Hematoxylin-eosin staining,HE)、原位末端转移酶标记技术(terminal deoxynucleotidyl transferase(Td T)-mediated deoxyuridine triphosphate(d UTP)nick end labeling,TUNEL)检测及免疫荧光染色观察海马区星形胶质细胞神经纤维酸性蛋白(Glial Fibrillary Acidic Protein,GFAP)改变。结果:SKO组、SWT组行为学m NSS评分均为0分,TTC染色未见梗死灶。TUNLE及GFAP染色阳性细胞数很少且未见统计学差异(P0.05)。脑缺血再灌注24 h后,MKO组m NSS评分较MWT组高;TTC染色MKO组较MWT组梗死百分比高;MKO组较MWT组TUNEL凋亡率高;GFAP免疫荧光染色阳性数MKO组少于MWT组,且均有统计学差异(P0.05)。结论:homer1a基因敲除加重了小鼠脑缺血再灌注损伤,星形胶质细胞可能参与并发挥复杂作用。     

Reduction of Brain Infarction Induced by a Transient Brain Ischemia in mdr1a Knockout Mice

In order to evaluate the functional role of P-glycoprotein (P-gp) in cerebral ischemia, both multidrug resistance 1a knockout (KO) mice and wild-type mice were subjected to transient focal ischemia under a constant body and brain temperature about 37°C. The results showed that the volume of brain infarction induced by middle cerebral artery occlusion in KO mice was significantly smaller than that seen in wild-type mice, although there were no significant differences in cerebral blood flow, physiological data and on anatomical analysis of cerebrovasculature between both groups. We suggest that multidrug resistance 1a P-gp plays a role for adjusting the expressions of endogenous neuronal cell modulating substances, such as cytokines, neuronal peptides, and others, in the brain, which is consistent with a previous paper (Bobrov et al. Neurosci Lett 24: 6–11, 2008).     

Temperature-Dependent Galleria mellonella Mortality as a Result of Yersinia entomophaga Infection

The bacterium Yersinia entomophaga is pathogenic to a range of insect species, with death typically occurring within 2 to 5 days of ingestion. Per os challenge of larvae of the greater wax moth (Galleria mellonella) confirmed that Y. entomophaga was virulent when fed to larvae held at 25°C but was avirulent when fed to larvae maintained at 37°C. At 25°C, a dose of ∼4 × 10⁷ CFU per larva of a Y. entomophaga toxin complex (Yen-TC) deletion derivative, the Y. entomophaga ΔTC variant, resulted in 27% mortality. This low level of activity was restored to near-wild-type levels by augmentation of the diet with a sublethal dose of purified Yen-TC. Intrahemocoelic injection of ∼3 Y. entomophaga or Y. entomophaga ΔTC cells per larva gave a 4-day median lethal dose, with similar levels of mortality observed at both 25 and 37°C. Following intrahemocoelic injection of a Yen-TC YenA1 green fluorescent protein fusion strain into larvae maintained at 25°C, the bacteria did not fluoresce until the population density reached 2 × 10⁷ CFU ml⁻¹ of hemolymph. The observed cells also took an irregular form. When the larvae were maintained at 37°C, the cells were small and the observed fluorescence was sporadic and weak, being more consistent at a population density of ∼3 × 10⁹ CFU ml⁻¹ of hemolymph. These findings provide further understanding of the pathobiology of Y. entomophaga in insects, showing that the bacterium gains direct access to the hemocoelic cavity, from where it rapidly multiplies to cause disease.     

Generation of Fgfr3 Conditional Knockout Mice

Fibroblast growth factor receptor 3 (FGFR3), highly conserved in both humans and murine, is one of key tyrosine kinase receptors for FGF. FGFR3 is expressed in different tissues, including cartilage, brain, kidney, and intestine at different development stages. Conventional knockout of Fgfr3 alleles leads to short life span, and overgrowth of bone. In clinic, human FGFR3 mutations are responsible for three different types of chondrodysplasia syndromes including achondroplasia (ACH), hypochondroplasia (HCH) and thanatophoric dysplasia (TD). For better understanding of the roles of FGFR3 in different tissues at different stages of development and in pathological conditions, we generated Fgfr3 conditional knockout mice in which loxp sites flank exons 9-10 in the Fgfr3 allele. We also demonstrated that Cre-mediated recombination using Col2a1-Cre, a Cre line expressed in chondrocyte during bone development, results in specific deletion of the gene in tissues containing cartilage. This animal model will be useful to study distinct roles of FGFR3 in different tissues at different ages.     

基因剔除小鼠研究的新进展

基因剔除小鼠是活体内研究基因及蛋白质功能的理想动物模型。传统的基因剔除技术存在表型分析复杂、周期长、操作繁杂等缺点,如何更科学、更方便地建立基因剔除小鼠模型成为目前使该技术更好地应用于医学研究的关键。本文从胚胎干细胞（ES细胞）的遗传背景、组织特异性基因表达基因剔除小鼠及基因剔除技术上的革新几方面介绍了目前基因剔除小鼠研究的一些最新进展。     

Grx-1基因敲除鼠的繁殖及子代基因型鉴定

目的探讨glutaredoxin-1(Grx-1)基因敲除小鼠的优化繁殖及子代鼠的鉴定方法,为进一步研究Grx-1在支气管肺发育不良(BPD)中的作用奠定基础。方法将从美国哈佛医学院引进的纯合子Grx-1基因敲除小鼠与野生型小鼠进行交配后得到的子一代小鼠同代间相互交配,繁殖出的子二代中将出现纯合子、杂合子以及野生型3种基因型。从出生起观察其生长发育情况,2周龄时剪尾提取基因组DNA,用PCR方法扩增目的基因片段,琼脂糖凝胶电泳结果判定基因型。结果 Grx-1纯合子小鼠的饲养繁殖取得成功,获得了一批Grx-1基因敲除纯合子小鼠。结论正确的饲养繁殖以及鉴定方法是获得Grx-1基因敲除纯合子小鼠的有效途径,为相关研究提供动物实验模型奠定了基础。     

Photothrombosis-induced Focal Ischemia as a Model of Spinal Cord Injury in Mice

Spinal cord injury (SCI) is a devastating clinical condition causing permanent changes in sensorimotor and autonomic functions of the spinal cord (SC) below the site of injury. The secondary ischemia that develops following the initial mechanical insult is a serious complication of the SCI and severely impairs the function and viability of surviving neuronal and non-neuronal cells in the SC. In addition, ischemia is also responsible for the growth of lesion during chronic phase of injury and interferes with the cellular repair and healing processes. Thus there is a need to develop a spinal cord ischemia model for studying the mechanisms of ischemia-induced pathology. Focal ischemia induced by photothrombosis (PT) is a minimally invasive and very well established procedure used to investigate the pathology of ischemia-induced cell death in the brain. Here, we describe the use of PT to induce an ischemic lesion in the spinal cord of mice. Following retro-orbital sinus injection of Rose Bengal, the posterior spinal vein and other capillaries on the dorsal surface of SC were irradiated with a green light resulting in the formation of a thrombus and thus ischemia in the affected region. Results from histology and immunochemistry studies show that PT-induced ischemia caused spinal cord infarction, loss of neurons and reactive gliosis. Using this technique a highly reproducible and relatively easy model of SCI in mice can be achieved that would serve the purpose of scientific investigations into the mechanisms of ischemia induced cell death as well as the efficacy of neuroprotective drugs. This model will also allow exploration of the pathological changes that occur following SCI in live mice like axonal degeneration and regeneration, neuronal and astrocytic Ca²⁺ signaling using two-photon microscopy.     

肝脏特异性CD36基因敲除小鼠的制备及鉴定

目的:运用Cre/Loxp重组酶系统构建肝脏特异性CD36基因敲除小鼠并进行鉴定和验证,为研究CD36的生物学功能奠定基础。方法:构建CD36打靶载体,电转转染胚胎干细胞,通过长链PCR筛选出正确同源重组的阳性克隆,阳性胚胎干细胞克隆经扩增后,注射入C57BL/6J小鼠的囊胚中,获得嵌合小鼠,再与Flp小鼠交配筛选获得Flox杂合子小鼠,该小鼠与引进的Alb-Cre小鼠交配,在F3代获得CD36fl/fl:Alb-Cre+基因型小鼠,即为肝脏特异性CD36敲除小鼠。采用PCR鉴定小鼠基因型,PCR、实时荧光定量PCR和Western blot验证小鼠肝脏CD36敲除效果,Western blot检测小鼠肾脏、脂肪和心肌组织CD36表达情况,HE染色观察小鼠肝脏形态学改变。结果:建立了CD36基因的Flox杂合子小鼠,与Alb-Cre小鼠交配后,在F3代筛选出CD36fl/fl:AlbCre-和CD36fl/fl:Alb-Cre+基因型小鼠,DNA水平证实CD36fl/fl:Alb-Cre+基因型小鼠肝脏CD36基因通过Cre/Loxp重组酶系统被敲除。与CD36fl/fl:Alb-Cre-基因型小鼠相比,CD36fl/fl:Alb-Cre+基因型小鼠肝脏CD36mRNA和蛋白表达水平显著降低,肾脏、脂肪和心肌组织CD36蛋白表达无差别,肝脏形态学特征无明显差异。结论:通过Cre/Loxp重组酶系统成功构建了肝脏特异性CD36基因敲除小鼠,为研究CD36在肝脏代谢和肝脏疾病中的功能提供了动物模型。     

Defects in Ultrasonic Vocalization of Cadherin-6 Knockout Mice

Background

Although some molecules have been identified as responsible for human language disorders, there is still little information about what molecular mechanisms establish the faculty of human language. Since mice, like songbirds, produce complex ultrasonic vocalizations for intraspecific communication in several social contexts, they can be good mammalian models for studying the molecular basis of human language. Having found that cadherins are involved in the vocal development of the Bengalese finch, a songbird, we expected cadherins to also be involved in mouse vocalizations.

Methodology/Principal Findings

To examine whether similar molecular mechanisms underlie the vocalizations of songbirds and mammals, we categorized behavioral deficits including vocalization in cadherin-6 knockout mice. Comparing the ultrasonic vocalizations of cadherin-6 knockout mice with those of wild-type controls, we found that the peak frequency and variations of syllables were differed between the mutant and wild–type mice in both pup-isolation and adult-courtship contexts. Vocalizations during male-male aggression behavior, in contrast, did not differ between mutant and wild–type mice. Open-field tests revealed differences in locomotors activity in both heterozygote and homozygote animals and no difference in anxiety behavior.

Conclusions/Significance

Our results suggest that cadherin-6 plays essential roles in locomotor activity and ultrasonic vocalization. These findings also support the idea that different species share some of the molecular mechanisms underlying vocal behavior.     

基于Loxp-Cre系统的FBXL15基因敲除小鼠模型的建立

建立FBXL15基因条件型敲除小鼠模型,为研究该基因所发挥的重要生理功能提供材料和思路。采用KO first策略,构建打靶载体,将1st loxP插入1~2号内含子,在3~4号内含子之间插入FRT-SAIRES-lacZ-loxP-neo-loxP元件,通过Long Range PCR及Southern blot筛选出中靶克隆,随后进行囊胚注射,并将发生同源重组的ES细胞注射进C57BL/6J小鼠囊胚,移入受体小鼠子宫,最后将得到的嵌合体雄鼠与C57BL/6J雌鼠交配获得FBXL15-LoxP小鼠。PCR结果显示FBXL15的Loxp小鼠模型构建成功,该模型可为进一步研究FBXL15在胚胎发育和骨代谢中的调控作用提供工具。     

Effects of Desmin Gene Knockout on Mice Heart Mitochondria

In heart tissue from mice lacking the intermediate filament (IF) desmin, mitochondria show an abnormal shape and distribution (Thornell et al., 1997). In the present study we have isolated heart mitochondria from desmin null (D–/–) and control (D+/+) mice, and analyzed their composition by SDS–PAGE, immunoblotting, and enzyme measurements. We found both in vitro and in situ that the conventional kinesin, the microtubule-associated plus-end directed motor, was frequently associated with D+/+ heart mitochondria, but not with D–/– heart mitochondria, suggesting that the positioning of mitochondria in heart is a dynamic event involving the IF desmin, the molecular motor kinesin, and, most likely, the microtubules (MT) network. Furthermore, an increased capacity in energy production was found, as indicated by a threefold higher creatine kinase activity in heart mitochondria from D–/– compared to D+/+ mice. We also observed a significantly lower amount of cytochrome c in heart mitochondria from D–/– mice, and a relocalization of Bcl-2, which may indicate an apoptotic condition in the cell leading to the earlier reported pathological events, such as cardiomyocytes degeneration and calcinosis of the heart (Thornell et al., 1997).     

Fmr1基因敲除小鼠脏器重量和脏器系数的比较分析

目的通过对Fmr1基因敲除小鼠雌雄两性和FVB小鼠的脏器重量和脏器系数进行比较分析,了解其脏器重量的差异,探讨Fmr1基因对动物生长发育等方面的影响。方法分别测定Fmr1基因敲除小鼠雌雄两性和FVB小鼠内脏器官的绝对重量和脏器系数,并进行统计学处理和分析。结果相同年龄的Fmr1基因敲除小鼠雄性的体重、心、肺、肝和肾的绝对重量均极显著的大于雌性（P〈0.01）。雌雄间脏器系数除肾脏（P〈0.05）和脑（P〈0.01）外,其余无显著差异。与FVB小鼠比较,Fmr1基因敲除小鼠心脏较轻（P〈0.01）,肾脏（P〈0.01）、体重和脑较重（P〈0.05）。脏器系数肾脏较大（P〈0.01）,心脏（P〈0.01）、脑和脾（P〈0.05）较小。结论Fmr1基因可影响动物的某些脏器重量和脏器系数。     

条件性基因敲除:骨髓细胞特异性敲除Ncol2基因小鼠的建立和基因型鉴定

Ncol2是新发现的参与免疫调节的重要因子,Ncol2基因骨髓细胞特异性敲除小鼠的建立,能够有针对性的研究Ncol2基因缺失后对免疫系统的影响。根据条件性基因敲除的原理,本文利用loxp转基因小鼠和在骨髓细胞特异性表达Cre重组酶的LysMcre小鼠,繁殖建立了骨髓细胞特异性敲除Ncol2基因的小鼠,并提供了用鼠尾做基因型鉴定的简便方法。     

Smad3基因剔除小鼠的繁殖与基因型鉴定

目的为进一步深入研究Smad3基因在脊椎动物发育中的重要作用,对Smad3基因剔除小鼠进行保种和繁育研究.方法采用基因剔除杂合子小鼠进行保种,通过PCR和Southern杂交对杂合子小鼠交配所产生的后代进行基因型鉴定,纯合子小鼠和野生型小鼠用于表型分析,杂合子小鼠用于留种和繁殖生产.结果采用PCR方法对278只子代小鼠进行了基因型鉴定,83只为野生型,133只为杂合子,62只为纯合子.结论Smad3基因剔除突变能稳定遗传.采用杂合子小鼠保种,子代小鼠三种基因型比例符合孟德尔遗传定律.     

Characterization of Heterogeneous Prostate Tumors in Targeted Pten Knockout Mice

Previously, we generated a preclinical mouse prostate tumor model based on PSA-Cre driven inactivation of Pten. In this model homogeneous hyperplastic prostates (4-5m) developed at older age (>10m) into tumors. Here, we describe the molecular and histological characterization of the tumors in order to better understand the processes that are associated with prostate tumorigenesis in this targeted mouse Pten knockout model. The morphologies of the tumors that developed were very heterogeneous. Different histopathological growth patterns could be identified, including intraductal carcinoma (IDC), adenocarcinoma and undifferentiated carcinoma, all strongly positive for the epithelial cell marker Cytokeratin (CK), and carcinosarcomas, which were negative for CK. IDC pattern was already detected in prostates of 7–8 month old mice, indicating that it could be a precursor stage. At more than 10 months IDC and carcinosarcoma were most frequently observed. Gene expression profiling discriminated essentially two molecular subtypes, denoted tumor class 1 (TC1) and tumor class 2 (TC2). TC1 tumors were characterized by high expression of epithelial markers like Cytokeratin 8 and E-Cadherin whereas TC2 tumors showed high expression of mesenchyme/stroma markers such as Snail and Fibronectin. These molecular subtypes corresponded with histological growth patterns: where TC1 tumors mainly represented adenocarcinoma / intraductal carcinoma, in TC2 tumors carcinosarcoma was the dominant growth pattern. Further molecular characterization of the prostate tumors revealed an increased expression of genes associated with the inflammatory response. Moreover, functional markers for senescence, proliferation, angiogenesis and apoptosis were higher expressed in tumors compared to hyperplasia. The highest expression of proliferation and angiogenesis markers was detected in TC2 tumors. Our data clearly showed that in the genetically well-defined PSA-Cre;Pten-loxP/loxP prostate tumor model, histopathological, molecular and biological heterogeneity occurred during later stages of tumor development.     

PD-L1基因敲除小鼠构建及初步表型验证

目的 程序性死亡配体-1(PD-L1)是免疫调节途径的重要因子,是抗肿瘤免疫疗法中重要的靶标之一。利用CRISPR/Cas9技术成功构建PD-L1基因敲除小鼠模型,并初步分析其表型。方法 构建Cas9和sgRNA载体,并转录获得RNA,通过显微注射方式将RNA注射到C57BL/6小鼠受精卵中,经过鉴定获得F₀代阳性小鼠。F₀代小鼠与野生型C57BL/6小鼠交配获得F₁代杂合子小鼠,再通过F₁代小鼠自交获得F₂代纯合子小鼠品系。随后通过Real-Time PCR和流式实验分别检测PD-L1基因在mRNA和蛋白质水平上的表达情况。结果 Real-Time PCR和流式实验检测结果显示与野生型C57小鼠相比,PD-L1纯合子小鼠的PD-L1 mRNA相对表达水平和细胞上的蛋白质表达均有显著性下降,仅测定到本底的信号,证实已成功构建PD-L1基因敲除小鼠品系,为PD-L1体内基因功能研究提供了新的小鼠模型。     

Behavioral and Electrophysiological Characterization of Dyt1 Heterozygous Knockout Mice

DYT1 dystonia is an inherited movement disorder caused by mutations in DYT1 (TOR1A), which codes for torsinA. Most of the patients have a trinucleotide deletion (ΔGAG) corresponding to a glutamic acid in the C-terminal region (torsinA^ΔE). Dyt1 ΔGAG heterozygous knock-in (KI) mice, which mimic ΔGAG mutation in the endogenous gene, exhibit motor deficits and deceased frequency of spontaneous excitatory post-synaptic currents (sEPSCs) and normal theta-burst-induced long-term potentiation (LTP) in the hippocampal CA1 region. Although Dyt1 KI mice show decreased hippocampal torsinA levels, it is not clear whether the decreased torsinA level itself affects the synaptic plasticity or torsinA^ΔE does it. To analyze the effect of partial torsinA loss on motor behaviors and synaptic transmission, Dyt1 heterozygous knock-out (KO) mice were examined as a model of a frame-shift DYT1 mutation in patients. Consistent with Dyt1 KI mice, Dyt1 heterozygous KO mice showed motor deficits in the beam-walking test. Dyt1 heterozygous KO mice showed decreased hippocampal torsinA levels lower than those in Dyt1 KI mice. Reduced sEPSCs and normal miniature excitatory post-synaptic currents (mEPSCs) were also observed in the acute hippocampal brain slices from Dyt1 heterozygous KO mice, suggesting that the partial loss of torsinA function in Dyt1 KI mice causes action potential-dependent neurotransmitter release deficits. On the other hand, Dyt1 heterozygous KO mice showed enhanced hippocampal LTP, normal input-output relations and paired pulse ratios in the extracellular field recordings. The results suggest that maintaining an appropriate torsinA level is important to sustain normal motor performance, synaptic transmission and plasticity. Developing therapeutics to restore a normal torsinA level may help to prevent and treat the symptoms in DYT1 dystonia.     

Localization of Butyrylcholinesterase at the Neuromuscular Junction of Normal and Acetylcholinesterase Knockout Mice

At the mouse neuromuscular junction (NMJ), there are two distinct cholinesterases (ChE): acetylcholinesterase (AChE) and butyrylcholinesterase (BChE). Until now, it has been difficult to determine the precise localization of BChE at the NMJ. In this study, we use a modification of Koelle''s method to stain AChE and BChE activity. This method does not interfere with fluorescent co-staining, which allows precise co-localization of ChE and other synaptic molecules at the NMJ. We demonstrate that AChE and BChE exhibit different localization patterns at the mouse NMJ. AChE activity is present both in the primary cleft and in the secondary folds, whereas BChE activity appears to be almost absent in the primary cleft and to be concentrated in subsynaptic folds. The same localization for BChE is observed in the AChE-knockout (KO) mouse NMJ. Collagenase treatment removed AChE from the primary cleft, but not from secondary folds in the wild-type mouse, whereas in the AChE-KO mouse, BChE remains in the secondary folds. After peripheral nerve injury and regeneration, BChE localization is not modified in either normal or KO mice. In conclusion, specific localization of BChE in the secondary folds of the NMJ suggests that this enzyme is not a strict surrogate of AChE and that the two enzymes have two different roles. (J Histochem Cytochem 58:1075–1082, 2010)