肺动脉高压动物模型研究进展

肺动脉高压(pulmonary arterial hypertension,PAH)是一种预后不良的严重疾病,其发病机制仍不清楚.现有的治疗手段不能治愈,只能减缓疾病的进程.动物模型是研究PAH的重要工具,在PAH病理生理机制研究和防治策略评估中发挥极其重要的作用.本文对经典PAH动物模型(缺氧和野百合碱模型)和PAH...     

基因敲除小鼠在疾病研究中的应用

人类疾病动物模型在揭示人类疾病的发生机制或建立治疗方法中具有极重要的作用。然而,许多疾病难以用人工诱发的方法制造动物模型,还有许多疾病在实验动物身上不发生,而难以通过自发或人工定向培育的方法获得动物模型。基因敲除技术的出现,为人类精确地研究基因与疾病的直接关系提供了可能,而且可以在个体发生的每个阶段中进行遗传功能的分析。综述了基因敲除小鼠模型在几种疾病研究中的研究与应用及其发展前景。     

阿尔茨海默病转基因小鼠的特点和应用

建立动物模型的目的是在实验动物身上复制人类疾病的模型,用于研究人类疾病的病因、发病、病理变化以及疾病的预防和治疗。目前尚无理想的阿尔茨海默病（Alzheimer’s disease,AD）动物模型,AD实验动物模型的滞后在很大程度上制约了AD治疗药物的筛选。随着AD病因和发病机制研究的不断深入,更完善的AD动物模型也在陆续出现。近年来出现的转基因动物模型属于AD的病因模型,但也不能完整复制出AD的所有特征。最大的缺憾在于缺乏神经原纤维缠结（neurofibrillary tangles,NFTs）和在某些转基因模型中（尤其是单转基因模型）无广泛的神经元丢失。虽然用免疫组化方法检测到tau蛋白,但从未发现成对螺旋纤丝（paired helical filaments,PHF）。     

Duchenne型肌营养不良症发病机制

Duchenne型肌营养不良症是我国常见的X连锁隐性遗传性肌病。目前广泛应用的动物模型是mdx小鼠,但其没有很好地模拟人类疾病特点。最近,Sacco等报导了一个新的小鼠模型mdx/mTRG2,它不仅有抗肌萎缩蛋白的缺陷,还有端粒酶的缺失,较好地模拟了人类疾病的症状。通过该模型,人们认识到抗肌萎缩蛋白的缺陷引起肌细胞退化,肌肉干细胞被激活对抗其退化,但干细胞的过度增殖又导致端粒长度下降,引起肌肉干细胞增殖能力的衰竭,最终产生了肌营养不良的表型。该模型使人们对Duchenne型肌营养不良症的发病机制有了进一步的理解,为其治疗提供了新的研究平台。     

肾纤维化动物模型特点与研究进展

肾纤维化为慢性肾病发展至终末期肾衰所必经的共同病理路径,病理改变包括肾间质纤维化和肾小球硬化。肾纤维化的理想动物模型对慢性肾病发病机制的研究及其治疗药物的研发等存在现实意义。目前,肾纤维化动物模型包括药物或毒物诱导、手术模型以及基因敲除等多种模型,不同动物模型肾功能、肾组织病理等方面各具特点,尚无法完全模拟人类慢性肾疾病,这提示慢性肾疾病发病的复杂性,对于其病理机制认识与防治具有重要意义。     

左心功能不全继发的肺动脉高压

左心功能不全继发的肺动脉高压是指左心功能不全所导致的肺静脉回流受阻及左室充盈压力升高继发的肺动脉高压,在美国Danapoint2008诊断分类中归为肺动脉高压的第二型,该型包括左心收缩、舒张功能不全及心脏瓣膜疾病相关的肺动脉高压。该病的发病率和死亡率高,而肺动脉高压的出现预示该病预后不佳。该病病理生理机制复杂,最重要的表现是肺循环压力被动性升高,以及肺血管的反应性收缩和重构。诊断有赖于病史,体征,心脏彩超,右心导管检测等辅助检查。该病的治疗重点在于治疗原发的左心疾病（比如治疗心衰和瓣膜置换手术）,目前没有证据支持特异性的抗肺动脉高压药物的有效性,但研究显示PDE-5抑制剂（如西地那非）是一种有治疗前景的药物,但其安全性和有效性还有待进一步前瞻性,随机对照试验评价。本文将对左心系统疾病相关的肺动脉高压的疾病定义,流行病学特点,病因,诊断,治疗等方面进行综述。     

他达那非治疗肺动脉高压进展

肺动脉高压是一类以小肺动脉血管重构为特征的恶性肺血管疾病,肺血管阻力进行性升高最终导致右心衰竭死亡。肺动脉高压的药物治疗主要针对前列环素、内皮素、一氧化氮三个靶点。他达那非(Tadalafil)是一种口服、长效、选择性5-型磷酸二酯酶抑制剂,增加环磷酸鸟苷(cGMP)浓度,通过一氧化氮途径起到治疗作用。PHIRST临床试验证实肺动脉高压患者每日一次口服他达那非40mg,能够提高6分钟步行距离,减少临床恶化。本文就他达那非治疗肺动脉高压研究新进展作一综述。     

两种高血压大鼠模型证候特征差异性的研究

目的探讨两种经典高血压实验动物模型的证候特征,以便更好地考察降压中药疗效及作用机理。方法选择自发性高血压大鼠和肾性高血压大鼠两种经典常用动物模型,从宏观表征和行为学的角度,对二者的证候特征及其差异性进行辨析比较。结果自发性高血压大鼠在14～18周龄,基本符合高血压中医辨证分型中肝火上炎证型的表现;两肾一夹型肾性高血压大鼠在术后4～8周,基本符合高血压中医辨证分型中阴虚阳亢证型的表现。结论两种高血压动物模型的中医证候特征不同,在进行降压中药的疗效评价和作用机理实验研究时,可以考虑有针对性地选用。     

遗传修饰猪模型在生物医学及农业领域研究进展及应用

猪在解剖结构、代谢、生理生化等特征方面比啮齿类动物更接近人类,因此在模拟某些人类疾病以及提供异种移植器官等方面具有其他动物不可替代的优势,是理想的人类疾病动物模型和异种器官的供体。另外,猪作为我国畜牧业最重要的物种之一,猪的品种改良、疫病防控以及动物福利等问题都与人民生活息息相关。本文主要介绍了遗传修饰猪模型在分子育种、人类疾病模型以及异种器官移植领域的研究进展及未来应用前景,希望增进相关领域研究人员对基因编辑等前沿技术的了解,理解遗传修饰猪模型在生命科学研究中的重要意义。     

非人灵长类糖尿病动物模型研究进展

糖尿病是继心血管疾病和肿瘤之后的另一种严重危害人类健康的重要慢性疾病,据世界卫生组织(WHO)报道,2009年全世界约有2.2亿糖尿病患者。对糖尿病发病机理的研究、预防和诊断、治疗药物的筛选和评价都需要合适的动物模型。在已报道的糖尿病动物模型中,非人灵长类动物糖尿病病程、病症与人类的糖尿病最为相似。该文从糖尿病动物模型的来源归纳了目前报道的主要的非人灵长类糖尿病模型,重点介绍了猕猴、食蟹猴和树鼩糖尿病模型及其特征,并对该领域的发展提出了一些思考。     

Reversal of MicroRNA Dysregulation in an Animal Model of Pulmonary Hypertension

Background

Animals models have played an important role in enhancing our understanding of the pathogenesis of pulmonary arterial hypertension (PAH). Dysregulation of the profile of microRNAs (miRNAs) has been demonstrated in human tissues from PAH patients and in animal models. In this study, we measured miRNA levels in the monocrotaline (MCT) rat model of PAH and examined whether blocking a specific dysregulated miRNA not previously reported in this model, attenuated PAH. We also evaluated changes in miRNA expression in lung specimens from MCT PAH rats overexpressing human prostacyclin synthase, which has been shown to attenuate MCT PAH.

Methods

Expression levels of a panel of miRNAs were measured in MCT-PAH rats as compared to naïve (saline) control rats. Subsequently, MCT PAH rats were injected with a specific inhibitor (antagomiR) for miR-223 (A223) or a nonspecific control oligonucleotide (A-control) 4 days after MCT administration, then weekly. Three weeks later, RV systolic pressure and RV mass were measured. Total RNA, isolated from the lungs, microdissected pulmonary arteries, and right ventricle, was reverse transcribed and real-time quantitative PCR was performed. MiRNA levels were also measured in RNA isolated from paraffin sections of MCT-PAH rats overexpressing prostacyclin synthase.

Results

MiRs 17, 21, and 223 were consistently upregulated, whereas miRs 126, 145, 150, 204, 424, and 503 were downregulated in MCT PAH as compared to vehicle control. A223 significantly reduced levels of miR-223 in PA and lungs of MCT PAH rats as compared to levels measured in A-control or control MCT PAH rats, but A223 did not attenuate MCT PAH. Right ventricular mass and right ventricular systolic pressure in rats treated with A223 were not different from values in A-control or MCT PAH rats. In contrast, analysis of total RNA from lung specimens of MCT PAH rats overexpressing human prostacyclin synthase (hPGIS) demonstrated reversal of MCT-induced upregulation of miRs 17, 21, and 223 and an increase in levels of miR-424 and miR-503. Reduction in bone morphogenetic receptor 2 (BMPR2) messenger (m)RNA expression was not altered by A223, whereas human prostacyclin synthase overexpression restored BMPR2 mRNA to levels in MCT PAH to levels measured in naive controls.

Conclusions

Inhibition of miR-223 did not attenuate MCT PAH, whereas human prostacyclin synthase overexpression restored miRNA levels in MCT PAH to levels detected in naïve rats. These data may establish a paradigm linking attenuation of PAH to restoration of BMPR2 signaling.     

A comparison of the predictive accuracy of three screening models for pulmonary arterial hypertension in systemic sclerosis

IntroductionThere is evidence that early screening for pulmonary arterial hypertension (PAH) in systemic sclerosis (SSc) improves outcomes. We compared the predictive accuracy of two recently published screening algorithms (DETECT 2013 and Australian Scleroderma Interest Group (ASIG) 2012) for SSc-associated PAH (SSc-PAH) with the commonly used European Society of Cardiology/European Respiratory Society (ESC/ERS 2009) guidelines.MethodsWe included 73 consecutive SSc patients with suspected PAH undergoing right heart catheterization (RHC). The three screening models were applied to each patient. For each model, contingency table analysis was used to determine sensitivity, specificity, and positive (PPV) and negative (NPV) predictive values for PAH. These properties were also evaluated in an ‘alternate scenario analysis’ in which the prevalence of PAH was set at 10%.ResultsRHC revealed PAH in 27 (36.9%) patients. DETECT and ASIG algorithms performed equally in predicting PAH with sensitivity and NPV of 100%. The ESC/ERS guidelines had sensitivity of 96.3% and NPV of only 91%, missing one case of PAH; these guidelines could not be applied to three patients who had absent tricuspid regurgitant (TR) jet. The ASIG algorithm had the highest specificity (54.5%). With PAH prevalence set at 10%, the NPV of the models was unchanged, but the PPV dropped to less than 20%.ConclusionsIn this cohort, the DETECT and ASIG algorithms out-perform the ESC/ERS guidelines, detecting all patients with PAH. The ESC/ERS guidelines have limitations in the absence of a TR jet. Ultimately, the choice of SSc-PAH screening algorithm will also depend on cost and ease of application.

Electronic supplementary material

The online version of this article (doi:10.1186/s13075-015-0517-5) contains supplementary material, which is available to authorized users.     

Genome editing methods in animal models

ABSTRACT

Genetically engineered animal models that reproduce human diseases are very important for the pathological study of various conditions. The development of the clustered regularly interspaced short palindromic repeats (CRISPR) system has enabled a faster and cheaper production of animal models compared with traditional gene-targeting methods using embryonic stem cells. Genome editing tools based on the CRISPR-Cas9 system are a breakthrough technology that allows the precise introduction of mutations at the target DNA sequences. In particular, this accelerated the creation of animal models, and greatly contributed to the research that utilized them. In this review, we introduce various strategies based on the CRISPR-Cas9 system for building animal models of human diseases and describe various in vivo delivery methods of CRISPR-Cas9 that are applied to disease models for therapeutic purposes. In addition, we summarize the currently available animal models of human diseases that were generated using the CRISPR-Cas9 system and discuss future directions.     

Stem cells in animal asthma models: a systematic review

Background aimsAsthma control frequently falls short of the goals set in international guidelines. Treatment options for patients with poorly controlled asthma despite inhaled corticosteroids and long-acting β-agonists are limited, and new therapeutic options are needed. Stem cell therapy is promising for a variety of disorders but there has been no human clinical trial of stem cell therapy for asthma. We aimed to systematically review the literature regarding the potential benefits of stem cell therapy in animal models of asthma to determine whether a human trial is warranted.MethodsThe MEDLINE and Embase databases were searched for original studies of stem cell therapy in animal asthma models.ResultsNineteen studies were selected. They were found to be heterogeneous in their design. Mesenchymal stromal cells were used before sensitization with an allergen, before challenge with the allergen and after challenge, most frequently with ovalbumin, and mainly in BALB/c mice. Stem cell therapy resulted in a reduction of bronchoalveolar lavage fluid inflammation and eosinophilia as well as Th2 cytokines such as interleukin-4 and interleukin-5. Improvement in histopathology such as peribronchial and perivascular inflammation, epithelial thickness, goblet cell hyperplasia and smooth muscle layer thickening was universal. Several studies showed a reduction in airway hyper-responsiveness.ConclusionsStem cell therapy decreases eosinophilic and Th2 inflammation and is effective in several phases of the allergic response in animal asthma models. Further study is warranted, up to human clinical trials.     

The monocrotaline model of pulmonary hypertension in perspective

Severe forms of pulmonary arterial hypertension (PAH) are characterized by various degrees of remodeling of the pulmonary arterial vessels, which increases the pulmonary vascular resistance and right ventricular afterload, thus contributing to the development of right ventricle dysfunction and failure. Recent years have seen advances in the understanding of the pathobiology of PAH; however, many important questions remain unanswered. Elucidating the pathobiology of PAH continues to be critical to design new effective therapeutic strategies, and appropriate animal models of PAH are necessary to achieve the task. Although the monocrotaline rat model of PAH has contributed to a better understanding of vascular remodeling in pulmonary hypertension, we question the validity of this model as a preclinically relevant model of severe plexogenic PAH. Here we review pertinent publications that either have been forgotten or ignored, and we reexamine the monocrotaline model in the context of human forms of PAH.     

Introductory Lecture: Genetic Approaches to CNS Disorders with Particular

Abstract

The tools of molecular biology will bring the field of human genetics into a new era by permitting the analysis of the genetic contribution to disease. Most single gene disorders, inherited in a Mendelian fashion, will be molecularly diagnosed. In addition, the genetic susceptibility of common, complex diseases such a schizophrenia can be clarified, even though the conditions are not inherited as Mendelian characteristics. The mapping of the human genome will increase the rate at which new disease genes are identified and isolated. Finally, the development of genetically engineered animal models will help to dissect the steps involved in physiological and pathophysiological processes and thereby enhance our understanding of complex biological systems.     

Hemodynamics and right-ventricle functional characteristics of a swine carotid artery-jugular vein shunt model of pulmonary arterial hypertension: An 18-month experimental study

The continuous changes in pulmonary hemodynamic properties and right ventricular (RV) function in pulmonary arterial hypertension (PAH) have not been fully characterized in large animal model of PAH induced by a carotid artery–jugular vein shunt. A minipig model of PAH was induced by a surgical anastomosis between the left common carotid artery and the left jugular vein. The model was validated by catheter examination and pathologic analyses, and the hemodynamic features and right-ventricle functional characteristics of the model were continuously observed by Doppler echocardiography. Of the 45 minipigs who received the surgery, 27 survived and were validated as models of PAH, reflected by mean pulmonary artery pressure ≥25 mmHg, and typical pathologic changes of pulmonary arterial remodeling and RV fibrosis. Non-invasive indices of pulmonary hemodynamics (pulmonary artery accelerating time and its ratio to RV ventricular ejection time) were temporarily increased, then reduced later, similar to changes in tricuspid annular displacement. The Tei index of the RV was elevated, indicating a progressive impairment in RV function. Surgical anastomosis between carotid artery and jugular vein in a minipig is effective to establish PAH, and non-invasive hemodynamic and right-ventricle functional indices measured by Doppler echocardiography may be used as early indicators of PAH.