Detection of Neuritic Plaques in Alzheimer's Disease Mouse Model

Alzheimer''s disease (AD) is the most common neurodegenerative disorder leading to dementia. Neuritic plaque formation is one of the pathological hallmarks of Alzheimer''s disease. The central component of neuritic plaques is a small filamentous protein called amyloid β protein (Aβ)¹, which is derived from sequential proteolytic cleavage of the beta-amyloid precursor protein (APP) by β-secretase and γ-secretase. The amyloid hypothesis entails that Aγ-containing plaques as the underlying toxic mechanism in AD pathology². The postmortem analysis of the presence of neuritic plaque confirms the diagnosis of AD. To further our understanding of Aγ neurobiology in AD pathogenesis, various mouse strains expressing AD-related mutations in the human APP genes were generated. Depending on the severity of the disease, these mice will develop neuritic plaques at different ages. These mice serve as invaluable tools for studying the pathogenesis and drug development that could affect the APP processing pathway and neuritic plaque formation. In this protocol, we employ an immunohistochemical method for specific detection of neuritic plaques in AD model mice. We will specifically discuss the preparation from extracting the half brain, paraformaldehyde fixation, cryosectioning, and two methods to detect neurotic plaques in AD transgenic mice: immunohistochemical detection using the ABC and DAB method and fluorescent detection using thiofalvin S staining method.     

Deficiency of Smad7 Enhances Cardiac Remodeling Induced by Angiotensin II Infusion in a Mouse Model of Hypertension

Smad7 has been shown to negatively regulate fibrosis and inflammation, but its role in angiotensin II (Ang II)-induced hypertensive cardiac remodeling remains unknown. Therefore, the present study investigated the role of Smad7 in hypertensive cardiopathy induced by angiotensin II infusion. Hypertensive cardiac disease was induced in Smad7 gene knockout (KO) and wild-type (WT) mice by subcutaneous infusion of Ang II (1.46 mg/kg/day) for 28 days. Although equal levels of high blood pressure were developed in both Smad7 KO and WT mice, Smad7 KO mice developed more severe cardiac injury as demonstrated by impairing cardiac function including a significant increase in left ventricular (LV) mass (P<0.01),reduction of LV ejection fraction(P<0.001) and fractional shortening(P<0.001). Real-time PCR, Western blot and immunohistochemistry detected that deletion of Smad7 significantly enhanced Ang II-induced cardiac fibrosis and inflammation, including upregulation of collagen I, α-SMA, interleukin-1β, TNF-α, and infiltration of CD3⁺ T cells and F4/80⁺ macrophages. Further studies revealed that enhanced activation of the Sp1-TGFβ/Smad3-NF-κB pathways and downregulation of miR-29 were mechanisms though which deletion of Smad7 promoted Ang II-mediated cardiac remodeling. In conclusions, Smad7 plays a protective role in AngII-mediated cardiac remodeling via mechanisms involving the Sp1-TGF-β/Smad3-NF.κB-miR-29 regulatory network.     

Aβ在APP／PS1双转基因与APP／PS1／Tau三转基因阿尔茨海默病模型小鼠脑海马区分布的比较研究

目的：比较研究Aβ免疫阳性产物在老年APP／PSI双转基因（2xTg）与APP／PSI／Tau三转基因（3xTg）阿尔茨海默病模型小鼠海马的分布。方法：采用15月龄2xTg与同龄3xTg,分别进行Aβ单克隆抗体6E10免疫组化检测AB阳性神经元及斑块。结果：在海马区2xTg组Aβ沉积多发生于细胞外,形成大量Aβ阳性斑,而3xTg组则主要沉积于细胞内。结论：这种Aβ分布的差异可能与3xTg模型早期即有神经元丢失有关。     

Aβ在APP/PS1双转基因与APP/PSl/Tau三转基因阿尔茨海默病模型小鼠脑海马区分布的比较研究

目的:比较研究Aβ免疫阳性产物在老年APP/PSl双转基因(2xTg)与APP/PSl/Tau三转基因(3xTg)阿尔茨海默病模型小鼠海马的分布。方法:采用15月龄2xTg与同龄3xTg,分别进行Aβ单克隆抗体6E10免疫组化检测Aβ阳性神经元及斑块。结果:在海马区2xTg组Aβ沉积多发生于细胞外,形成大量Aβ阳性斑,而3xTg组则主要沉积于细胞内。结论:这种Aβ分布的差异可能与3xTg模型早期即有神经元丢失有关。     

Loss of P2Y2 Nucleotide Receptors Enhances Early Pathology in the TgCRND8 Mouse Model of Alzheimer's Disease

Neuroinflammation is a prominent feature in Alzheimer's disease (AD) and activation of the brain's innate immune system, particularly microglia, has been postulated to both retard and accelerate AD progression. Recent studies indicate that the G protein-coupled P2Y₂ nucleotide receptor (P2Y₂R) is an important regulator of innate immunity by assisting in the recruitment of monocytes to injured tissue, neutrophils to bacterial infections and eosinophils to allergen-infected lungs. In this study, we investigated the role of the P2Y₂R in progression of an AD-like phenotype in the TgCRND8 mouse model that expresses Swedish and Indiana mutations in amyloid precursor protein (APP). Our results indicate that P2Y ₂ R expression is upregulated in TgCRND8 mouse brain within 10 weeks of age and then decreases after 25 weeks of age, as compared to littermate controls expressing low levels of the P2Y ₂ R. TgCRND8 mice with homozygous P2Y ₂ R deletion survive less than 5 weeks, whereas mice with heterozygous P2Y ₂ R deletion survive for 12 weeks, a time point when TgCRND8 mice are fully viable. Heterozygous P2Y ₂ R deletion in TgCRND8 mice increased β-amyloid (Aβ) plaque load and soluble Aβ_1–42 levels in the cerebral cortex and hippocampus, decreased the expression of the microglial marker CD11b in these brain regions and caused neurological deficits within 10 weeks of age, as compared to age-matched TgCRND8 mice. These findings suggest that the P2Y₂R is important for the recruitment and activation of microglial cells in the TgCRND8 mouse brain and that the P2Y₂R may regulate neuroprotective mechanisms through microglia-mediated clearance of Aβ that when lost can accelerate the onset of an AD-like phenotype in the TgCRND8 mouse.     

Biodistribution and Clearance of TiO2 Nanoparticles in Rats after Intravenous Injection

Titanium dioxide (TiO₂) nanoparticles are used in many applications. Due to their small size, easy body penetration and toxicological adverse effects have been suspected. Numerous studies have tried to characterize TiO₂ translocation after oral, dermal or respiratory exposure. In this study, we focused on TiO₂ nanoparticle biodistribution, clearance and toxicological effects after intravenous injection, considering TiO₂ translocation in the blood occurs. Using ICP-OES, transmission electron microscopy, and histological methods, we found TiO₂ accumulation in liver, lungs and spleen. We estimated TiO₂ nanoparticles’ half life in the body to about 10 days. Clinical biomarkers were also quantified for 56 days to identify potential toxicological impact on lungs, blood, liver, spleen and kidneys. Results showed absence of toxicological effects after TiO₂ intravenous injection at concentrations of 7.7 to 9.4 mg/kg.     

Comparison of Blood Monocytes and Adipose Tissue Macrophages in a Mouse Model Diet-Induced Weight Gain

Diet-induced weight gain causes changes in adipose tissue that alter blood monocytes and adipose tissue macrophages, increasing disease risk. The purpose of this study was to compare the effects of 24 wk of diet-induced weight gain on the percentages of blood monocytes and adipose tissue macrophages as well as the cell-surface expression of toll-like receptors 2 and 4 and leptin receptor, which are associated with inflammation and homing to adipose tissue. Crl:CD1(ICR) male mice were assigned to either a diet-induced weight gain (60% of calories from fat; n = 12) or control (10% of calories from fat; n = 13) group. After 24 wk of dietary treatment, whole blood and bilateral perigonadal fat pads were collected. Whole blood or SVF were separately labeled for monocytes (CD11b⁺CD14‑) or macrophages (CD11b⁺F4/80⁺) and receptor expression by using 3-color flow cytometry. Data were analyzed by using univariate ANOVA. Compared with control mice, those in the weight-gain group had greater body weight, fat mass, and percentages of monocytes and macrophages compared with CN. Regardless of cell type, monocytes and macrophages from mice in the weight-gain group expressed significantly less toll-like receptor 2 and leptin receptor than did control mice. The present study demonstrates that monocytes and macrophages are similarly affected by diet-induced weight gain. More research is needed to confirm how monocytes might be used as a proxy measure of macrophages.Abbreviations: gMFI, geometric mean fluorescence intensity; SVF, stromal vascular fraction; TLR, toll-like receptorDiet-induced weight gain causes changes in adipose tissue that contributes to increased disease risk via an elevation in systemic inflammation.^1,13 Obese subjects have elevated concentrations of chemoattractants, which recruit naïve blood monocytes from the blood into adipose, where they mature into adipose tissue macrophages and ‘inflame’ adipose tissue.^2,7,8,26 The principal recruitment signal for monocytes is elevated leptin and monocyte chemoattractant protein 1 and reduced adiponectin.^4,28 Inflammation, as measured by an increase in proinflammatory cytokine (IL1β, IL6, and TNFα) production, is involved in the pathophysiology of cardiovascular disease and type 2 diabetes mellitus.^9,11 Proinflammatory cytokine production in monocytes and macrophages is mediated by toll-like receptors (TLR). Of the 9 known TLR, TLR2 and TLR4 are involved in adipose tissue inflammation because they are responsive to leptin and other biomarkers associated with weight gain.^3,5,14,23,24 Despite the known association of both monocytes and macrophages with inflamed adipose tissue, monocytes and macrophages in lean and obese mice have not been compared.Such a comparison would be advantageous because the collection of adipose tissue macrophages requires a terminal procedure, whereas blood monocytes can be harvested by using a nonlethal technique. We previously suggested that the use of nonlethal collection is desirable because it allows a researcher to collect longitudinal data over time and to reduce the number of animals that are required for a given experiment.^7,14 Because blood monocytes may be a naïve version of adipose tissue macrophages, their measurement may provide a suitable proxy for the assessment of adipose tissue macrophages. With this knowledge, future studies might improve outcome measures related to diet-induced obesity, with fewer animals required for a given experiment. The purpose of the current study was to evaluate blood monocytes and their cell-surface receptors (leptin receptor, TLR2, and TLR4) as a possible proxy measure of adipose tissue macrophages in lean and obese mice.     

成体心脏干细胞经静脉移植后在心梗小鼠体内的分布研究

目的：观察心肌梗死小鼠静脉移植成体心脏干细胞后,细胞在小鼠体内各器官的分布情况。明确心梗后静脉移植成体心脏干 细胞在小鼠体内的分布和归巢情况。方法：分离培养小鼠心脏成体干细胞,采用流式细胞仪鉴定细胞,通过亲脂性染料CM-DiI标 记细胞后行小鼠急性心肌梗死模型建立和细胞移植,分别在细胞移植后7、14、8 天取小鼠心脏、肝脏、脑、脊髓、肺脏,行冰冻切 片,在荧光显微镜下观察移植细胞在各组织器官存活和分布情况。结果：成体心脏干细胞分离培养后呈贴壁生长,流式细胞仪检 测显示细胞纯度>80%。CM-DiI标记后荧光显微镜下观察可见标记的细胞胞浆胞核均被染成呈明亮的红色。心肌梗死后经静脉 移植成体心脏干细胞,细胞在各组织中分布呈变化过程,7 天时,在肺脏和肝脏分布较多,至14 天和28 天时,肺脏和肝脏分布减 少,心脏分布逐渐增多,表现出向心脏的" 归巢" 现象,而脑和脊髓在28 天的观察时间内分布较少。结论：采用CM-DiI标记心 脏成体干细胞,操作简单,标记效果好,可用于短期的细胞体内追踪。小鼠心肌梗死后行经静脉成体心脏干细胞移植,28 天后细胞 在心脏的分布逐渐增多,表现出向心脏的" 归巢" 现象。     

Conversion of Daidzein and Genistein by an Anaerobic Bacterium Newly Isolated from the Mouse Intestine

The metabolism of isoflavones by gut bacteria plays a key role in the availability and bioactivation of these compounds in the intestine. Daidzein and genistein are the most common dietary soy isoflavones. While daidzein conversion yielding equol has been known for some time, the corresponding formation of 5-hydroxy-equol from genistein has not been reported previously. We isolated a strictly anaerobic bacterium (Mt1B8) from the mouse intestine which converted daidzein via dihydrodaidzein to equol as well as genistein via dihydrogenistein to 5-hydroxy-equol. Strain Mt1B8 was a gram-positive, rod-shaped bacterium identified as a member of the Coriobacteriaceae. Strain Mt1B8 also transformed dihydrodaidzein and dihydrogenistein to equol and 5-hydroxy-equol, respectively. The conversion of daidzein, genistein, dihydrodaidzein, and dihydrogenistein in the stationary growth phase depended on preincubation with the corresponding isoflavonoid, indicating enzyme induction. Moreover, dihydrogenistein was transformed even more rapidly in the stationary phase when strain Mt1B8 was grown on either genistein or daidzein. Growing the cells on daidzein also enabled conversion of genistein. This suggests that the same enzymes are involved in the conversion of the two isoflavones.     

B Cell Deficient Mice Are Protected from Biliary Obstruction in the Rotavirus-Induced Mouse Model of Biliary Atresia

A leading theory regarding the pathogenesis of biliary atresia (BA) is that bile duct injury is initiated by a virus infection, followed by an autoimmune response targeting bile ducts. In experimental models of autoimmune diseases, B cells have been shown to play an important role. The aim of this study was to determine the role of B cells in the development of biliary obstruction in the Rhesus rotavirus (RRV)-induced mouse model of BA. Wild-type (WT) and B cell-deficient (Ig-α^-/-) mice received RRV shortly after birth. Ig-α^-/- RRV-infected mice had significantly increased disease-free survival rate compared to WT RRV-infected BA mice (76.8% vs. 17.5%). In stark contrast to the RRV-infected BA mice, the RRV-infected Ig-α^-/- mice did not have hyperbilirubinemia or bile duct obstruction. The RRV-infected Ig-α^-/- mice had significantly less liver inflammation and Th1 cytokine production compared to RRV-infected WT mice. In addition, Ig-α^-/- mice had significantly increased numbers of regulatory T cells (Tregs) at baseline and after RRV infection compared to WT mice. However, depletion of Tregs in Ig-α^-/- mice did not induce biliary obstruction, indicating that the expanded Tregs in the Ig-α^-/- mice were not the sole reason for protection from disease. Conclusion: B cell deficient Ig-α^-/- mice are protected from biliary obstruction in the RRV-induced mouse model of BA, indicating a primary role of B cells in mediating disease pathology. The mechanism of protection may involve lack of B cell antigen presentation, which impairs T-cell activation and Th1 inflammation. Immune modulators that inhibit B cell function may be a new strategy for treatment of BA.     

Farnesyltransferase Haplodeficiency Reduces Neuropathology and Rescues Cognitive Function in a Mouse Model of Alzheimer Disease

Isoprenoids and prenylated proteins have been implicated in the pathophysiology of Alzheimer disease (AD), including amyloid-β precursor protein metabolism, Tau phosphorylation, synaptic plasticity, and neuroinflammation. However, little is known about the relative importance of the two protein prenyltransferases, farnesyltransferase (FT) and geranylgeranyltransferase-1 (GGT), in the pathogenesis of AD. In this study, we defined the impact of deleting one copy of FT or GGT on the development of amyloid-β (Aβ)-associated neuropathology and learning/memory impairments in APPPS1 double transgenic mice, a well established model of AD. Heterozygous deletion of FT reduced Aβ deposition and neuroinflammation and rescued spatial learning and memory function in APPPS1 mice. Heterozygous deletion of GGT reduced the levels of Aβ and neuroinflammation but had no impact on learning and memory. These results document that farnesylation and geranylgeranylation play differential roles in AD pathogenesis and suggest that specific inhibition of protein farnesylation could be a potential strategy for effectively treating AD.     

IL-12增强流感血凝素DNA疫苗在小鼠中抗流感作用

流感病毒的表面抗原血凝素 (hemagglutinin ,HA)能作为DNA疫苗抗流感病毒攻击 ,在小鼠模型中检测白介素 12 (interleukin 12 ,IL 12 )能否作为HADNA疫苗佐剂增强小鼠抗流感病毒攻击。将IL 12和HA共同免疫小鼠 ,免疫 2次 ,间隔 3周 ,加强免疫后用致死量流感病毒攻击。共同免疫IL 12和HADNA与单独免疫HA相比 ,无论初免还是加强免疫后血清中抗HA的IgG抗体显著提高 ,小鼠体重丢失 (一种临床症状 )明显减少且提高了小鼠的存活率。这些结果表明了IL 12能作为一种佐剂提高流感DNA疫苗的免疫效价。     

Extracellular Matrix Protein Lumican Promotes Clearance and Resolution of Pseudomonas aeruginosa Keratitis in a Mouse Model

Lumican is an extracellular protein that associates with CD14 on the surface of macrophages and neutrophils, and promotes CD14-TLR4 mediated response to bacterial lipopolysaccharides (LPS). Lumican-deficient (Lum ^−/−) mice and macrophages are impaired in TLR4 signals; raising the possibility that lumican may regulate host response to live bacterial infections. In a recent study we showed that in vitro Lum ^−/− macrophages are impaired in phagocytosis of gram-negative bacteria and in a lung infection model the Lum ^−/− mice showed poor survival. The cornea is an immune privileged barrier tissue that relies primarily on innate immunity to protect against ocular infections. Lumican is a major component of the cornea, yet its role in counteracting live bacteria in the cornea remains poorly understood. Here we investigated Pseudomonas aeruginosa infections of the cornea in Lum ^−/− mice. By flow cytometry we found that 24 hours after infection macrophage and neutrophil counts were lower in the cornea of Lum ^−/− mice compared to wild types. Infected Lum ^−/− corneas showed lower levels of the leukocyte chemoattractant CXCL1 by 24–48 hours of infection, and increased bacterial counts up to 5 days after infection, compared to Lum^+/− mice. The pro-inflammatory cytokine TNF-α was comparably low 24 hours after infection, but significantly higher in the Lum ^−/− compared to Lum ^+/− infected corneas by 2–5 days after infection. Taken together, the results indicate that lumican facilitates development of an innate immune response at the earlier stages of infection and lumican deficiency leads to poor bacterial clearance and resolution of corneal inflammation at a later stage.     

Deletion of Fgfr1 in Osteoblasts Enhances Mobilization of EPCs into Peripheral Blood in a Mouse Endotoxemia Model

Endothelial progenitor cells (EPCs) contribute to neovascularization and vascular repair, and may exert a beneficial effect on the clinical outcome of sepsis. Osteoblasts act as a component of “niche” in bone marrow, which provides a nest for stem/progenitor cells and are involved in the formation and maintenance of stem/progenitor cells. Fibroblast growth factor receptor 1 (FGFR1) can regulate osteoblast activity and influence bone mass. So we explored the role of FGFR1 in EPC mobilization. Male mice with osteoblast-specific knockout of Fgfr1 (Fgfr1^fl/fl;OC-Cre) and its wild-type littermates (Fgfr1^fl/fl) were used in this study. Mice intraperitoneally injected with lipopolysaccharide (LPS) were used to measure the number of circulating EPCs in peripheral blood and serum stromal cell-derived factor 1α (SDF-1α). The circulating EPC number and the serum level of SDF-1α were significantly higher in Fgfr1^fl/fl;OC-Cre mice than those in Fgfr1^fl/fl mice after LPS injection. In cell culture system, SDF-1α level was also significantly higher in Fgfr1^fl/fl;OC-Cre osteoblasts compared with that in Fgfr1^fl/fl osteoblasts after LPS treatment. TRAP staining showed that there was no significant difference between the osteoclast activity of septic Fgfr1^fl/fland Fgfr1^fl/fl;OC-Cre mice. This study suggests that targeted deletion of Fgfr1 in osteoblasts enhances mobilization of EPCs into peripheral blood through up-regulating SDF-1α secretion from osteoblasts.