Change of Antigenic Determinants of SARS-CoV-2 Virus S-Protein as a Possible Cause of Antibody-Dependent Enhancement of Virus Infection and Cytokine Storm

Biophysics - A hypothesis is proposed that the cytokine storm syndrome, which complicates COVID-19 in some patients, is a consequence of antibody-dependent enhancement of virus infection, which is...     

The Establishment and Validation of the Human U937 Cell Line as a Cellular Model to Screen Immunomodulatory Agents Regulating Cytokine Release Induced by Influenza Virus Infection

Severe influenza infections are often associated with the excessive induction of pro-inflammatory cytokines, which is also referred to as ‘‘cytokine storms' '. Several studies have shown that cytokine storms are directly associated with influenzainduced fatal acute lung injury and acute respiratory distress syndrome. Due to the narrow administration window, current antiviral therapies are often inadequate. The efforts to use immunomodulatory agents alone or in combination with antiviral agents in the treatment of influenza in animal models have resulted in the achievement of protective effects accompanied with reduced cytokine production. Currently, there are no immunomodulatory drugs for influenza available for clinical use.Animal models, despite being ideal to study the anti-inflammatory responses to influenza virus infection, are very costly and time-consuming. Therefore, there is an urgent need to establish fast and economical screening methods using cellbased models to screen and develop novel immunomodulatory agents. In this study, we screened seven human cell lines and found that the human monocytic cell U937 supports the replication of different subtypes of influenza viruses as well as the production of the important pro-inflammatory cytokines and was selected to develop the cell-based model. The U937 cell model was validated by testing a panel of known antiviral and immunomodulatory agents and screening a drug library consisting of 1280 compounds comprised mostly of FDA-approved drugs. We demonstrated that the U937 cell model is robust and suitable for the high-throughput screening of immunomodulators and antivirals against influenza infection.     

Andes Virus Disrupts the Endothelial Cell Barrier by Induction of Vascular Endothelial Growth Factor and Downregulation of VE-Cadherin

Hantavirus pulmonary syndrome (HPS) and hemorrhagic fever with renal syndrome (HFRS) are severe diseases associated with hantavirus infection. High levels of virus replication occur in microvascular endothelial cells but without a virus-induced cytopathic effect. However, virus infection results in microvascular leakage, which is the hallmark of these diseases. VE-cadherin is a major component of adherens junctions, and its interaction with the vascular endothelial growth factor (VEGF) receptor, VEGF-R2, is important for maintaining the integrity of the endothelial barrier. Here we report that increased secreted VEGF and concomitant decreased VE-cadherin are seen at early times postinfection of human primary lung endothelial cells with an HPS-associated hantavirus, Andes virus. Furthermore, active virus replication results in increased permeability and loss of the integrity of the endothelial cell barrier. VEGF binding to VEGF-R2 is known to result in dissociation of VEGF-R2 from VE-cadherin and in VE-cadherin activation, internalization, and degradation. Consistent with this, we showed that an antibody which blocks VEGF-R2 activation resulted in inhibition of the Andes virus-induced VE-cadherin reduction. These data implicate virus induction of VEGF and reduction in VE-cadherin in the endothelial cell permeability seen in HPS and suggest potential immunotherapeutic targets for the treatment of the disease.Hantaviruses, of the family Bunyaviridae, are rodent-borne RNA viruses. Members of the Hantavirus genus have been identified as etiologic agents of two severe human diseases: hemorrhagic fever with renal syndrome (HFRS), which is caused by the Old World hantaviruses, and hantavirus pulmonary syndrome (HPS), which is caused by the New World hantaviruses (38, 39). Sin Nombre virus (SNV) and Andes virus (ANDV) are the main causes of HPS in the Americas. The major hantavirus target in humans is the microvascular endothelium, and the basis of HPS and HFRS is attributed to microvascular leakage (9, 34, 57). Common clinical features of HPS are interstitial pneumonitis with variable amounts of mononuclear cell infiltration, congestion, and both interstitial and alveolar edema (4, 34, 57). Despite the prominent accumulation of viral antigen in the infected vascular endothelium, no evidence of cellular destruction has been observed (57). Absence of a cytopathic effect has also been reported in in vitro studies of hantavirus infection of human primary endothelial cells (35, 46). In general, it is believed that induction of an uncontrolled immune response to the hantavirus infection, rather than the viral infection per se, is the cause of the microvascular leakage and ultimately HPS and HFRS (3, 48, 57). So far, a limited number of in vitro permeability studies have reported either no significant changes in the vascular permeability upon hantavirus infection or a significant increase only when mediators of increased permeability are exogenously added to the hantavirus-infected cells (12, 22, 46).Endothelial cell permeability is a highly regulated process and is maintained by both tight and adherens junctions (47). The disruption of adherens junctions is sufficient to disturb the endothelium barrier function and cause an increase in permeability and formation of edema (25, 47). Adherens junctions are largely composed of vascular endothelial (VE) cadherin (VE-cadherin), an endothelial cell-specific member of the cadherin family of adhesion protein (51, 52). Adherens junctions and in particular VE-cadherin are targets of the signaling pathway of agents that increase vascular permeability (7, 8, 10). Vascular endothelial growth factor (VEGF), one of the most potent vascular permeability agents, exerts its effects after binding to its homologous membrane tyrosine kinase receptor, VEGF-R2, whose expression is restricted to endothelial cells. It is known that VEGF-R2 interacts with VE-cadherin, and together they maintain the endothelial cell barrier (26). When VEGF is present, it binds to VEGF-R2, and that initiates the internalization and degradation of VE-cadherin and disruption of the adherens junctions (10, 54).In general, increase of vascular permeability is an important component of severe disease progression in hemorrhagic fevers (36). A number of studies have investigated the cause of increased vascular permeability in viral hemorrhagic fevers induced by viruses such as Dengue virus or Ebola virus (41, 42, 50, 53, 56). Studies of vascular permeability during hantavirus infection in vitro have mainly been performed in the presence of various inflammatory agents and growth factors (12, 15, 19, 22, 46). A recent study demonstrated that pathogenic hantaviruses sensitize the endothelium and cause hyperpermeability in response to high levels of exogenously added VEGF (12). We show here that VE-cadherin downregulation can be observed in ANDV-infected cells in the absence of exogenous VEGF. The downregulation of VE-cadherin in the absence of exogenous VEGF led us to the discovery that endothelial cells infected with ANDV induce the production of VEGF at early times postinfection. The early increased secretion of VEGF coincides with the initiation of downregulation of the adherent junction protein VE-cadherin and an increase in permeability of endothelial cells. The involvement of VEGF-R2 in VE-cadherin downregulation was demonstrated by antibody blockage of VEGF-R2 that resulted in significant recovery of VE-cadherin levels. These data indicate that the increased vascular permeability seen in HPS could be a direct result of hantavirus infection of the endothelium and may occur through a pathway involving VEGF-induced downregulation of VE-cadherin at early times postinfection.     

扇贝裙边糖氨聚糖对泡沫细胞形成过程中血管内皮生长因子表达的影响

目的:研究扇贝裙边糖氨聚糖时氧化低密度脂蛋白(ox-LDL)诱导的U937细胞泡沫化过程中血管内皮生长因子(VEGF)的影响,探讨其抗动脉粥样硬化作用的机理。方法:采用U937细胞与80mg/L的ox-LDL孵育48h建立U937泡沫细胞模型。将培养的U937细胞随机分为六组,正常对照组、模型组(ox-LDL)、肝素对照组(ox-LDL加100mg/L肝素)和低、中、高浓度的SS-GAG药物组(ox-LDL加200mg/L,400mg/L,800mg/L的SS-GAG)。采用酶联免疫吸附实验(ELISA)检测细胞分泌的VEGF的量,观察不同浓度SS-GAG对U937细胞泡沫化过程中VEGF表达量的影响。结果:培养的U937泡沫细胞中VEGF的表达量明显高于正常U937细胞(P＜0．01),而加入SS-GAG的药物组和肝素对照组则有不同程度降低,以800mg/mL药物组降低最为明显(P＜0．01)。结论:泡沫细胞形成过程中伴有VEGF的高表达,SS-GAG能够抑制其表达从而发挥抗动脉粥样硬化作用。     

Sulfated Polysaccharide,Curdlan Sulfate,Efficiently Prevents Entry/Fusion and Restricts Antibody-Dependent Enhancement of Dengue Virus Infection In Vitro: A Possible Candidate for Clinical Application

Curdlan sulfate (CRDS), a sulfated 1→3-β-D glucan, previously shown to be a potent HIV entry inhibitor, is characterized in this study as a potent inhibitor of the Dengue virus (DENV). CRDS was identified by in silico blind docking studies to exhibit binding potential to the envelope (E) protein of the DENV. CRDS was shown to inhibit the DENV replication very efficiently in different cells in vitro. Minimal effective concentration of CRDS was as low as 0.1 µg/mL in LLC-MK2 cells, and toxicity was observed only at concentrations over 10 mg/mL. CRDS can also inhibit DENV-1, 3, and 4 efficiently. CRDS did not inhibit the replication of DENV subgenomic replicon. Time of addition experiments demonstrated that the compound not only inhibited viral infection at the host cell binding step, but also at an early post-attachment step of entry (membrane fusion). The direct binding of CRDS to DENV was suggested by an evident reduction in the viral titers after interaction of the virus with CRDS following an ultrafiltration device separation, as well as after virus adsorption to an alkyl CRDS-coated membrane filter. The electron microscopic features also showed that CRDS interacted directly with the viral envelope, and caused changes to the viral surface. CRDS also potently inhibited DENV infection in DC-SIGN expressing cells as well as the antibody-dependent enhancement of DENV-2 infection. Based on these data, a probable binding model of CRDS to DENV E protein was constructed by a flexible receptor and ligand docking study. The binding site of CRDS was predicted to be at the interface between domains II and III of E protein dimer, which is unique to this compound, and is apparently different from the β-OG binding site. Since CRDS has already been tested in humans without serious side effects, its clinical application can be considered.     

Cytokine Regulation of Human Immunodeficiency Virus Type 1 Entry and Replication in Human Monocytes/Macrophages through Modulation of CCR5 Expression

Human macrophages express chemokine receptors that act as coreceptors for human immunodeficiency virus type 1 (HIV-1) and are major targets for HIV-1 infection in vivo. The effects of cytokines on HIV-1 infection of macrophages and on the expression of CCR5, the principal coreceptor for macrophage-tropic viruses, have now been investigated. Expression of CCR5 on the surface of freshly isolated human monocytes was virtually undetectable by flow cytometry with the monoclonal antibody 5C7. However, after culture of monocytes for 48 h in serum-free medium, approximately 30% of the resulting macrophages expressed CCR5 and the cells were susceptible to infection by macrophage-tropic HIV-1. Addition of either macrophage colony-stimulating factor (M-CSF) or granulocyte-macrophage colony-stimulating factor (GM-CSF) to the cultures markedly increased both the extent of HIV-1 entry and replication as well as surface expression of CCR5. In contrast, addition of the T-helper 2 (Th2) cell-derived cytokine interleukin-4 (IL-4) or IL-13 prevented the expression of CCR5 induced by culture in medium alone, and IL-4 inhibited virus entry, replication, and cytopathicity under these conditions. IL-4 or IL-13 also prevented the stimulatory effects of M-CSF or GM-CSF on CCR5 expression as well as HIV-1 entry and replication. In addition, IL-4 reversed the increase in CCR5 expression induced by pretreatment of cells with M-CSF. Although IL-10 also inhibits HIV-1 replication in macrophages, it did not suppress surface CCR5 expression induced by colony-stimulating factors. These results indicate that the cytokine environment determines the susceptibility of macrophages to HIV-1 infection by various mechanisms, one of which is the regulation of HIV-1 coreceptor expression.     

The Balance of Apoptotic and Necrotic Cell Death in Mycobacterium tuberculosis Infected Macrophages Is Not Dependent on Bacterial Virulence

Background

An important mechanism of Mycobacterium tuberculosis pathogenesis is the ability to control cell death pathways in infected macrophages: apoptotic cell death is bactericidal, whereas necrotic cell death may facilitate bacterial dissemination and transmission.

Methods

We examine M.tuberculosis control of spontaneous and chemically induced macrophage cell death using automated confocal fluorescence microscopy, image analysis, flow cytometry, plate-reader based vitality assays, and M.tuberculosis strains including H37Rv, and isogenic virulent and avirulent strains of the Beijing lineage isolate GC1237.

Results

We show that bacterial virulence influences the dynamics of caspase activation and the total level of cytotoxicity. We show that the powerful ability of M.tuberculosis to inhibit exogenously stimulated apoptosis is abrogated by loss of virulence. However, loss of virulence did not influence the balance of macrophage apoptosis and necrosis – both virulent and avirulent isogenic strains of GC1237 induced predominantly necrotic cell death compared to H37Rv which induced a higher relative level of apoptosis.

Conclusions

This reveals that macrophage necrosis and apoptosis are independently regulated during M. tuberculosis infection of macrophages. Virulence affects the level of host cell death and ability to inhibit apoptosis but other strain-specific characteristics influence the ultimate mode of host cell death and alter the balance of apoptosis and necrosis.     

绵羊进行性肺炎病毒荧光抗体的制备及其对病毒感染细胞的检测

绵羊进行性肺炎病毒荧光抗体的制备及其对病毒感染细胞的检测丁恩雨,相文华（复旦大学生命科学学院,上海２００４３３）（中国农业科学院哈尔滨兽医研究所,哈尔滨１５０００１）关键词绵羊进行性肺炎病毒,荧光抗体,间接免疫荧光法绵羊进行性肺炎（ＯＰＰ）是慢性进行...     

The Role of the 90-kDa Heat Shock Protein in Cell Cycle Control and Differentiation of the Monoblastoid Cell Line U937

The human monoblastoid cell line, U937, has been widely used to study proliferation and differentiation in the monocyte–macrophage lineage. Recent evidence from other cell systems suggests that heat shock proteins (hsps) may participate in these processes. Therefore, we have examined expression of hsp and the effect of either increased or decreased expression of the hsp90 in U937 cells. Parental U937 cells express high levels of hsp90, hsp73, and hsp65, but little hsp72. Heat shock at 42°C for 30 min increased hsp72 levels but caused no change in hsp90. U937 cells transfected with the expression vector pBA.4 containing either an anti-sense or a sense hsp90 cDNA insert showed constitutive decrease, or increase, in expression of hsp90. Decreased hsp90 levels slowed the rate of cell division and levels of hsp90 correlated both with the responses to phorbol esters and with phenotypic changes: anti-sense-transfected cells expressed less CD50. Sense-transfected cells showed no change in cell cycle, but expressed less CD14 than controls. Thus, hsp90 plays a role in the monocyte–macrophage lineage, participating in proliferation and cell cycle control and in the acquisition of functional heterogeneity of the mature macrophage phenotype, with potential effects on the role of the macrophage in innate immunity.     

小檗碱改善流感病毒性肺炎小鼠肺血管通透性的作用及机制

目的:观察小檗碱对流感病毒感染所致病毒性肺炎小鼠肺血管通透性的影响,并探讨其作用机制。方法:BALB/c小鼠108只随机分为3组,正常组、模型组、小檗碱组,25μL 50LD50病毒液滴鼻建立流感病毒感染的小鼠肺炎模型,感染后1 h,正常组和模型组予以双蒸水灌胃,小檗碱组予药物0.005 g.kg-1d-1腹腔注射;各组均给药2次/d,连续给药5 d。感染后的2 d、4 d、6 d,处死小鼠,肺组织称重以检测肺含水量;1%伊文氏兰5 mL/kg尾静脉注射检测肺血管通透性;Bicinchoninic acid(BCA)法检测肺泡灌洗液(BALF)中蛋白含量;放免法或酶免法测定肺组织中PGE2、PLA2及LT-B4含量。结果:病毒感染后,模型组肺含水量持续升高,肺血管通透性及BALF蛋白含量在感染后第4天开始明显升高,小檗碱降低了肺含水量、肺血管通透性及BALF蛋白含量(P<0.01);模型组肺组织中PGE2、PLA2、LT-B4的含量明显升高,小檗碱不同程度地抑制了PGE2、PLA2、LT-B4的表达。结论:小檗碱通过抑制流感病毒感染后肺组织中PGE2、PLA2、LT-B4的释放,降低了肺血管通透性及肺含水量,对病毒性肺炎中肺水肿的形成,起到一定的治疗作用。     

The coffee diterpene kahweol induces apoptosis in human leukemia U937 cells through down-regulation of Akt phosphorylation and activation of JNK

Kahweol, the coffee-specific diterpene, has been reported for its tumor cell growth inhibitory activity and anti-carcinogenic activity. The mechanism by which kahweol initiates apoptosis remains poorly understood. In the present study, we investigated the effect of kahweol on the apoptotic pathway in U937 human promonocytic cells. We show that kahweol induces apoptosis in association with the activation of caspase 3 and cytochrome c release from the mitochondria to the cytosol, as well as down-regulation of anti-apoptotic proteins (Bcl-2, Bcl-xL, Mcl-1 and XIAP). Kahweol altered the phosphorylation state of members of the MAPKs and Akt. Ectopic expression of Bcl-2 or constitutive active Akt (myr-Akt) in U937 cells attenuates kahweol-induced apoptosis. In addition, we have also shown that JNK and Akt signal pathway plays a crucial role in kahweol-induced apoptosis in U937 cells. Taken together, our results show the activity of kahweol to modulate multiple components in apoptotic response of human leukemia cells and raise the possibility a novel therapeutic strategy in hematological malignancies.     

Response to Phosphate Deprivation in Brassica nigra Suspension Cells : Enhancement of Intracellular, Cell Surface, and Secreted Phosphatase Activities Compared to Increases in Pi-Absorption Rate

Suspension cells of Brassica nigra responded to Pi deprivation by increasing their potential for Pi influx and by raising the active levels of intracellular, cell surface, and secreted acid phosphatases. These responses, however, were temporally distinct. Phosphate influx capacity increased 15-fold in parallel to a 10-fold decrease in endogenous Pi during 7 days of culture in basal growth medium. In contrast, intracellular and cell surface phosphatase activities changed only after alterations in cellular phosphorus status had been in place for a number of days. Even in nutrient sufficient cells the secretion of phosphatase remained relatively high as did the activities of the other phosphatases. The cell surface acid phosphatase had a K_m of approximately 10 times that of the influx process and molybdate was a much stronger inhibitor of this phosphatase activity. From these results it appears that Pi absorption and the production or activation of phosphatases are regulated in a distinct manner. In addition, Pi uptake into Brassica nigra cells does not appear to directly involve the cell surface phosphatase under Pi-deficient conditions.     

The Ketogenic Diet Alters the Hypoxic Response and Affects Expression of Proteins Associated with Angiogenesis,Invasive Potential and Vascular Permeability in a Mouse Glioma Model

Background

The successful treatment of malignant gliomas remains a challenge despite the current standard of care, which consists of surgery, radiation and temozolomide. Advances in the survival of brain cancer patients require the design of new therapeutic approaches that take advantage of common phenotypes such as the altered metabolism found in cancer cells. It has therefore been postulated that the high-fat, low-carbohydrate, adequate protein ketogenic diet (KD) may be useful in the treatment of brain tumors. We have demonstrated that the KD enhances survival and potentiates standard therapy in a mouse model of malignant glioma, yet the mechanisms are not fully understood.

Methods

To explore the effects of the KD on various aspects of tumor growth and progression, we used the immunocompetent, syngeneic GL261-Luc2 mouse model of malignant glioma.

Results

Tumors from animals maintained on KD showed reduced expression of the hypoxia marker carbonic anhydrase 9, hypoxia inducible factor 1-alpha, and decreased activation of nuclear factor kappa B. Additionally, tumors from animals maintained on KD had reduced tumor microvasculature and decreased expression of vascular endothelial growth factor receptor 2, matrix metalloproteinase-2 and vimentin. Peritumoral edema was significantly reduced in animals fed the KD and protein analyses showed altered expression of zona occludens-1 and aquaporin-4.

Conclusions

The KD directly or indirectly alters the expression of several proteins involved in malignant progression and may be a useful tool for the treatment of gliomas.