西尼罗病毒(West Nile virus,WNV)首先在1937年乌干达的西尼罗地区的Omogo镇的一位发热病人血液中分离到,从而得名。西尼罗病毒属于黄病毒科黄病毒属。黄病毒科病毒共有70余种成员组成,其中黄病毒属大多属于经蚊虫、蜱等媒介传播的虫媒病毒(Arbovirus,Arthropod-borne- 相似文献
We consider a deterministic model of Zika and Dengue viruses co-circulating in a human population. We study the system of differential equations modeling the dynamics of the diseases that can either be transmitted directly (host-to-host) or indirectly (host-vectorhost).We use an SIR model for hosts and an SI model for vectors in the homogeneous populations. The stability of the model has been analyzed both qualitatively and quantitatively. 相似文献
An emerging mosquito-borne arbovirus named Zika virus (ZIKV), of the family Flaviviridae and genus Flavivirus, is becoming a global health threat. ZIKV infection was long neglected due to its sporadic nature and mild symptoms. However, recently, with its rapid spread from Asia to the Americas, affecting more than 30 countries, accumulating evidences have demonstrated a close association between infant microcephaly and Zika infection in pregnant women. Here, we reviewed the virological, epidemiological, and clinical essentials of ZIKV infection.
Zika virus (ZIKV) has become a public health concern worldwide due to its association with congenital abnormalities and neurological diseases. To date, no effective vaccines or antiviral drugs have been approved for the treatment of ZIKV infection, and new inexpensive therapeutic options are urgently needed. In this study, we have used an in vitro plaque assay to assess an antiviral activity of the second generation of anti-ZIKV compounds, based on 1,3-disubstituted (thio)urea scaffold. Several compounds in the library were found to possess excellent activity against Zika virus with IC50 values <200 pM. The most active analog, A5 exhibited an exceptional IC50 = 85.1 ± 1.7 pM. Further analysis delineated structural requirements necessary for potent antiviral effects of this class of compounds. Collectively, our findings suggest that 1,3-disubstituted (thio)urea derivatives are excellent preclinical candidates for the development of anti-ZIKV therapeutics. 相似文献
The recent re-emergence of Zika virus (ZIKV), a member of the Flaviviridae family, has become a global emergency and a serious public health threat worldwide. ZIKV infection causes severe neuroimmunopathology and is particularly harmful to the developing fetuses of infected pregnant women causing various developmental abnormalities. Currently, there are no effective methods of preventing or treating ZIKV infection, and new treatment options are urgently needed. Therefore, we have used an in vitro plaque assay to screen a limited proprietary library of small organic compounds and identified highly bioactive leads, with the most active analogs showing activity in low picomolar range. Identified “hits” possess certain common structural features that can be used in the design of the next generation(s) of ZIKV inhibitors. Collectively, our findings suggest that identified compounds represent excellent template(s) for the development of inexpensive and orally available anti-Zika drugs. 相似文献
The growing number of zika virus (ZIKV) infections plus a 20-fold increase in neonatal microcephaly in newborns in Brazil have raised alarms in many countries regarding the threat to pregnant women. Instances of microcephaly and central nervous system malformations continue to increase in ZIKV outbreak regions. ZIKV is a small enveloped positive-strand RNA virus belonging to the Flavivirus genus of the Flaviviridae family. High-resolution ZIKV structures recently identified by cryo-electron microscopy indicate that the overall ZIKV structure is similar to those of other flaviviruses. With its compact surface, ZIKV is more thermally stable than the dengue virus (DENV). ZIKV E proteins have a characteristic “herringbone” structure with a single glycosylation site. The ZIKV E protein, the major protein involved in receptor binding and fusion, is formed as a head-to-tail dimer on the surfaces of viral particles. The E monomer consists of three distinct domains: DI, DII, and DIII. The finger-like DII contains a fusion loop (FL) that is inserted into the host cell endosomal membrane during pH-dependent conformational changes that drive fusion. Quaternary E:E dimer epitopes located at the interaction site of prM and E dimers can be further divided into two dimer epitopes. To date, more than 50 ZIKV vaccine candidates are now in various stages of research and development. Candidate ZIKV vaccines that are currently in phase I/II clinical trials include inactivated whole viruses, recombinant measles viral vector-based vaccines, DNA and mRNA vaccines, and a mosquito salivary peptide vaccine. Stabilized forms of ZIKV E:E dimer proteins have been successfully obtained either by introducing additional inter-subunit disulfide bond(s) in DII or via the direct assembly of E:E dimer proteins by immobilization with monomeric E proteins. The VLP-based approach is another alternative method for presenting native E:E dimer antigens among the vaccine components. Several forms of ZIKV VLPs have been reported featuring the co-expression of the prM-E, prM-E-NS1, C-prM-E, and NS2B/NS3 viral genes in human cells. To minimize the effect of the cross-reactive ADE-facilitating antibodies between ZIKV and DENV, several novel mutations have been reported either in or near the FL of DII or DIII to dampen the production of cross-reactive antibodies. Future ZIKV vaccine design efforts should be focused on eliciting improved neutralizing antibodies with a reduced level of cross-reactivity to confer sterilizing immunity. 相似文献