Random insertion mutagenesis of sindbis virus nonstructural protein 2 and selection of variants incapable of downregulating cellular transcription.

Sindbis virus nonstructural protein 2 (SINV nsP2) is an important determinant of virus pathogenesis and downregulation of virus-induced cell response. This protein efficiently inhibits transcription of cellular messenger and ribosomal RNAs and, thus, is capable of inhibiting the activation of genes whose products are involved in development of the antiviral response. Alphavirus nsP2 has a number of predicted functional domains, some of which were confirmed by crystal structure.

Different types of nsP3-containing protein complexes in Sindbis virus-infected cells.

Alphaviruses represent a serious public health threat and cause a wide variety of diseases, ranging from severe encephalitis, which can result in death or neurological sequelae, to mild infection, characterized by fever, skin rashes, and arthritis. In the infected cells, alphaviruses express only four nonstructural proteins, which function in the synthesis of virus-specific RNAs and in modification of the intracellular environment. The results of our study suggest that Sindbis virus (SINV) infection in BHK-21 cells leads to the formation of at least two types of nsP3-containing complexes, one of which was found in association with the plasma membrane and endosome-like vesicles, while the second was coisolated with cell nuclei.

Venezuelan equine encephalitis virus capsid protein inhibits nuclear import in Mammalian but not in mosquito cells.

Venezuelan equine encephalitis virus (VEEV) represents a continuous public health threat in the United States. It has the ability to cause fatal disease in humans and in horses and other domestic animals. We recently demonstrated that replicating VEEV interferes with cellular transcription and uses this phenomenon as a means of downregulating a cellular antiviral response.

Analysis of Venezuelan equine encephalitis virus capsid protein function in the inhibition of cellular transcription.

The encephalitogenic New World alphaviruses, including Venezuelan (VEEV), eastern (EEEV), and western equine encephalitis viruses, constitute a continuing public health threat in the United States. They circulate in Central, South, and North America and have the ability to cause fatal disease in humans and in horses and other domestic animals. We recently demonstrated that these viruses have developed the ability to interfere with cellular transcription and use it as a means of downregulating a cellular antiviral response.

The Old World and New World alphaviruses use different virus-specific proteins for induction of transcriptional shutoff.

Alphaviruses are widely distributed throughout the world. During the last few thousand years, the New World viruses, including Venezuelan equine encephalitis virus (VEEV) and eastern equine encephalitis virus (EEEV), evolved separately from those of the Old World, i.e.