Congenital Cytomegalovirus Infection: Molecular Mechanisms Mediating Viral Pathogenesis

Mark      R. Schleiss

doi:10.2174/187152611797636721

Abstract

Human cytomegalovirus (CMV) is responsible for approximately 40,000 congenital infections in the United States each year. Congenital CMV disease frequently produces serious neurodevelopmental disability, as well as vision impairment and sensorineural hearing loss. Development of a CMV vaccine is therefore considered to be a major public health priority. The mechanisms by which CMV injures the fetus are complex and likely include a combination of direct fetal injury induced by pathologic virally-encoded gene products, an inability of the maternal immune response to control infection, and the direct impact of infection on placental function. CMV encodes gene products that function, both at the RNA and the protein level, to interfere with many cellular processes. These include gene products that modify the cell cycle; interfere with apoptosis; induce an inflammatory response; mediate vascular injury; induce site-specific breakage of chromosomes; promote oncogenesis; dysregulate cellular proliferation; and facilitate evasion of host immune responses. This minireview summarizes current concepts regarding these aspects of the molecular virology of CMV and the potential pathogenic impact of viral gene expression on the developing fetus. Areas for potential development of novel therapeutic intervention are suggested for improving the outcome of this disabling congenital infection.

Keywords: Cytomegalovirus, congenital CMV infection, immune evasion, pathogenesis, vaccine, sensorineural hearing loss, immune responses., novel therapeutic intervention, socioeconomic status, cellular level, lytic virus replication, human herpesviruses, Electron microscopic visualization, genome organization