Effects of cytomegalovirus infection in human neural precursor cells depend on their differentiation state
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Cytomegalovirus (CMV) is the most common cause of congenital infection in developed countries and a major cause of neurological disability in children. Although CMV can affect multiple organs, the most important sequelae of intrauterine infection are related to lesions of the central nervous system. However, little is known about the pathogenesis and the cellular events responsible for neuronal damage in infants with congenital infection. Some studies have demonstrated that neural precursor cells (NPCs) show the greatest susceptibility to CMV infection in the developing brain. We sought to establish an in vitro model of CMV infection of the developing brain in order to analyze the cellular events associated with invasion by this virus. To this end, we employed two cell lines as a permanent source of NPC, avoiding the continuous use of human fetal tissue, the human SK-N-MC neuroblastoma cell line, and an immortalized cell line of human fetal neural origin, hNS-1. We also investigated the effect of the differentiation stage in relation to the susceptibility of these cell lines by comparing the neuroblastoma cell line with the multipotent cell line hNS-1. We found that the effects of the virus were more severe in the neuroblastoma cell line. Additionally, we induced hNS-1 to differentiate and evaluated the effect of CMV in these differentiated cells. Like SK-N-MC cells, hNS-1-differentiated cells were also susceptible to infection. Viability of differentiated hNS-1 cells decreased after CMV infection in contrast to undifferentiated cells. In addition, differentiated hNS-1 cells showed an extensive cytopathic effect whereas the effect was scarce in undifferentiated cells. We describe some of the effects of CMV in neural stem cells, and our observations suggest that the degree of differentiation is important in the acquisition of susceptibility. © 2015, Journal of NeuroVirology, Inc.
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Cytomegalovirus; Cytophatic effect; Differentiation; Neural progenitor cells; Neural stem cells Article; brain development; cell differentiation; cell proliferation; cell viability; controlled study; cytomegalovirus infection; cytopathogenic effect; DNA virus; human; human cell; immortalized cell line; immunocytochemistry; in vitro study; multipotent stem cell; neural stem cell; neuroblastoma cell line; priority journal; real time polymerase chain reaction; cell line; cytology; cytomegalovirus infection; immunohistochemistry; neural stem cell; physiology; polymerase chain reaction; virology; Cytomegalovirus; Cell Differentiation; Cell Line; Cytomegalovirus Infections; Humans; Immunohistochemistry; Neural Stem Cells; Polymerase Chain Reaction
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