Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Serial passage of yellow fever 17D virus (
YF5
.2iv, derived from an infectious molecular clone) on mouse
neuroblastoma
(NB41A3) cells established a persistent noncytopathic infection associated with a variant virus. This virus (NB15a) was dramatically reduced in plaque formation and exhibited impaired replication kinetics on all cell lines examined compared to the parental virus. Nucleotide sequence analysis of NB15a revealed a substitution in domain III of the envelope (E) protein at residue 360, where an aspartic acid residue was replaced by glycine. Single mutations were also found within the NS2A and NS3 proteins. Engineering of
YF5
.2iv virus to contain the E(360) substitution yielded a virus (G360 mutant) whose plaque size and growth efficiency in cell culture resembled those of NB15a. Compared with
YF5
.2iv, both NB15a and G360 were markedly restricted for spread through Vero cell monolayers and mildly restricted in C6/36 cells. On NB41A3 cells, spread of the viruses was similar, but all three were generally inefficient compared with spread in other cell lines. Compared to
YF5
.2iv virus, NB15a was uniformly impaired in its ability to penetrate different cell lines, but a difference in cell surface binding was detected only on NB41A3 cells, where NB15a appeared less efficient. Despite its small plaque size, impaired growth, and decreased penetration efficiency, NB15a did not differ from
YF5
.2iv in mouse neurovirulence testing, based on mortality rates and average survival times after intracerebral inoculation of young adult mice. The data indicate that persistence of yellow fever virus in NB41A3 cells is associated with a mutation in the receptor binding domain of the E protein that impairs the virus entry process in cell culture. However, the phenotypic changes which occur in the virus as a result of the persistent infection in vitro do not correlate with attenuation during pathogenesis in the mouse central nervous system.
...
PMID:Neuroblastoma cell-adapted yellow fever 17D virus: characterization of a viral variant associated with persistent infection and decreased virus spread. 1202 51
A yellow fever (YFV) 17D virus variant, which causes persistent infection of mouse
neuroblastoma
cells associated with defective cell penetration and small plaque size, yielded plaque-revertant viruses from cells transfected with viral transcripts encoding the adaptive mutation (Gly360 in the E protein). Reconstruction of a plaque-purified revertant which contained Gly360 and additional substitutions (Asn for Lys303 and Val for Ala261) yielded a virus whose infectious center size, growth efficiency, and cell penetration rate similar to the parental
YF5
.2iv virus, whereas viruses with Asn303 or Val261 alone with Gly360 yielded either a small-plaque virus or a parental revertant. These data indicate that the YFV E protein is subject to suppression of mutations in domain III that are deleterious for viral entry and spread by a second-site mutation in domain II. Position 261 lies within the hydrophobic ligand-binding pocket at the domain I-II interface, a site believed to be involved in the hinge-like conformational change of domain II during activation of membrane fusion-activity. Results of this study provide genetic data consistent with findings on flavivirus structure and implicate domain III in functions beyond simply cell surface attachment.
...
PMID:Yellow fever 17D virus: pseudo-revertant suppression of defective virus penetration and spread by mutations in domains II and III of the E protein. 1532 96
