TY - JOUR
T1 - Mass spectrometry reveals specific and global molecular transformations during viral infection
AU - Go, Eden P.
AU - Wikoff, William R.
AU - Shen, Zhouxin
AU - O'Maille, Grace
AU - Morita, Hirotoshi
AU - Conrads, Thomas P.
AU - Nordstrom, Anders
AU - Trauger, Sunia A.
AU - Uritboonthai, Wilasinee
AU - Lucas, David A.
AU - Chan, King C.
AU - Veenstra, Timothy D.
AU - Lewicki, Hanna
AU - Oldstone, Michael B.
AU - Schneemann, Anette
AU - Siuzdak, Gary
PY - 2006/9
Y1 - 2006/9
N2 - Mass spectrometry analysis was used to target three different aspects of the viral infection process: the expression kinetics of viral proteins, changes in the expression levels of cellular proteins, and the changes in cellular metabolites in response to viral infection. The combination of these methods represents a new, more comprehensive approach to the study of viral infection revealing the complexity of these events within the infected cell. The proteins associated with measles virus (MV) infection of human HeLa cells were measured using a label-free approach. On the other hand, the regulation of cellular and Flock House Virus (FHV) proteins in response to FHV infection of Drosophila cells was monitored using stable isotope labeling. Three complementary techniques were used to monitor changes in viral protein expression in the cell and host protein expression. A total of 1500 host proteins was identified and quantified, of which over 200 proteins were either up- or down-regulated in response to viral infection, such as the up-regulation of the Drosophila apoptotic croquemort protein, and the down-regulation of proteins that inhibited cell death. These analyses also demonstrated the upregulation of viral proteins functioning in replication, inhibition of RNA interference, viral assembly, and RNA encapsidation. Over 1000 unique metabolites were also observed with significant changes in over 30, such as the down-regulated cellular phospholipids possibly reflecting the initial events in cell death and viral release. Overall, the cellular transformation that occurs upon viral infection is a process involving hundreds of proteins and metabolites, many of which are structurally and functionally uncharacterized.
AB - Mass spectrometry analysis was used to target three different aspects of the viral infection process: the expression kinetics of viral proteins, changes in the expression levels of cellular proteins, and the changes in cellular metabolites in response to viral infection. The combination of these methods represents a new, more comprehensive approach to the study of viral infection revealing the complexity of these events within the infected cell. The proteins associated with measles virus (MV) infection of human HeLa cells were measured using a label-free approach. On the other hand, the regulation of cellular and Flock House Virus (FHV) proteins in response to FHV infection of Drosophila cells was monitored using stable isotope labeling. Three complementary techniques were used to monitor changes in viral protein expression in the cell and host protein expression. A total of 1500 host proteins was identified and quantified, of which over 200 proteins were either up- or down-regulated in response to viral infection, such as the up-regulation of the Drosophila apoptotic croquemort protein, and the down-regulation of proteins that inhibited cell death. These analyses also demonstrated the upregulation of viral proteins functioning in replication, inhibition of RNA interference, viral assembly, and RNA encapsidation. Over 1000 unique metabolites were also observed with significant changes in over 30, such as the down-regulated cellular phospholipids possibly reflecting the initial events in cell death and viral release. Overall, the cellular transformation that occurs upon viral infection is a process involving hundreds of proteins and metabolites, many of which are structurally and functionally uncharacterized.
KW - Isotope labeling
KW - Mass spectrometry
KW - Metabolites
KW - Protein regulation
KW - Viral infection
KW - Virus
UR - http://www.scopus.com/inward/record.url?scp=33748302761&partnerID=8YFLogxK
U2 - 10.1021/pr060215t
DO - 10.1021/pr060215t
M3 - Article
C2 - 16944953
AN - SCOPUS:33748302761
SN - 1535-3893
VL - 5
SP - 2405
EP - 2416
JO - Journal of Proteome Research
JF - Journal of Proteome Research
IS - 9
ER -