TY - JOUR
T1 - Ribozymes that cleave reovirus genome segment S1 also protect cells from pathogenesis caused by reovirus infection
AU - Shahi, S.
AU - Shanmugasundaram, G. K.
AU - Banerjea, A. C.
PY - 2001/3/27
Y1 - 2001/3/27
N2 - Reovirus genome segment S1 encodes protein σ1, which is the receptor binding protein, modulates tissue tropism, and specifies the nature of the antiviral immune response. It makes up less than 2% of reovirus particles and is synthesized in very small amounts in infected cells. Any antiviral strategy aimed at reducing specifically the expression of this genome segment should, in principle, reduce the infectivity of the virus. To test this hypothesis, we have assembled two hammer-head motif-containing ribozymes (Rzs) targeted to cleave at the conserved B and C domains of the reovirus s1 RNA. Protein-independent but Mg2+-dependent sequence-specific cleavage of s1 RNA was achieved by both the Rzs in trans. Cells that transiently express these Rzs, when challenged with reovirus, were protected against the cytopathic effects caused by the virus. This protection correlated with the specific intracellular reduction of s1 transcripts that was due to their cleavage by the Rzs. Rz-treated cells that were challenged with reovirus showed almost complete disappearance of protein σ1 without significantly altering the levels of the other reovirus structural proteins. Thus, Rzs, besides acting as antiviral agents, could be exploited as biological tools to delineate specific functions of target genes.
AB - Reovirus genome segment S1 encodes protein σ1, which is the receptor binding protein, modulates tissue tropism, and specifies the nature of the antiviral immune response. It makes up less than 2% of reovirus particles and is synthesized in very small amounts in infected cells. Any antiviral strategy aimed at reducing specifically the expression of this genome segment should, in principle, reduce the infectivity of the virus. To test this hypothesis, we have assembled two hammer-head motif-containing ribozymes (Rzs) targeted to cleave at the conserved B and C domains of the reovirus s1 RNA. Protein-independent but Mg2+-dependent sequence-specific cleavage of s1 RNA was achieved by both the Rzs in trans. Cells that transiently express these Rzs, when challenged with reovirus, were protected against the cytopathic effects caused by the virus. This protection correlated with the specific intracellular reduction of s1 transcripts that was due to their cleavage by the Rzs. Rz-treated cells that were challenged with reovirus showed almost complete disappearance of protein σ1 without significantly altering the levels of the other reovirus structural proteins. Thus, Rzs, besides acting as antiviral agents, could be exploited as biological tools to delineate specific functions of target genes.
KW - Gene cleavage
KW - Transcription
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U2 - 10.1073/pnas.051013898
DO - 10.1073/pnas.051013898
M3 - Article
C2 - 11274435
AN - SCOPUS:0035957359
SN - 0027-8424
VL - 98
SP - 4101
EP - 4106
JO - Proceedings of the National Academy of Sciences of the United States of America
JF - Proceedings of the National Academy of Sciences of the United States of America
IS - 7
ER -