Hepatitis C Virus Internal Ribosome Entry Site-mediated Translation Is Stimulated by Specific Interaction of Independent Regions of Human La Autoantigen

Pudi, Renuka; Abhiman, Saraswathi; Srinivasan, Narayanaswamy; Das, Saumitra

doi:10.1074/jbc.m210287200

Cited by 74 publications

(99 citation statements)

References 62 publications

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“…Many of the viral RNAs interacting with La protein also contain a close match or exact CACAA sequence (Ali et al, 2000). For example, La protein interacts with the HCV 59 NCR with a GCAC sequence (Pudi et al, 2003). The toe-printing experiments described here indicated that La protein interacted with sequence ACA (nt 10929-10931) in loop I of the JEV 39 SL RNA, whilst it bound to sequence AAG (nt 10940-10942) in loop II.…”

Section: Discussionmentioning

confidence: 93%

“…La protein contains three RRMs: RRM1 and RRM2 are located in the N-terminal half of the protein, whilst RRM3 is located in the C-terminal half. The N-terminal domain of La protein has been shown to interact with the poliovirus 59 NCR (Izumi et al, 2004;Svitkin et al, 1994), whilst the C-terminal domain interacts with the HCV 59 NCR in vitro (Ali et al, 2000); however, both Nand C-terminal halves are able to interact with the viral RNA independently in vivo (Pudi et al, 2003). We have shown that La protein interaction with the JEV 39 NCR involves its N-terminal half only.…”

Section: Discussionmentioning

confidence: 93%

“…Escherichia coli plasmids expressing human La protein or its truncated forms under the control of the bacteriophage T7 promoter were kindly provided by Dr S. Das, The Indian Institute of Science, Bangalore, India (Pudi et al, 2003). The recombinant protein was expressed in E. coli BL21(DE3) cells and purified using Ni-NTA agarose (Qiagen).…”

Section: Methodsmentioning

confidence: 99%

“…Construction of pJE3SL, containing cDNA for JEV 39 SL RNA, has been described previously (Ta & Vrati, 2000). The plasmid was linearized with XbaI and transcribed in vitro using T7 DNA polymerase by using the Riboprobe system (Promega) to produce 32 P-labelled JEV 39 SL RNA (Ta & Vrati, 2000).Synthesis of recombinant La protein and its truncated forms.Escherichia coli plasmids expressing human La protein or its truncated forms under the control of the bacteriophage T7 promoter were kindly provided by Dr S. Das, The Indian Institute of Science, Bangalore, India (Pudi et al, 2003). The recombinant protein was expressed in E. coli BL21(DE3) cells and purified using Ni-NTA agarose (Qiagen).…”

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confidence: 99%

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La protein binds the predicted loop structures in the 3′ non-coding region of Japanese encephalitis virus genome: role in virus replication

Vashist

Anantpadma

Sharma

et al. 2009

Journal of General Virology

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Japanese encephalitis virus (JEV) genome is a single-stranded, positive-sense RNA with noncoding regions (NCRs) of 95 and 585 bases at its 59 and 39 ends, respectively. These may bind to viral or host proteins important for viral replication. It has been shown previously that three proteins of 32, 35 and 50 kDa bind the 39 stem-loop (SL) structure of the JEV 39 NCR, and one of these was identified as 36 kDa Mov34 protein. Using electrophoretic mobility-shift and UV cross-linking assays, as well as a yeast three-hybrid system, it was shown here that La protein binds to the 39 SL of JEV. The binding was stable under high-salt conditions (300 mM KCl) and the affinity of the RNA-protein interaction was high; the dissociation constant (K d ) for binding of La protein to the 39 SL was 12 nM, indicating that this RNA-protein interaction is physiologically plausible. Only the N-terminal half of La protein containing RNA recognition motifs 1 and 2 interacted with JEV RNA. An RNA toe-printing assay followed by deletion mutagenesis showed that La protein bound to predicted loop structures in the 39 SL RNA. Furthermore, it was shown that small interfering RNA-mediated downregulation of La protein resulted in repression of JEV replication in cultured cells. INTRODUCTIONJapanese encephalitis virus (JEV) is the single most important causative agent of epidemic viral encephalitis in South-East Asia, leading to around 50 000 clinical cases annually with up to 10 000 deaths. JEV is a mosquito-borne virus belonging to the animal virus family Flaviviridae. The JEV genome consists of a single-stranded, positive-sense RNA of~11 kb, having a type I cap with no polyadenylation at the 39 end. The genomic RNA contains a single open reading frame (ORF) encoding a polyprotein of~3400 aa. The polyprotein is subsequently cleaved by viral and host proteases into three structural (capsid, pre-M and envelope) and seven non-structural (NS1, NS2A, NS2B, NS3, NS4A, NS4B and NS5) proteins. The ORF of the JEV genome is flanked by 59 and 39 non-coding regions (NCRs) of 95 and 585 bases, respectively (Chambers et al., 1990). Although the size and sequence of the NCRs is not well conserved among different flaviviruses, several conserved features and secondary structures have been elucidated. For example, the last 80-90 nt at the extreme 39 end of the 39 NCR have been predicted to form a stable stem-loop (SL) structure in different flaviviruses (Brinton et al., 1986;Shi et al., 1996;Takegami et al., 1986). Whilst the size and shape of the 39 SL structure is highly conserved, sequence conservation is restricted to its loop regions and to 27 nt immediately upstream of the structure. The conservation of this location and the RNA structure in the NCRs of flaviviruses indicates their functional significance.The positive-sense genomic RNA is converted to a replication-intermediate negative-sense RNA during the course of flavivirus replication, as with other positive-sense RNA viruses. The negative-sense RNA acts as template for the synthesis of positive-sense...

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Section: Discussionmentioning

confidence: 93%

Section: Discussionmentioning

confidence: 93%

Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 99%

See 2 more Smart Citations

La protein binds the predicted loop structures in the 3′ non-coding region of Japanese encephalitis virus genome: role in virus replication

Vashist

Anantpadma

Sharma

et al. 2009

Journal of General Virology

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“…Since the mechanism of ribosome assembly is unique and fundamentally different from the cap-dependent translation of the host cell mRNA, it can be targeted to selectively inhibit viral protein synthesis and consequently its replication (Dasgupta et al, 2004;Hellen & Sarnow, 2001;Trowbridge & Gowans, 1998). Previously, we have demonstrated the importance of the GCAC sequence near the iAUG for ribosome assembly onto HCV IRES RNA (Pudi et al, 2003(Pudi et al, , 2005. In fact, human La protein (an important host factor) has been shown to bind to the above sites and a peptide derived from the RNA-binding region of La protein has been shown to interfere with the ribosome assembly and inhibit viral RNA translation (Ali et al, 2000;Mondal et al, 2008;Pudi et al, 2004Pudi et al, , 2005.…”

Section: Introductionmentioning

confidence: 99%

Targeted delivery of hepatitis C virus-specific short hairpin RNA in mouse liver using Sendai virosomes

Subramanian

Mani

Roy

et al. 2009

Journal of General Virology

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Internal ribosome entry site (IRES)-mediated translation of input viral RNA is the initial required step for the replication of the positive-stranded genome of hepatitis C virus (HCV). We have shown previously the importance of the GCAC sequence near the initiator AUG within the stem and loop IV (SLIV) region in mediating ribosome assembly on HCV RNA. Here, we demonstrate selective inhibition of HCV-IRES-mediated translation using short hairpin (sh)RNA targeting the same site within the HCV IRES. sh-SLIV showed significant inhibition of viral RNA replication in a human hepatocellular carcinoma (Huh7) cell line harbouring a HCV monocistronic replicon. More importantly, co-transfection of infectious HCV-H77s RNA and sh-SLIV in Huh7.5 cells successfully demonstrated a significant decrease in viral RNA in HCV cell culture. Additionally, we report, for the first time, the targeted delivery of sh-SLIV RNA into mice liver using Sendai virosomes and demonstrate selective inhibition of HCV-IRES-mediated translation. Results provide the proof of concept that Sendai virosomes could be used for the efficient delivery of shRNAs into liver tissue to block HCV replication.

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Identification and Characterization of RNA‐binding Proteins through Three‐hybrid Analysis

Scott

Engelke

2005

Handbook of RNA Biochemistry

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Hepatitis C Virus Internal Ribosome Entry Site-mediated Translation Is Stimulated by Specific Interaction of Independent Regions of Human La Autoantigen

Cited by 74 publications

References 62 publications

La protein binds the predicted loop structures in the 3′ non-coding region of Japanese encephalitis virus genome: role in virus replication

La protein binds the predicted loop structures in the 3′ non-coding region of Japanese encephalitis virus genome: role in virus replication

Targeted delivery of hepatitis C virus-specific short hairpin RNA in mouse liver using Sendai virosomes

Identification and Characterization of RNA‐binding Proteins through Three‐hybrid Analysis

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