2009
DOI: 10.1128/jvi.02321-08
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Protein X of Borna Disease Virus Inhibits Apoptosis and Promotes Viral Persistence in the Central Nervous Systems of Newborn-Infected Rats

Abstract: Borna disease virus (BDV) is a neurotropic member of the order Mononegavirales with noncytolytic replication and obligatory persistence in cultured cells and animals. Here we show that the accessory protein X of BDV represents the first mitochondrion-localized protein of an RNA virus that inhibits rather than promotes apoptosis induction. Rat C6 astroglioma cells persistently infected with wild-type BDV were significantly more resistant to death receptor-dependent and -independent apoptotic stimuli than uninfe… Show more

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Cited by 59 publications
(49 citation statements)
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“…In addition to these most abundant proteins, the BDV genome encodes protein p10 (X), matrix protein p16 (M), glycoprotein p57 (G, gp94 when glycosylated) and RNA polymerase (L) (Walker et al, 2000; reviewed by Lipkin & Briese, 2007;Tomonaga et al, 2002). Polymerase activity is important in the adaptation of BDV to new hosts (Ackermann et al, 2007) and the X protein regulates viral polymerase activity and inhibits apoptosis, being essential for host survival (Poenisch et al, 2009). BDV uniquely limits its genome amplification by trimming the genome, which may favour non-cytolytic virus persistence and evasion of the antiviral host response (Habjan et al, 2008;Schneider et al, 2005).…”
Section: Properties Of Bdvmentioning
confidence: 99%
“…In addition to these most abundant proteins, the BDV genome encodes protein p10 (X), matrix protein p16 (M), glycoprotein p57 (G, gp94 when glycosylated) and RNA polymerase (L) (Walker et al, 2000; reviewed by Lipkin & Briese, 2007;Tomonaga et al, 2002). Polymerase activity is important in the adaptation of BDV to new hosts (Ackermann et al, 2007) and the X protein regulates viral polymerase activity and inhibits apoptosis, being essential for host survival (Poenisch et al, 2009). BDV uniquely limits its genome amplification by trimming the genome, which may favour non-cytolytic virus persistence and evasion of the antiviral host response (Habjan et al, 2008;Schneider et al, 2005).…”
Section: Properties Of Bdvmentioning
confidence: 99%
“…To dissect the mechanism supporting the neuroprotective properties of BDV and to test the role of the X protein in axonal protection, we next compared the protective effects of a recombinant wild-type (wt) BDV (BDV-X wt ) with a recombinant BDV in which the X protein had been mutated to abrogate its mitochondrial localization (BDV-X A6A7 ) 10 . Consistent with the results shown above, infection with BDV-X wt strongly protected against rotenoneinduced axonal fragmentation.…”
Section: Bdv Protects From Rotenone-induced Axonal Fragmentationmentioning
confidence: 99%
“…This non-structural protein was initially described as an important regulator of viral RNA synthesis and of polymerase complex assembly in the nucleus of infected cells [11][12][13] . Later, it was shown that X represents the first mitochondrion-localized protein of an RNA virus that inhibits rather than promotes induction of apoptosis, thereby favouring non-cytolytic viral persistence 10 and escape to mitochondrial antiviral signalling protein-mediated host cell defence 14 . It was therefore tempting to investigate whether the X protein could protect neurons against neurodegenerative insults.…”
mentioning
confidence: 99%
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“…X accumulates in the nucleus of infected cells, where it regulates the activity of the viral polymerase complex through interactions with the viral P protein (Poenisch et al, 2004;Schwardt et al, 2005;Wolff et al, 2000). A fraction of X associates with mitochondria and suppresses virus-induced apoptosis of infected cells (Poenisch et al, 2009). The X protein is mainly synthesized from a 0.8 kb mRNA that contains three overlapping open reading frames.…”
mentioning
confidence: 99%