RNF12 Activates Xist and Is Essential for X Chromosome Inactivation

In somatic cells of female placental mammals, one of the two X chromosomes is transcriptionally silenced to accomplish an equal dose of X-encoded gene products in males and females. Initiation of random X chromosome inactivation (XCI) is thought to be regulated by X-encoded activators and autosomally encoded suppressors controlling Xist. Spreading of Xist RNA leads to silencing of the X chromosome in cis. Here, we demonstrate that the dose dependent X-encoded XCI activator RNF12/RLIM acts in trans and activates Xist. We did not find evidence for RNF12-mediated regulation of XCI through Tsix or the Xist intron 1 region, which are both known to be involved in inhibition of Xist. In addition, we found that Xist intron 1, which contains a pluripotency factor binding site, is not required for suppression of Xist in undifferentiated ES cells. Analysis of female Rnf12−/− knockout ES cells showed that RNF12 is essential for initiation of XCI and is mainly involved in the regulation of Xist. We conclude that RNF12 is an indispensable factor in up-regulation of Xist transcription, thereby leading to initiation of random XCI

IL-1β, IL-6, and RANTES as Biomarkers of Chikungunya Severity

Little is known about the immunopathogenesis of Chikungunya virus. Circulating levels of immune mediators and growth factors were analyzed from patients infected during the first Singaporean Chikungunya fever outbreak in early 2008 to establish biomarkers associated with infection and/or disease severity.Adult patients with laboratory-confirmed Chikungunya fever infection, who were referred to the Communicable Disease Centre/Tan Tock Seng Hospital during the period from January to February 2008, were included in this retrospective study. Plasma fractions were analyzed using a multiplex-microbead immunoassay. Among the patients, the most common clinical features were fever (100%), arthralgia (90%), rash (50%) and conjunctivitis (40%). Profiles of 30 cytokines, chemokines, and growth factors were able to discriminate the clinical forms of Chikungunya from healthy controls, with patients classified as non-severe and severe disease. Levels of 8 plasma cytokines and 4 growth factors were significantly elevated. Statistical analysis showed that an increase in IL-1beta, IL-6 and a decrease in RANTES were associated with disease severity.This is the first comprehensive report on the production of cytokines, chemokines, and growth factors during acute Chikungunya virus infection. Using these biomarkers, we were able to distinguish between mild disease and more severe forms of Chikungunya fever, thus enabling the identification of patients with poor prognosis and monitoring of the disease

TIN2 Stability Is Regulated by the E3 Ligase Siah2

Telomeres are coated by shelterin, a six-subunit complex that is required for protection and replication of chromosome ends. The central subunit TIN2, with binding sites to three subunits (TRF1, TRF2, and TPP1), is essential for stability and function of the complex. Here we show that TIN2 stability is regulated by the E3 ligase Siah2. We demonstrate that TIN2 binds to Siah2 and is ubiquitylated in vivo. We show using purified proteins that Siah2 acts as an E3 ligase to directly ubiquitylate TIN2 in vitro. Depletion of Siah2 led to stabilization of TIN2 protein, indicating that Siah2 regulates TIN2 protein levels in vivo. Overexpression of Siah2 in human cells led to loss of TIN2 at telomeres that was dependent on the presence of the catalytic RING domain of Siah2. In contrast to RNAi-mediated depletion of TIN2 that led to loss of TRF1 and TRF2 at telomeres, Siah2-mediated depletion of TIN2 allowed TRF1 and TRF2 to remain on telomeres, indicating a different fate for shelterin subunits when TIN2 is depleted posttranslationally. TPP1 was lost from telomeres, although its protein level was not reduced. We speculate that Siah2-mediated removal of TIN2 may allow dynamic remodeling of the shelterin complex and its associated factors during the cell cycle

The E3 ubiquitin ligase Rnf8 stabilizes Tpp1 to promote telomere end protection

The mammalian shelterin component TPP1 has essential roles in telomere maintenance and, together with POT1, is required for the repression of DNA damage signaling at telomeres. Here we show that in Mus musculus, the E3 ubiquitin ligase Rnf8 localizes to uncapped telomeres and promotes the accumulation of DNA damage proteins 53Bp1 and γ-H 2ax. In the absence of Rnf8, Tpp1 is unstable, resulting in telomere shortening and chromosome fusions through the alternative nonhomologous end-joining (A-NHEJ) repair pathway. The Rnf8 RING-finger domain is essential for Tpp1 stability and retention at telomeres. Rnf8 physically interacts with Tpp1 to generate Ubc13-dependent Lys63 polyubiquitin chains that stabilize Tpp1 at telomeres. The conserved Tpp1 residue Lys233 is important for Rnf8-mediated Tpp1 ubiquitylation and localization to telomeres. Thus, Tpp1 is a newly identified substrate for Rnf8, indicating a previously unrecognized role for Rnf8 in telomere end protection. © 2011 Nature America, Inc. All rights reserved.link_to_subscribed_fulltex