@article{d90632764e1b4a40aa7a150161ada49c,
title = "Small nuclear RNAs encoded by Herpesvirus saimiri upregulate the expression of genes linked to T cell activation in virally transformed T cells",
abstract = "Seven small nuclear RNAs of the Sm class are encoded by Herpesvirus saimiri (HVS), a γ Herpesvirus that causes aggressive T cell leukemias and lymphomas in New World primates and efficiently transforms T cells in vitro [1-4]. The Herpesvirus saimiri U RNAs (HSURs) are the most abundant viral transcripts in HVS-transformed, latently infected T cells but are not required for viral replication or transformation in vitro [5]. We have compared marmoset T cells transformed with wild-type or a mutant HVS lacking the most highly conserved HSURs, HSURs 1 and 2. Microarray and Northern analyses reveal that HSUR 1 and 2 expression correlates with significant increases in a small number of host mRNAs, including the T cell-receptor β and γ chains, the T cell and natural killer (NK) cell-surface receptors CD52 and DAP10, and intracellular proteins - SKAP55, granulysin, and NKG7 - linked to T cell and NK cell activation. Upregulation of three of these transcripts was rescued after transduction of deletion-mutant-HVS-transformed cells with a lentiviral vector carrying HSURs 1 and 2. These changes indicate an unexpected role for the HSURs in regulating a remarkably defined and physiologically relevant set of host targets involved in the activation of virally transformed T cells during latency.",
author = "Cook, {Heidi L.} and Lytle, {J. Robin} and Mischo, {Hannah E.} and Li, {Ming Jie} and Rossi, {John J.} and Silva, {Daniel P.} and Desrosiers, {Ronald C.} and Steitz, {Joan A.}",
note = "Funding Information: We give special thanks to George Miller, Alice Telesnitsky, and Steve King for their enthusiasm, advice, and thoughtful discussions throughout this project and to Jens Lykke-Andersen, Nick Conrad, and Shobha Vasudevan for critical review of the manuscript. Expert assistance was provided by Irina Tikhonova and Aiping Lin (Keck Microarray Facility) with the microarrays and biostatistical analyses, by Rocco Carbone (The Yale Cancer Center Flow Cytometry Shared Resource) with FACS, and by Louis Alexander and Elijah Paintsil with use of their real-time sequence detection system. The Keck DNA Microarray Resource at Yale University is supported by the Anna and Argall Hull Fund, the NIH/NIDDK Microarray Biotechnology Center Grant (NIH 5 U24 DK58776; Principal Investigator, Kenneth Williams), the C.C. Swebilius Trust U.W., and the Yale University Department of Pathology. The Yale Cancer Center Flow Cytometry Shared Resource is subsidized by National Cancer Institute grant CA 16359. H.L.C. was a Howard Hughes Medical Institute Predoctoral Fellow, J.R.L. holds a National Research Service Award from the National Institutes of Health (NIH), and J.A.S. is an investigator of the Howard Hughes Medical Institute. This work was supported by grant CA 16038 from the NIH. ",
year = "2005",
month = may,
day = "24",
doi = "10.1016/j.cub.2005.04.034",
language = "English",
volume = "15",
pages = "974--979",
journal = "Current Biology",
issn = "0960-9822",
number = "10",
}