The Epstein-Barr virus nuclear antigen 2A (EBNA-2A) was immunoprecipitated from latently Epstein-Barr virus-infected lymphocytes with a polyclonal serum raised against the EBNA-2A C terminus. The nucleus contained three subfractions of EBNA-2A which could be distinguished by their resistance to salt extraction: (i) a nucleoplasmatic fraction that was solubilized at 50 mM NaCl, (ii) a chromatin-associated fraction extractable at 1.5 M NaCl, and (iii) a nuclear matrix-associated fraction solubilized only by boiling with buffer containing 2% sodium dodecyl sulfate. The three subfractions were phosphorylated; it was demonstrated that the nucleoplasmatic and the chromatin-associated fractions were phosphorylated at serine and threonine residues. The half-life of the EBNA-2A protein was determined by cycloheximide treatment and by pulse-chase experiments and was found to be at least 24 h. The turnover of the phosphate residues bound to the two saltsoluble subfractions was determined to be approximately 6 to 9 h, suggesting a possible role of the phosphorylation in the regulation of the biological activity of EBNA-2A. Dephosphorylation of EBNA-2A resulted in an increased mobility of the protein during sodium dodecyl sulfate-polyacrylamide gel electrophoresis and indicated the presence of differentially phosphorylated subclasses of the protein. Analysis of EBNA-2A by sucrose gradient centrifugation revealed the existence of two subclasses of complexed molecules which exhibited sedimentation coefficients of approximately 13S and 34S.
The Epstein-Barr virus (EBV) nuclear antigen 2 (EBNA-2) protein is essential for the immortalization of human primary B cells by EBV. EBNA-2 trans-activates cellular and viral genes like CD23, c-fgr, latent membrane protein 1 (LMP1) and terminal protein 1 (TP1). Transactivation of the TP1 promoter and of the BamHI C promoter has already been investigated in detail and appears to be mediated via protein-protein interactions and not by direct binding of EBNA-2 type A (of EBV type l) to the DNA. EBNA-2 is able to trans-activate the expression of the LMP gene in several cell lines. Various reports have delineated the cis-acting elements of the LMP promoter through which EBNA-2 mediates transactivation. To determine whether EBNA-2 also transactivates the LMP promoter by protein-protein interactions, we performed a series of gel retardation assays and competition experiments with LMP promoter fragments of different sizes. We determined that the protein-binding region on the LMP promoter was within a 42 bp fragment encompassing nucleotides -135 to -176 relative to the LMP transcriptional start site. None of the DNA fragments investigated indicated interaction of EBNA-2 with the DNA via proteinprotein interactions. No significant differences between EBNA-2-positive and EBNA-2-negative nuclear extracts could be seen in the gel retardation assay under conditions that clearly showed binding of EBNA-2A to the TP 1 promoter. However, analysis of sucrose gradient fractions in the gel retardation assay provided evidence that the LMP promoter-binding proteins form a complex of higher Mr in EBNA-2-positive cell extracts. These complexes were destroyed by detergent. We deduce from these results that EBNA-2-positive cells might indeed contain specific complexes bound to the LMP promoter which are, however, too labile to be detected in a standard gel retardation assay.
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