A few years ago, reactivation of human endogenous retrovirus K (HERV-K) proviruses in melanoma was described. The expression of HERV-K proteins induces humoral immune responses. The aim of the present study was to elucidate the prognostic relevance of serological anti-HERV-K reactivity in melanoma patients. In a retrospective study, anti-HERV-K Gag and Env antibodies were detected in 51 of the 312 randomly selected and blinded sera from melanoma patients, but not in any of the 70 sera from healthy controls. Comparing serological HERV-K reactivity with established melanoma markers revealed a significant correlation (p = 0.018, Chi-square test) with the stage of disease classified according to the American Joint Committee on Cancer (AJCC). Anti-HERV-K reactivity was elevated in patients with acrolentiginous/mucosal/uveal melanoma (tumor subtypes developing at sun-protected sites) compared to patients with lentigo/nodular/superficial spreading melanoma (p = 0.011, Chi-square test). Patients with anti-HERV-K antibodies had a significantly decreased disease-specific overall survival (stage I-IV, p < 0.001; stage I-III, p = 0.005, log-rank test). Significantly, multivariate Cox regression analysis including prognostic markers in clinical use (e.g., AJCC stage, T-class, serum level of S100-beta) revealed serological HERV-K reactivity as an independent marker of reduced survival probability (p = 0.027) in melanoma patients with the early stages of the disease (AJCC I-III). This is the first report that the humoral anti-HERV-K immune response may provide additional prognostic information to that of established melanoma markers.
It was recently reported that the human endogenous retrovirus HTDV/HERV-K encodes the regulatory protein Rec (formerly designated Corf), which is functionally equivalent to the nuclear export adapter proteins Rev of human immunodeficiency virus and Rex of human T-cell leukemia virus. We have demonstrated that the Rec protein interacts with a characteristic 429-nucleotide RNA element, the Rec-responsive element (RcRE), present in the 3 long terminal repeat of HTDV/HERV-K transcripts. In analogy to the Rev and Rex proteins, which have distinct RNA binding sites in their responsive elements, we have proposed that Rec may also have a defined binding site in the RcRE. In this report, we demonstrate that not every HTDV/HERV-K copy present in the human genome contains an active RcRE, and we characterize mutations that abrogate Rec function. In addition, we demonstrate that Rec function requires binding to a complex, folded RNA structure rather than binding to a discrete specific binding site, in contrast to Rev and Rex and their homologous responsive elements. We define four stem-loop structures in the RcRE that are essential for Rec function. Finally, we demonstrate that both Rev and Rex can mediate nuclear export through the RcRE but that their binding sites are different from each other and from that of Rec.HTDV/HERV-K is a human endogenous retrovirus present in about 50 copies in the human genome. In addition, about 10,000 solitary long terminal repeats (LTRs) exist. HTDV/ HERV-K elements are genetic footprints of germ line infection with an exogenous predecessor almost 30 million years ago. Like all other retroviruses, HTDV/HERV-K needs to export partially spliced and unspliced mRNAs from the cell nucleus during its life cycle. Retroviruses have developed different systems to circumvent the splicing machinery of the cell by enhanced nuclear export of viral mRNA. Simply structured retroviruses, such as the D-type viruses, contain a constitutive transport element (4,8), an RNA element that directly interacts with the cellular TAP protein (12), an export receptor involved in the nuclear export of cellular mRNA molecules. Recently, it was reported that Rous sarcoma virus, which contains an element like the constitutive transport element, uses a cellular export factor distinct from TAP (26).Complex viruses, such as human immunodeficiency virus (HIV) and human T-cell leukemia virus, contain genes encoding a regulatory protein (Rev in HIV and Rex in human T-cell leukemia virus) translated from completely spliced mRNAs that are exported from the nucleus by the regular mRNA export pathway (for reviews, see references 5, 25, and 29). Rev and Rex shuttle into the nucleus and bind as multimers to their responsive elements (Rev-responsive element [RRE] and Rexresponsive element [RxRE]) present in the respective primary viral transcripts. In a second step, they recruit the cellular export receptor exportin 1 (10,11,24) to mediate the export of unspliced and incompletely spliced viral transcripts, thus competing with the splici...
PII‐like signalling molecules are trimeric proteins composed of 12–13 kDa polypeptides encoded by the glnB gene family. Heterologous expression of a cyanobacterial glnB gene in Escherichia coli leads to an inactivation of E. coli's own PII signalling system. In the present work, we show that this effect is caused by the formation of functionally inactive heterotrimers between the cyanobacterial glnB gene product and the E. coli PII paralogues GlnB and GlnK. This led to the discovery that GlnK and GlnB of E. coli also form heterotrimers with each other. The influence of the oligomerization partner on the function of the single subunit was studied using heterotrimerization with the Synechococcus PII protein. Uridylylation of GlnB and GlnK was less efficient but still possible within these heterotrimers. In contrast, the ability of GlnB‐UMP to stimulate the adenylyl‐removing activity of GlnE (glutamine synthetase adenylyltransferase/removase) was almost completely abolished, confirming that rapid deadenylylation of glutamine synthetase upon nitrogen stepdown requires functional homotrimeric GlnB protein. Remarkably, however, rapid adenylylation of glutamine synthetase upon exposing nitrogen‐starved cells to ammonium was shown to occur in the absence of a functional GlnB/GlnK signalling system as efficiently as in its presence.
We report the synthesis of a new nucleoside, 1-(2-deoxy-beta-D-erythro-pentofuranosyl)-imidazole-4-hydrazide (dY(NH2)) as a reactive monomer for DNA diversification. The 5'-triphosphate derivative (dY(NH2)TP, 1) was evaluated in vitro as a substrate for several DNA polymerases. Primer extension reactions showed that dYNH2TP was well tolerated by KF (exo(-)) and Vent (exo-) DNA polymerases. One dYNH2MP was incorporated opposite each canonical base with an efficiency depending on the template base (A approximately T > G > C). Significant elongation after YNH2 incorporation was observed independently of the YNH2:N base pair formed. When the nucleobase YNH2 was incorporated into synthetic oligodeoxynucleotides via the phosphoramidite derivative 11, it directed the insertion of natural bases as well as itself. The mutagenicity of dYNH2TP was evaluated by PCR amplification using Vent (exo-) DNA polymerase. The triphosphate dY(NH2)TP was preferentially incorporated as a dATP or dGTP analogue and led to misincorporations at frequencies of approximately 2 x 10(-2) per base per amplification. A high proportion of transversions with a large distribution of all possible mutations was obtained. The reactivity of the nucleobase YNH2 within a template with several aldehydes was demonstrated.
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