A Proteomic Approach To Identify Candidate Substrates of Human Adenovirus E4orf6-E1B55K and Other Viral Cullin-Based E3 Ubiquitin Ligases

It has been known for some time that the human adenovirus serotype 5 (Ad5) E4orf6 and E1B55K proteins work in concert to degrade p53 and to regulate selective export of late viral mRNAs during productive infection. Both of these functions rely on the formation by the Ad5 E4orf6 protein of a cullin 5-based E3 ubiquitin ligase complex containing elongins B and C. E1B55K is believed to function as the substrate recognition module for the complex and, in addition to p53, Mre11 and DNA ligase IV have also been identified as substrates. To discover additional substrates we have taken a proteomic approach by using two-dimensional difference gel electrophoresis to detect cellular proteins that decrease significantly in amount in p53-null H1299 human lung carcinoma cells after expression of E1B55K and E4orf6 using adenovirus vectors. Several species were detected and identified by mass spectroscopy, and for one of these, integrin α3, we went on in a parallel study to confirm it as a bone fide substrate of the complex (F. Dallaire et al., J. Virol. 83:5329-5338, 2009). Although the system has some limitations, it may still be of some general use in identifying candidate substrates of any viral cullin-based E3 ubiquitin ligase complex, and we suggest a series of criteria for substrate validation.During the past decade protein degradation has become increasingly recognized as a critical mechanism by which cells regulate a number of fundamental processes (reviewed in references 37, 57, and 59). Degradation frequently involves one of a variety of E3 ubiquitin ligase complexes in which a substrate recognition component introduces the target protein for ubiquitination and subsequent degradation by proteasomes (reviewed in reference 59). Several types of these complexes involve a member of the cullin family (reviewed in reference 59), and a considerable amount of information is known about those containing Cul2 or Cul5. In these cases the substrate recognition module is linked via elongins B and C to a subcomplex containing Cul2 or Cul5 and the RING protein Rbx1 (34, 58). This complex interacts with an E2 conjugating enzyme, often either Cdc34 or Ubc5, to conjugate ubiquitin chains to the substrate (44). With both Cul2- and Cul5-based complexes interaction with elongins B and C occurs via a single BC box sequence (42). The presence of either Cul2 or Cul5 is generally determined through the presence in the substrate recognition protein of specific Cul2- or Cul5-box sequences (35).Many viruses have evolved to encode products that inhibit cellular E3 ligases to protect important viral or cellular species or, in some cases, that highjack these cellular complexes to target key substrates for degradation, including components of cellular host defenses, to facilitate the infectious cycle (reviewed in reference 4). These strategies are quite common among the small DNA tumor viruses (7), and one of the most studied examples is the complex formed by the human adenovirus E4orf6 and E1B55K proteins. These proteins have been known for some time to interact (69) and to reduce the levels of the p53 tumor suppressor in infected cells (14, 47, 48, 62, 72, 73). In addition, they were shown to function in concert to block nuclear export of cellular mRNAs late in infection (2, 6, 29, 60) and to enhance the selective export of late viral mRNAs (2, 26, 29, 60, 78). Our group showed that the human adenovirus serotype 5 (Ad5) E4orf6 product interacts with several proteins (13), including components of what was at the time a unique Cul5-based E3 ubiquitin ligase containing elongins B and C and Rbx1 that degrades p53 (61). Curiously, Ad5 E4orf6 contains three BC boxes that we believe make it highly efficient in highjacking cellular elongin B/C complexes (8, 17, 41). The mechanism of selective recruitment of Cul5 by the Ad5 complex remains unknown as E4orf6 lacks a Cul5-box (17, 41). E1B55K seems to function as the substrate recognition module and, of considerable interest, both its association with E4orf6 and induction of selective late viral mRNA transport was found to depend on formation of the E3 ubiquitin ligase complex, suggesting that additional degradation substrates must exist (8, 9). This idea is not surprising since viruses, especially the small DNA tumor viruses, often evolve gene products that target multiple critical cellular pathways (32). In fact two additional E1B55K-binding substrates have now been identified, Mre11 from the MRN DNA repair complex (8, 75), and DNA ligase IV (3), the degradation of which prevent formation of viral genome concatemers, thus enhancing packaging of progeny DNA. Degradation of p53 has been suggested to promote enhanced progeny virus production by preventing the early apoptotic death of infected cells due to the stabilization of p53 by the viral E1A products (reviewed in reference 66). Nevertheless, degradation of these substrates seems unlikely to explain the observed effects on mRNA transport, suggesting that still more substrates remain to be identified. Although the studies described in the present report were in part launched to identify such substrates, as will become clear below, these targets remain to be identified.In an attempt to identify new substrates of the Ad5 E4orf6/E1B55K E3 ubiquitin ligase complex, a proteomics-based approach was initiated involving two-dimensional difference gel electrophoresis (2D-DIGE) analysis and subsequent mass spectrometry. As is well known, this technique has the advantage of improved sensitivity and accuracy provided by its ability to separate samples under two different conditions on a single gel together with a reference sample, thus reducing significantly the analytical coefficient of variation. It allows the quantification of differentially abundant proteins in complex biological samples, providing a tool to detect decreases in the levels of proteins in the cell due to targeted proteolytic degradation. We report here our attempts to identify substrates of the Ad5 E4orf6/E1B55K complex by comparing the proteomes of human non-small cell lung carcinoma H1299 cells expressing, by means of adenovirus vectors, both E1B55K and E4orf6 proteins or E4orf6 protein alone. Ten candidate proteins were identified, most having functions seemingly unrelated to our current understanding of the roles of the E4orf6/E1B55K complex. At least three showed promising features characteristic of substrates, and one has now been confirmed in a parallel study to be a bone fide E4orf6/E1B55K substrate (20). We suggest that this approach could be utilized to identify candidate substrates, among relatively high abundance proteins, that are degraded by other viral cullin-based E3 ubiquitin ligase complexes.     

Broad Neutralization of Human Immunodeficiency Virus Type 1 (HIV-1) Elicited from Human Rhinoviruses That Display the HIV-1 gp41 ELDKWA Epitope

In efforts to develop AIDS vaccine components, we generated combinatorial libraries of recombinant human rhinoviruses that display the well-conserved ELDKWA epitope of the membrane-proximal external region of human immunodeficiency virus type 1 (HIV-1) gp41. The broadly neutralizing human monoclonal antibody 2F5 was used to select for viruses whose ELDKWA conformations resemble those of HIV. Immunization of guinea pigs with different chimeras, some boosted with ELDKWA-based peptides, elicited antibodies capable of neutralizing HIV-1 pseudoviruses of diverse subtypes and coreceptor usages. These recombinant immunogens are the first reported that elicit broad, albeit modest, neutralization of HIV-1 using an ELDKWA-based epitope and are among the few reported that elicit broad neutralization directed against any recombinant HIV epitope, providing a critical advance in developing effective AIDS vaccine components.The development of an AIDS vaccine is an ongoing and urgent challenge. One of the major hurdles is that the specific correlates of protection against human immunodeficiency virus (HIV) are still largely unknown. Nonetheless, most agree that the full complement of cellular and humoral components of the immune system will be needed to combat this virus. This is especially true given that the virus resides permanently in its host, infects the very cells needed to direct effective immune responses, and evades the immune system, either by changing in appearance or hiding in subcellular compartments.A broadly reactive neutralizing antibody response is likely to be critical as a first line of defense upon initial HIV exposure by aiding in the clearance of cell-free virions, targeting infected cells for destruction, and preventing viral spread through cell-to-cell transmission. The presence of inhibitory antibodies in highly exposed persistently seronegative individuals testifies to the importance of the humoral response (9, 37). Additionally, broadly neutralizing serum has been associated with healthier prognoses for infected individuals (27, 65) and may be vital for protecting offspring from their infected mothers (7, 79) and preventing superinfection by heterologous HIV strains (23, 84). Even if complete protection cannot be achieved by vaccine-derived antibodies, an early, well-poised and effective neutralizing antibody repertoire may be able to lower the set point of the viral load following the initial burst of viremia, an outcome that has been reported to translate into improved disease outcomes and reduced transmission of HIV (66, 74). Further benefits of neutralizing antibodies have been seen with passive immunization studies in macaques, in which administration of broadly neutralizing monoclonal antibodies (MAbs) has demonstrated that it is possible to provide protection from—and even sterilizing immunity against—HIV infection (5, 51, 66). There is also evidence that such antibodies may provide therapeutic benefits for chronically infected individuals, analogous to benefits realized with anti-HIV drug treatment regimens (87).Despite the promising potential of broadly neutralizing MAbs, designing immunogens that can elicit such cross-reactive neutralizing responses against HIV has been a surprisingly difficult task. Since the majority of the host''s B-cell response is directed against the envelope (Env) glycoproteins, gp120 and gp41, vaccine efforts have concentrated on these proteins and derivatives thereof in approaches ranging from the use of Env-based peptide cocktails to recombinant proteins and DNAs made with varied or consensus sequences and diverse, heterologous prime/protein boost regimens (reviewed in references 36, 58, and 70). These iterative studies have shown notable improvements in the potency and breadth of neutralizing responses induced. However, concerns exist regarding immunogens containing extraneous epitopes, as is the case with intact subunits of Env, and the nature of the immune responses they may elicit. A polyclonal burst of antibodies against a multitude of nonfunctional epitopes may include a predominance of antibodies that are (i) low affinity and/or nonfunctional (reviewed in reference 72); (ii) isolate specific (25); (iii) able to interfere with the neutralizing capabilities of otherwise-effective antibodies (via steric hindrance or by inducing various forms of B-cell pathology) (67); or (iv) directed against irrelevant epitopes instead of more conserved (and sometimes concealed) epitopes that might be able to elicit more potent and cross-reactive neutralizing responses (28, 71, 91).We have developed a system that can be used to present essentially any chosen epitope in a stable, well-exposed manner on the surface of the cold-causing human rhinovirus (HRV). HRV is itself a powerful immunogen and is able to elicit T-cell as well as serum and mucosal B-cell responses (reviewed by Couch [22]) and has minimal immunologic similarity to HIV (data not shown). Chimeric viruses displaying optimal epitopes should be able to serve as valuable components in an effective vaccine cocktail or as part of a heterologous prime/boost protocol. We have shown previously that HRV chimeric viruses displaying HIV-1 gp120 V3 loop sequences are able to elicit neutralizing responses against HIV-1 (75, 82, 83).In this study, we focused our attention on presenting part of the membrane-proximal external region (MPER) of the transmembrane glycoprotein gp41, a region of approximately 30 amino acids adjacent to the transmembrane domain (reviewed in references 59 and 97). The MPER plays an important role in the process of HIV fusion to the host cell membrane (60, 78). This region is also involved in binding to galactosylceramide, an important component of cell membranes, thus permitting CD4-independent transcytosis of the virus across epithelial cells at mucosal surfaces (1, 2). These functions likely explain this region''s sequence conservation and the efficacy of antibodies directed against the MPER (97), particularly given that an estimated 80% of HIV-1 infections are sexually transmitted at mucosal membranes. In fact, potent responses against the MPER are associated with stronger and broader neutralizing capabilities in infected individuals (68). A conserved, contiguous sequence of the MPER, the ELDKWA epitope (HIV-1 HxB2 gp41 residues 662 to 668), is recognized by the particularly broadly neutralizing human MAb 2F5 (11, 62, 85) and is highly resistant to escape mutation in the presence of 2F5 (49). 2F5 was also used in the MAb cocktails reported to confer passive, protective immunity in macaques (5, 51). In addition, infected individuals producing neutralizing antibodies directed against the ELDKWA epitope have been seen to exhibit better health (16, 29), including persistent seronegativity (8), and reduced transmission of HIV to offspring (89). While none of the vaccine-induced immune responses generated against this region has been effective thus far (19, 24, 26, 33, 35, 38, 40, 42, 44-48, 50, 53, 54, 56, 57, 61, 63, 69, 93, 96) (see Table S1 in the supplemental material), more appropriate presentations of MPER epitopes should produce valuable immunogens that can contribute to a successful vaccine.In this study, we have grafted the ELDKWA epitope onto a surface loop of HRV connected via linkers of variable lengths and sequences and selected for viruses well recognized and neutralized by MAb 2F5. In so doing, we have been able to create immunogens capable of eliciting antibodies whose activities mimic some of those of 2F5. The combinatorial libraries produced were designed to encode a large set of possible sequences and, hence, structures from which we could search for valuable conformations. This work illustrates that HRV chimeras have the potential to present selected HIV epitopes in a focused and immunogenic manner.     

Design,synthesis, and binding affinities of potential positron emission tomography (PET) ligands with optimal lipophilicity for brain imaging of the dopamine D3 receptor. Part II

In the search for compounds with potential for development as positron emission tomography radioligands for brain D₃ receptor imaging, a series of N-[4-(4-arylpiperazin-1-yl)butyl]arylcarboxamides with appropriate lipophilicity (2 < log P < 3.5) were synthesized and tested in vitro. Some of the final compounds showed moderate-to-high dopamine D₃ receptor affinities but lacked selectivity over D₂ receptors.     

5-Nitrofuranes and 5-nitrothiophenes with anti-Trypanosoma cruzi activity and ability to accumulate squalene

Chagas disease represents a serious public health problem in South America. The first line of treatment is Nifurtimox and Benznidazole which generate toxic effects in treated patients. We have recently shown that a number of 5-nitrofuranes possess activity against Trypanosoma cruzi through oxidative stress and inhibition of parasite ergosterol biosynthesis, specifically at the level of squalene epoxidase. Here, we identify new 5-nitrofuranes and the thia-analogues with excellent effects on the viability of T. cruzi and adequate parasite/mammal selectivity indexes. Analysis of the free sterols from parasite incubated, during 120 h, with the compounds showed that some of them accumulated squalene suggesting the squalene epoxidase activity inhibition of the parasite. Nifurtimox was able to accumulate squalene only at lower incubation times. Due to this fact some derivatives were also tested as antifungal agents. Quantitative structure–activity relationship studies were also performed showing relevant features for further new derivatives design. Taken together, the results obtained in the present work point to a more general effect of 5-nitrofuranes and 5-nitrothiophenes in trypanosomatids, opening potential therapeutic possibilities of them for these infectious diseases.     

Simulated microgravity induce glutathione antioxidant pathwayin Xenopus laevis embryos

Space flights cause a number of patho-physiological changes. Oxidative damage has been demonstrated in astronauts after space flights. Oxidative stress is due to an imbalance between production of oxidant and antioxidative defence. In embryos of Xenopus laevis, the glutathione system is an inducible antioxidant defence. For this reason, we investigated the effect of gravity deprivation on endogenous antioxidant enzymes in X. laevis embryos developed for 6 days in a Random Positioning Machine. The results show that glutathione content and the activity of antioxidant enzymes increase in RPM embryos, suggesting the presence of a protective mechanism. An induction of antioxidant defence might play an important role for animals to adapt to micro-gravitational stress, possibly during actual space flights.     

Translation initiation complex formation in the crenarchaeon Sulfolobus solfataricus

The function of initiation factors in and the sequence of events during translation initiation have been intensively studied in Bacteria and Eukaryotes, whereas in Archaea knowledge on these functions/processes is limited. By employing chemical probing, we show that translation initiation factor aIF1 of the model crenarchaeon Sulfolobus solfataricus binds to the same area on the ribosome as the bacterial and eukaryal orthologs. Fluorescence energy transfer assays (FRET) showed that aIF1, like its eukaryotic and bacterial orthologs, has a fidelity function in translation initiation complex formation, and that both aIF1 and aIF1A exert a synergistic effect in stimulating ribosomal association of the Met-tRNAi^Met binding factor a/eIF2. However, as in Eukaryotes their effect on a/eIF2 binding appears to be indirect. Moreover, FRET was used to analyze for the first time the sequence of events toward translation initiation complex formation in an archaeal model system. These studies suggested that a/eIF2-GTP binds first to the ribosome and then recruits Met-tRNAi^Met, which appears to comply with the operational mode of bacterial IF2, and deviates from the shuttle function of the eukaryotic counterpart eIF2. Thus, despite the resemblance of eIF2 and a/eIF2, recruitment of initiator tRNA to the ribosome is mechanistically different in Pro- and Eukaryotes.     

Further study on Ascogregarina culicis in temperate Argentina: Prevalence and intensity in Aedes aegypti larvae and pupae

The bionomics of South American strains of Ascogregarina spp. are poorly known and the first studies were performed a few years ago. Our main objective was to characterize Ascogregarina culicis population in Aedes aegypti immatures in temperate Argentina. A total of 1800 water-filled containers were inspected within a cemetery of Buenos Aires City through a reproductive period of the host (October 2006-June 2007). The parasite was detected in 16.7% (329/1974) of the immatures and 8.5% (15/177) of the breeding sites. The prevalence decreased from 19.9% in larvae to 6.5% in pupae. In those infected breeding sites, about 85% of the immature mosquitoes harbor the parasite with a median intensity of nine trophozoites per larva and six gametocysts per pupa. The prevalence in shaded containers was higher than in sun exposed ones but the intensity of the infection was quite similar between both lighting conditions. Sun-exposed containers recorded water temperatures significantly higher than those under shade throughout the study period. Parasite trophozoites were only found from January to May with a clear seasonal pattern of prevalence. Monthly values of parasite prevalence and mosquito host (percentage of breeding sites and number of immatures) were significantly correlated at p < 0.05 when a temporal delay of two months was considered. Our results suggest that parasite prevalence is spatially and temporally heterogeneous in temperate urban Argentina, and these variations are associated with the host abundance.     

Surface-bottom relationships in the Gulf of Salerno (Tyrrhenian Sea) over the last 34 kyr: Compositional data analysis of palaeontological proxies and geochemical evidence

The palaeontological, geochemical and mineralogical records of core GNS84-C106 were analysed in order to reconstruct palaeohydrological changes and palaeoproductivity patterns in the Gulf of Salerno for the last 34 kyr. This approach, including compositional analysis of planktonic and benthic assemblages, gave an insight into the relationships between continental, sea surface and bottom environmental changes. The main source of variability of planktonic and benthic assemblages is related respectively to sea surface temperature and palaeobathymetry. Interrelated changes in surface salinity, nutrients, density gradient in the water column and organic fluxes at the bottom act as a secondary factor controlling the composition of both planktonic and benthic assemblages. The highest palaeoproductivity rates were reached during an interval spanning from late glacial to Middle Holocene, in conditions of enhanced continental run-off. During the Early and Middle Holocene, reduced surface salinity and density stratification were also coupled with the development of a deep chlorophyll maximum and enhanced flux or organic matter at the bottom. From about 6.5 kyr B.P. onward, a sharp reduction in palaeoproductivity took place, coupled with an increase in surface salinities.