A cost-effective melting temperature assay for the detection of single-nucleotide polymorphism in the MBL2 gene of HIV-1-infected children

We report a fast (less than 3 h) and cost-effective melting temperature assay method for the detection of single-nucleotide polymorphisms in the MBL2 gene. The protocol, which is based on the Corbett Rotor Gene real time PCR platform and SYBR Green I chemistry, yielded, in the cohorts studied, sensitive (100%) and specific (100%) PCR amplification without the use of costly fluorophore-labeled probes or post-PCR manipulation. At the end of the PCR, the dissociation protocol included a slow heating from 60º to 95ºC in 0.2ºC steps, with an 8-s interval between steps. Melting curve profiles were obtained using the dissociation software of the Rotor Gene-3000 apparatus. Samples were analyzed in duplicate and in different PCR runs to test the reproducibility of this technique. No supplementary data handling is required to determine the MBL2 genotype. MBL2 genotyping performed on a cohort of 164 HIV-1-positive Brazilian children and 150 healthy controls, matched for age and sex and ethnic origin, yielded reproducible results confirmed by direct sequencing of the amplicon performed in blind. The three MBL2 variants (Arg52Cys, Gly54Asp, Gly57Glu) were grouped together and called allele 0, while the combination of three wild-type alleles was called allele A. The frequency of the A/A homozygotes was significantly higher among healthy controls (0.68) than in HIV-infected children (0.55; P = 0.0234) and the frequency of MBL2 0/0 homozygotes was higher among HIV-1-infected children than healthy controls (P = 0.0296). The 0 allele was significantly more frequent among the 164 HIV-1-infected children (0.29) than among the 150 healthy controls (0.18; P = 0.0032). Our data confirm the association between the presence of the mutated MBL2 allele (allele 0) and HIV-1 infection in perinatally exposed children. Our results are in agreement with the literature data which indicate that the presence of the allele 0 confers a relative risk of 1.37 for HIV-1 infection through vertical transmission.

Techniques used to identify the Brazilian variant of HIV-1 subtype B

The purpose of the present study was to compare the sensitivity and specificity of V3 enzyme immunoassay (solid phase EIA and EIA inhibition) and restriction fragment length polymorphism (RFLP) with the DNA sequencing "gold standard" to identify the Brazilian HIV-1 variants of subtype B and B"-GWGR. Peripheral blood mononuclear cells were collected from 61 HIV-1-infected individuals attending a clinic in São Paulo. Proviral DNA was amplified and sequentially cleaved with the Fok I restriction enzyme. Plasma samples were submitted to a V3-loop biotinylated synthetic peptide EIA. Direct partial DNA sequencing of the env gene was performed on all samples. Based on EIA results, the sensitivity for detecting B-GPGR was 70%, compared to 64% for the Brazilian variant B"-GWGR while, the specificity of B-GPGR detection was 85%, compared to 88% for GWGR. The assessment of RFLP revealed 68% sensitivity and 94% specificity for the B-GPGR strain compared to 84 and 90% for the B"-GWGR variant. Moreover, direct DNA sequencing was able to detect different base sequences corresponding to amino acid sequences at the tip of the V3 loop in 22 patients. These results show a similar performance of V3 serology and RLFP in identifying the Brazilian variant GWGR. However, V3 peptide serology may give indeterminate results. Therefore, we suggest that V3 serology be used instead of DNA sequencing where resources are limited. Samples giving indeterminate results by V3 peptide serology should be analyzed by direct DNA sequencing to distinguish between B-GPGR and the Brazilian variant B"-GWGR.

High HTLV-1 proviral load, a marker for HTLV-1 associated myelopathy/tropical spastic paraparesis, is also detected in patients with infective dermatitis associated with HTLV-1

Salvador (BA, Brazil) is an endemic area for human T-cell lymphotrophic virus type 1 (HTLV-1). The overall prevalence of HTLV-1 infection in the general population has been estimated to be 1.76%. HTLV-1 carriers may develop a variety of diseases such as adult T-cell leukemia/lymphoma, HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP) and infective dermatitis associated with HTLV-1 (IDH). IDH is a chronic and severe form of childhood exudative and infective dermatitis involving mainly the scalp, neck and ears. It has recently been observed that 30% of patients with IDH develop juvenile HAM/TSP. The replication of HTLV-1 has been reported to be greater in adult HAM/TSP patients than in asymptomatic HTLV-1 carriers. In the current study, the proviral load of 28 children and adolescents with IDH not associated with HAM/TSP was determined and the results were compared to those obtained in 28 HTLV-1 adult carriers and 28 adult patients with HAM/TSP. The proviral load in IDH patients was similar to that of patients with HAM/TSP and much higher than that found in HTLV-1 carriers. The high levels of proviral load in IDH patients were not associated with age, duration of illness, duration of breast-feeding, or activity status of the skin disease. Since proviral load is associated with neurological disability, these data support the view that IDH patients are at high risk of developing HAM/TSP.

Effet de l'initiation du traitement antirétroviral sur la diversité virale du VIH

L’épidémie du VIH-1 dure maintenant depuis plus de 25 ans. La grande diversité génétique de ce virus est un obstacle majeur en vue de l’éradication de cette pandémie. Au cours des années, le VIH-1 a évolué en plus de cinquante sous-types ou formes recombinantes. Cette diversité génétique est influencée par diverses pressions de sélection, incluant les pressions du système immunitaire de l’hôte et les agents antirétroviraux (ARV). En effet, bien que les ARV aient considérablement réduit les taux de morbidité et de mortalité, en plus d’améliorer la qualité et l’espérance de vie des personnes atteintes du VIH-1, ces traitements sont complexes, dispendieux et amènent leur lot de toxicité pouvant mener à des concentrations plasmatiques sous-optimales pour contrôler la réplication virale. Ceci va permettre l’émergence de variantes virales portant des mutations de résistance aux ARV. Ce phénomène est encore plus complexe lorsque l’on prend en considération l’immense diversité génétique des différents sous-types. De plus, le virus du VIH est capable de persister sous forme latente dans diverses populations cellulaires, rendant ainsi son éradication extrêmement difficile. Des stratégies pouvant restreindre la diversité virale ont donc été préconisées dans le but de favoriser les réponses immunes de l’hôte pour le contrôle de l’infection et d’identifier des variantes virales offrant une meilleure cible pour des stratégies vaccinales ou immunothérapeutiques. Dans cet esprit, nous avons donc étudié, chez des sujets infectés récemment par le VIH-1, l’effet du traitement ARV précoce sur la diversité virale de la région C2V5 du gène enveloppe ainsi que sur la taille des réservoirs. En deuxième lieu, nous avons caractérisé la pression de sélection des ARV sur des souches virales de sous types variés non-B, chez des patients du Mali et du Burkina Faso afin d’évaluer les voies d’échappement viral dans un fond génétique différent du sous-type B largement prévalent en Amérique du Nord. Notre étude a démontré la présence d’une population virale très homogène et peu diversifiée dans les premières semaines suivant l’infection, qui évolue pour atteindre une diversification de +0,23% à la fin de la première année. Cette diversification est plus importante chez les sujets n’ayant pas initié de traitement. De plus, ceci s’accompagne d’un plus grand nombre de particules virales infectieuses dans les réservoirs viraux des cellules mononucléées du sang périphérique (PBMC) chez ces sujets. Ces résultats suggèrent que l’initiation précoce du traitement pourrait avoir un effet bénéfique en retardant l’évolution virale ainsi que la taille des réservoirs, ce qui pourrait supporter une réponse immune mieux ciblée et potentiellement des stratégies immunothérapeutiques permettant d’éradiquer le virus. Nous avons également suivi 801 sujets infectés par des sous-types non-B sur le point de débuter un traitement antirétroviral. Bien que la majorité des sujets ait été à un stade avancé de la maladie, plus de 75% des individus ont obtenu une charge virale indétectable après 6 mois d’ARV, témoignant de l’efficacité comparable des ARV sur les sous-types non-B et B. Toutefois, contrairement aux virus de sous-type B, nous avons observé différentes voies moléculaires de résistance chez les sous type non-B, particulièrement chez les sous-types AGK/AK/K pour lesquels les voies de résistances étaient associées de façon prédominante aux TAM2. De plus, bien que la divergence entre les virus retrouvés chez les patients d’une même région soit faible, nos analyses phylogénétiques ont permis de conclure que ces mutations de résistance se sont produites de novo et non à partir d’un ancêtre commun porteur de résistance. Cependant, notre dernière étude au Mali nous a permis d’évaluer la résistance primaire à près de 10% et des études phylogénétiques seront effectuées afin d’évaluer la circulation de ces souches résistantes dans la population. Ces études suggèrent qu’un contrôle de la réplication virale par les ARV peut freiner la diversité du VIH et ainsi ouvrir la voie à un contrôle immunologique ciblé, utilisant de nouvelles stratégies vaccinales ou immunothérapeutiques. Toutefois, une thérapie antirétrovirale sous-optimale (adhérence, toxicité) peut conduire à l’échappement virologique en favorisant l’émergence et la dissémination de souches résistantes.

Antagonism of tetherin restriction of HIV-1 release by Vpu involves binding and sequestration of the restriction factor in a perinuclear compartment

The Vpu accessory protein promotes HIV-1 release by counteracting Tetherin/BST-2, an interferon-regulated restriction factor, which retains virions at the cell-surface. Recent reports proposed beta-TrCP-dependent proteasomal and/or endo-lysosomal degradation of Tetherin as potential mechanisms by which Vpu could down-regulate Tetherin cell-surface expression and antagonize this restriction. In all of these studies, Tetherin degradation did not, however, entirely account for Vpu anti-Tetherin activity. Here, we show that Vpu can promote HIV-1 release without detectably affecting Tetherin steady-state levels or turnover, suggesting that Tetherin degradation may not be necessary and/or sufficient for Vpu anti-Tetherin activity. Even though Vpu did not enhance Tetherin internalization from the plasma membrane (PM), it did significantly slow-down the overall transport of the protein towards the cell-surface. Accordingly, Vpu expression caused a specific removal of cell-surface Tetherin and a re-localization of the residual pool of Tetherin in a perinuclear compartment that co-stained with the TGN marker TGN46 and Vpu itself. This re-localization of Tetherin was also observed with a Vpu mutant unable to recruit beta-TrCP, suggesting that this activity is taking place independently from beta-TrCP-mediated trafficking and/or degradation processes. We also show that Vpu co-immunoprecipitates with Tetherin and that this interaction involves the transmembrane domains of the two proteins. Importantly, this association was found to be critical for reducing cell-surface Tetherin expression, re-localizing the restriction factor in the TGN and promoting HIV-1 release. Overall, our results suggest that association of Vpu to Tetherin affects the outward trafficking and/or recycling of the restriction factor from the TGN and as a result promotes its sequestration away from the PM where productive HIV-1 assembly takes place. This mechanism of antagonism that results in TGN trapping is likely to be augmented by beta-TrCP-dependent degradation, underlining the need for complementary and perhaps synergistic strategies to effectively counteract the powerful restrictive effects of human Tetherin.

Endogene Immunstimulation durch zelluläre DNA bei HIV-1 Infektionen

Endogene Gefahrensignale, die das Immunsystem aktivieren, sind ein neues Konzept der Immunbiologie. Sie spielen eine Rolle für eine Vielzahl von viralen und bakteriellen Erkrankungen und werden als massgebliche Ursache für eine Reihe von Autoimmunerkrankungen diskutiert. Diese Arbeit testet die Hypothese, dass fragmentierte mitochondriale DNA (mtDNA) immunstimulatorische DNA-Motive beinhaltet, die in der Lage sind, eine Immunantwort durch plasmazytoide dendritische Zellen (PDC, engl. plasmacytoid dendritic cells) zu vermitteln. Daher wurden mtDNA und genomische DNA aus mononukleären Zellen des peripheren Bluts (PBMC, engl. peripheral blood mononuclear cells) und Thrombozyten isoliert. Diese DNA-Spezies wurde mithilfe des liposomalen Transfektionsreagenzes DOTAP in PBMC transfiziert und die Immunaktivierung anhand des Interferon-alpha Spiegels im Zellkulturüberstand gemessen. Beide DNA-Spezies induzierten eine vergleichbare Interferon-Produktion. Eine Verkürzung der mtDNA zu CpG-Inseln verstärkte die immunstimulatorische Kapazität, abhängig vom Vorhandensein unmethylierter CpG-Motive. Die Komplexierung der CpG-Inseln mit dem humanem Cathelicidin LL-37 führte auch ohne DOTAP Transfektion zu einer Interferon-Antwort. Ein weiteres Verkürzen der mtDNA zu mitochondrialen Oligodeoxynukleotiden (mtODN) mit Sequenz- und Strukturähnlichkeiten zu kommerziellen CpG-ODN, lieferte Sequenzen mit starker Interferon-Induktion und der Fähigkeit, PDC zu maturieren und migrieren. Insbesondere waren zwei mtODN mit Doppelpalindromstruktur in der Lage, PDC spontan ohne Transfektion oder als Immunkomplex zu aktivieren. Durchflusszytometrie, Lebendzell- und konfokale Laserscanningmikroskopie zeigte die Anheftung und Aufnahme eines der mtODN in endosomale Kompartimente und Kolokalisation mit TLR9. Auch konnte eine schwache aber signifikante PDC-, B-Zell- und NK-Zell-Aktivierung durch dieses ODN gezeigt werden. Zusammengefaßt deuten unsere Daten darauf hin, dass fragmentierte mitochondriale DNA aus apoptotischen oder nekrotischen Zellen als Gefahrensignal für das Immunsystem fungieren kann und so über Stimulation von PDC zur akuten oder chronischen Immunaktivierung und damit zur Immunpathogenese von HIV-Infektionen beitragen kann.

Immunogenicity of the outer domain of a HIV-1 clade C gp120

Background: The possibility that a sub domain of a C clade HIV-1 gp120 could act as an effective immunogen was investigated. To do this, the outer domain ( OD) of gp120(CN54) was expressed and characterized in a construct marked by a re-introduced conformational epitope for MAb 2G12. The expressed sequence showed efficient epitope retention on the isolated ODCN54 suggesting authentic folding. To facilitate purification and subsequent immunogenicity ODCN54 was fused to the Fc domain of human IgGl. Mice were immunised with the resulting fusion proteins and also with gp120(CN54)-Fc and gp120 alone. Results: Fusion to Fc was found to stimulate antibody titre and Fc tagged ODCN54 was substantially more immunogenic than non-tagged gp120. Immunogenicity appeared the result of Fc facilitated antigen processing as immunisation with an Fc domain mutant that reduced binding to the FcR lead to a reduction in antibody titre when compared to the parental sequence. The breadth of the antibody response was assessed by serum reaction with five overlapping fragments of gp120(CN54) expressed as GST fusion proteins in bacteria. A predominant anti-inner domain and anti-V3C3 response was observed following immunisation with gp120(CN54)-Fc and an anti-V3C3 response to the ODCN54-Fc fusion. Conclusion: The outer domain of gp120(CN54) is correctly folded following expression as a C terminal fusion protein. Immunogenicity is substantial when targeted to antigen presenting cells but shows V3 dominance in the polyvalent response. The gp120 outer domain has potential as a candidate vaccine component.

Effect of viral load on the outcome of herpes zoster

Varicella-zoster virus (VZV) is a member of the Herpesviridae family, primary infection with which causes varicella, more commonly known as chicken pox. Characteristic of members of the alphaherpesvirus subfamily, VZV is neurotropic and establishes latency in sensory neurons. Reactivation of VZV causes herpes zoster, also known as shingles. The most frequent complication following zoster is chronic and often debilitating pain called postherpetic neuralgia (PHN), which can last for months after the disappearance of a rash. During episodes of acute zoster, VZV viremia occurs in some, but not all, patients; however, the effect of the viral load on the disease outcome is not known. Here we describe the development of a highly specific, sensitive, and reproducible real-time PCR assay to investigate the factors that may contribute to the presence and levels of baseline viremia in patients with zoster and to determine the relationship between viremia and the development and persistence of PHN. VZV DNA was detected in the peripheral blood mononuclear cells (PBMCs) of 78% of patients with acute zoster and in 9% of healthy asymptomatic blood donors. The presence of VZV in the PBMCs of patients with acute zoster was independently associated with age and being on antivirals but not with gender, immune status, extent of rash, the age of the rash at the time of blood sampling, having a history of prodromal pain, or the extent of acute pain. Prodromal pain was significantly associated with higher baseline viral loads. Viral load levels were not associated with the development or persistence of PHN at 6, 12, or 26 weeks.

Reintroduction of the 2G12 epitope in an HIV-1 clade C gp120

Many clade C isolates of HIV-1 do not react with monoclonal antibody (MAb) 2G12, a broad-ranging human neutralizing MAb that recognizes high mannose carbohydrate groups attached to glycoprotein gp120. We reintroduced a partial and complete 2G12 epitope into a clade C background, HIV-1(CN54), and examined the antibody reactivity of the resulting recombinant molecules. Two glycosylation sites recovered 2G12 binding completely, but some binding was evident after the reintroduction of a single glycosylation site at Asn295.

Time course of gag protein assembly in HIV-1-infected cells: a study by immunoelectron microscopy

Recent biochemical studies have identified high molecular complexes of the HIV Gag precursor in the cytosol of infected cells. Using immunoelectron microscopy we studied the time course of the synthesis and assembly of a HIV Gag precursor protein (pr55gag) in Sf9 cells infected with recombinant baculovirus expressing the HIV gag gene. We also immunolabeled for pr55gag human T4 cells acutely or chronically infected with HIV-1. In Sf9 cells, the time course study showed that the first Gag protein appeared in the cytoplasm at 28-30 h p.i. and that budding started 6-8 h later. Colloidal gold particles, used to visualize the Gag protein, were first scattered randomly throughout the cytoplasm, but soon clusters representing 100 to 1000 copies of pr55gag were also observed. By contrast, in cells with budding or released virus-like particles the cytoplasm was virtually free of gold particles while the released virus-like particles were heavily labeled. Statistical analysis showed that between 80 and 90% of the gold particles in the cytoplasm were seen as singles, as doublets, or in small groups of up to five particles probably representing small oligomers. Clusters of gold particles were also observed in acutely infected lymphocytes as well as in multinuclear cells of chronically infected cultures of T4 cells. In a few cases small aggregates of gold particles were found in the nuclei of T4 lymphocytes. These observations suggest that the Gag polyprotein forms small oligomers in the cytoplasm of expressing cells but that assembly into multimeric complexes takes place predominantly at the plasma membrane. Large accumulations of Gag protein in the cytoplasm may represent misfolded molecules destined for degradation.

DC-SIGN increases the affinity of HIV-1 envelope glycoprotein interaction with CD4

Mannose-binding C-type lectin receptors, expressed on Langerhans cells and subepithelial dendritic cells (DCs) of cervico-vaginal tissues, play an important role in HIV-1 capture and subsequent dissemination to lymph nodes. DC-SIGN has been implicated in both productive infection of DCs and the DC-mediated trans infection of CD4(+) T cells that occurs in the absence of replication. However, the molecular events that underlie this efficient transmission have not been fully defined. In this study, we have examined the effect of the extracellular domains of DC-SIGN and Langerin on the stability of the interaction of the HIV-1 envelope glycoprotein with CD4 and also on replication in permissive cells. Surface plasmon resonance analysis showed that DC-SIGN increases the binding affinity of trimeric gp140 envelope glycoproteins to CD4. In contrast, Langerin had no effect on the stability of the gp140:CD4 complex. In vitro infection experiments to compare DC-SIGN enhancement of CD4-dependent and CD4-independent strains demonstrated significantly lower enhancement of the CD4-independent strain. In addition DC-SIGN increased the relative rate of infection of the CD4-dependent strain but had no effect on the CD4-independent strain. DC-SIGN binding to the HIV envelope protein effectively increases exposure of the CD4 binding site, which in turn contributes to enhancement of infection.

Expression-system-dependent modulation of HIV-1 envelope glycoprotein antigenicity and immunogenicity.

Recombinant expression systems differ in the type of glycosylation they impart on expressed antigens such as the human immunodeficiency virus type 1 (HIV-1) envelope glycoproteins, potentially affecting their biological properties. We performed head-to-head antigenic, immunogenic and molecular profiling of two distantly related Env surface (gp120) antigens produced in different systems: (a) mammalian (293 FreeStyle cells; 293F) cells in the presence of kifunensine, which impart only high-mannose glycans; (b) insect cells (Spodoptera frugiperda, Sf9), which confer mainly paucimannosidic glycans; (c) Sf9 cells recombinant for mammalian glycosylation enzymes (Sf9 Mimic), which impart high-mannose, hybrid and complex glycans without sialic acid; and (d) 293F cells, which impart high-mannose, hybrid and complex glycans with sialic acid. Molecular models revealed a significant difference in gp120 glycan coverage between the Sf9-derived and wild-type mammalian-cell-derived material that is predicted to affect ligand binding sites proximal to glycans. Modeling of solvent-exposed surface electrostatic potentials showed that sialic acid imparts a significant negative surface charge that may influence gp120 antigenicity and immunogenicity. Gp120 expressed in systems that do not incorporate sialic acid displayed increased ligand binding to the CD4 binding and CD4-induced sites compared to those expressed in the system that do, and imparted other more subtle differences in antigenicity in a gp120 subtype-specific manner. Non-sialic-acid-containing gp120 was significantly more immunogenic than the sialylated version when administered in two different adjuvants, and induced higher titers of antibodies competing for CD4 binding site ligand-gp120 interaction. These findings suggest that non-sialic-acid-imparting systems yield gp120 immunogens with modified antigenic and immunogenic properties, considerations that should be considered when selecting expression systems for glycosylated antigens to be used for structure-function studies and for vaccine use.