Reservoir cells no longer detectable after a heterologous SHIV challenge with the synthetic HIV-1 Tat Oyi vaccine

BACKGROUND: Extra-cellular roles of Tat might be the main cause of maintenance of HIV-1 infected CD4 T cells or reservoir cells. We developed a synthetic vaccine based on a Tat variant of 101 residues called Tat Oyi, which was identified in HIV infected patients in Africa who did not progress to AIDS. We compared, using rabbits, different adjuvants authorized for human use to test on ELISA the recognition of Tat variants from the five main HIV-1 subtypes. A formulation was tested on macaques followed by a SHIV challenge with a European strain. RESULTS: Tat Oyi with Montanide or Calcium Phosphate gave rabbit sera able to recognize all Tat variants. Five on seven Tat Oyi vaccinated macaques showed a better control of viremia compared to control macaques and an increase of CD8 T cells was observed only on Tat Oyi vaccinated macaques. Reservoir cells were not detectable at 56 days post-challenge in all Tat Oyi vaccinated macaques but not in the controls. CONCLUSION: The Tat Oyi vaccine should be efficient worldwide. No toxicity was observed on rabbits and macaques. We show in vivo that antibodies against Tat could restore the cellular immunity and make it possible the elimination of reservoir cells

Approches thérapeutiques ciblant la protéine Tat du VIH-1 (Synthèse chimique de Tat et développement d'un antiviral et d'un vaccin)

AIX-MARSEILLE2-BU Sci.Luminy (130552106) / SudocSudocFranceF

Homonuclear 1 H-NMR assignment and structural characterization of human immunodeficiency virus type 1 Tat Mal protein

International audienceThe transacting transcriptional activator (Tat) is a viral protein essential for activation of the human immunodeficiency virus (HIV) genes, and it plays an important role in HIV induced immunodeficiency. We report the NMR structural characterization of the active Tat Mal variant that belongs to a highly virulent D-subtype HIV type-1 (HIV-1) strain (Mal) found mainly in Africa. A full Tat Mal protein (87 residues) is synthesized. This synthetic protein is active in a transactivation assay with HeLa cells infected with the HIV long terminal repeated noncoding sequences of the HIV-1 provirus (LTR) lac Z gene. Homonuclear (1)H-NMR spectra allows the sequential assignment of the Tat Mal spin systems. Simulating annealing generates 20 conformers with similar folding. The geometry of the mean structure is optimized with energy minimization to obtain a final structure. As the European variant (Tat Bru) the N-terminal region of Tat Mal constitutes the core, and there is a hydrophobic pocket composed of the conserved Trp 11 interacting with several aromatic residues. The two functional regions of Tat (basic and the cysteine-rich regions) are well exposed to the solvent. A short alpha-helix is observed in region V adjacent to the basic region. This alpha helix induces local structural variations compared to the NMR structure of Tat Bru, and it brings the cysteine-rich and basic regions closer. This study suggests that similar folding exists among Tat variants

a novel microtubule inhibitor, suppresses calmodulin interaction with the microtubule-associated protein STOP. Biochemistry 2007

ABSTRACT: Vinca alkaloids vinblastine and vincristine and some of their derivatives such as vinorelbine are widely used in therapy of leukemia and several solid tumors. Their action is associated with alterations of the mitotic spindle functions that prevent the cell cycle progression and lead to mitotic block. A number of studies show that some Vinca alkaloids inhibit CaM-target interaction. The newest microtubule inhibitor, vinflunine (Javlor), currently in clinical trials, is remarkably more active than vinblastine against a number of tumors. Moreover, vinflunine is significantly less toxic than other Vinca alkaloids. The high antitumor activity of this molecule is not well understood since it binds to tubulin with an overall affinity severalfold lower than that of vinblastine or vincristine. In this study, we examined the interaction of Ca 2+ -CaM with vinflunine, vinblastine, and stable tubule only polypeptide (STOP) by using a combination of thermodynamic and mass spectrometric approaches. We characterized the influence of Vinca alkaloids on Ca 2+ -CaM-STOP complex formation. Our results revealed different binding modes to Ca 2+ -CaM for vinflunine and vinblastine, highlighting that adding fluorine atoms on the cleavamine moiety of the Vinca alkaloid molecule is critical for the localization of the drug on calmodulin. We demonstrate that vinflunine is a better inhibitor for STOP binding to calmodulin than vinblastine. We suggest that vinflunine action on calmodulin can have an effect on microtubule dynamics. These data may contribute to a better understanding of the superior antitumor efficiency and lower toxicity of vinflunine

HIV-1 Tat protein enhances Microtubule polymerization

Abstract Background HIV infection and progression to AIDS is characterized by the depletion of T cells, which could be due, in part, to apoptosis mediated by the extra-cellular HIV-encoded Tat protein as a consequence of Tat binding to tubulin. Microtubules are tubulin polymers that are essential for cell structure and division. Molecules that target microtubules induce apoptosis and are potent anti-cancer drugs. We studied the effect on tubulin polymerization of three Tat variants: Tat HxB2 and Tat Eli from patients who are rapid progressors (RP) and Tat Oyi from highly exposed but persistently seronegative (HEPS) patients. We compared the effect on tubulin polymerization of these Tat variants and peptides corresponding to different parts of the Tat sequence, with paclitaxel, an anti-cancer drug that targets microtubules. Results We show that Tat, and specifically, residues 38–72, directly enhance tubulin polymerization. We demonstrate that Tat could also directly trigger the mitochondrial pathway to induce T cell apoptosis, as shown in vitro by the release of cytochrome c from isolated mitochondria. Conclusions These results show that Tat directly acts on microtubule polymerization and provide insights into the mechanism of T cell apoptosis mediated by extra-cellular Tat.</p

Full-length HIV-1 Tat protein necessary for a vaccine

International audienceAIDS vaccines now use a truncated version of 86 residues of the Tat protein related to the HIV-1 HXB2 strain predominant in Europe and North America. We compared antibodies raised in rabbits using a B subtype short Tat HXB2(86) and a full-length Tat HXB2(100). Serum against HXB2(86) recognizes only B and D subtypes while serum against HXB2(100) recognizes B, D, and C subtype variants. Conformational epitopes appear to be involved in the capacity of anti-Tat HXB2 sera to recognized non-homologous Tat variants. A linear B-epitope identified in sequence 71-81 in HXB2(86) disappears in HXB2(100), which has a new linear B-epitope identified at the C-terminus. Anti-HXB2(100) serum has a higher titer in neutralizing antibody against homologous and non-homologous variants compared to anti-HXB2(86) serum. We suggest that a Tat vaccine should contain a Tat variant with regular size, up to 99-101 residues now found in the field

A possible improvement for structure-based drug design illustrated by the discovery of a Tat HIV-1 inhibitor

International audienceThe HIV-1 Tat protein is a promising target for AIDS therapy, due to its extra-cellular roles against the immune system. From the 2D-NMR structure of Tat, we have designed molecules, called TDS, able to bind to Tat and inhibit HIV-1 replication in vitro. This new family of antivirals is composed of a triphenylene aromatic ring substituted with at least one carbon chain bearing a succinimide group. These ligands are prepared from triphenylene or 2,6,10-trimethylphenylene in 3-6 steps depending on the target molecule

H-1-C-13 nuclear magnetic resonance assignment and structural characterization of HIV-1 Tat protein

Tat is a viral protein essential for activation of the HIV genes and plays an important role in the HIV-induced immunodeficiency. We chemically synthesized a Tat protein (86 residues) with its six glycines Ca labelled with C-13. This synthetic protein has the full Tat activity. Heteronuclear nuclear magnetic resonance (NMR) spectra and NOE back-calculation made;possible the sequential assignment of the 86 spin systems. Consequently, 915 NMR restraints were identified and 272 of them turned out to be long range ([i-j] > 4), providing structural information on the whole Tat protein. The poor spectral dispersion of Tat NMR spectra does not allow an accurate structure to be determined as for other proteins studied by 2D NMR. Nevertheless, we were able to determine the folding for Tat protein at a 1-mM protein concentration in a 100 mM, pH 4.5 phosphate buffer. The two main Tat functional regions, the basic region and the cysteine-rich region, are well exposed to solvent while a part of the N-terminal region and the C-terminal region constitute the core of Tat Bru. The basic region adopts an extended structure while the cysteine-rich region is made up of two loops. Resolution of this structure was determinant to develop a drug design approach against Tat. The chemical synthesis of the drugs allowed the specific binding and the inhibition of Tat to be verified. (C) 2000 Academie des sciences/Editions scientifiques et medicales Elsevier SAS.status: publishe