1.
The immunogenicity and safety of different formulations of a novel Staphylococcus aureus vaccine (V710): results of two Phase I studies.
Harro, CD, Betts, RF, Hartzel, JS, Onorato, MT, Lipka, J, Smugar, SS, Kartsonis, NA
Vaccine. 2012;(9):1729-36
Abstract
Merck V710 is a novel vaccine that contains the highly conserved Staphylococcus aureus iron surface determinant B (IsdB) protein. V710 has induced positive immune responses in healthy subjects. The purpose of the two studies described herein was to evaluate the immunogenicity and safety of two different formulations of V710. Both studies were randomized, controlled, double-blind, parallel-group trials. Study 1 compared liquid, aluminum-adjuvanted V710 (30 μg) with liquid, non-adjuvanted V710 (30 μg) in a 1:1 ratio in 64 healthy adults (18-70 years). Study 2 compared non-adjuvanted lyophilized V710 (60 μg) with saline placebo in a 4:1 ratio in 51 healthy adults (18-80 years). Blood was collected at screening and up to Day 360 postvaccination in Study 1, and at screening and up to Day 84 postvaccination in Study 2. Sera were analyzed for IsdB-specific antibodies using a total IgG assay. The primary endpoints in Study 1 were the proportion of patients with a positive immune response (≥2-fold rise in IsdB-specific IgG antibody level) the geometric mean concentration (GMC), and the geometric mean-fold rise (GMFR), all from baseline at Day 14. The primary endpoint in Study 2 was the GMFR in IsdB-specific IgG antibody concentration from baseline at Day 14. In Study 1, 84.4% responded in the adjuvanted V710 group, and 71.9% in the non-adjuvanted V710 group. The GMC was 115.4 μg/mL in the adjuvanted group and 99.1 μg/mL in the nonadjuvanted group. The GMFR in antibody concentration in the group receiving aluminum-adjuvanted V710 was 4.5 and the GMFR in the group receiving non-adjuvanted V710 was 4.0. In Study 2, the GMFR in antibody concentration in the V710 group was 5.3, and 80.5% had a positive immune response. None responded in the placebo group. Positive immune response was seen in the active treatment groups over the full duration of each study. There were no serious adverse experiences (AE) in either study, and no patients discontinued due to an AE. There were no clinically meaningful differences in AEs between groups in either study. In conclusion, V710, both with and without aluminum adjuvant, and in both liquid and lyophilized formulations, was immunogenic within 14 days of vaccination. All treatments showed similar safety profiles.
2.
Hydrophobic cluster analysis and modeling of the human Rh protein three-dimensional structures.
Callebaut, I, Dulin, F, Bertrand, O, Ripoche, P, Mouro, I, Colin, Y, Mornon, JP, Cartron, JP
Transfusion clinique et biologique : journal de la Societe francaise de transfusion sanguine. 2006;(1-2):70-84
Abstract
Rh (Rhesus) is a major blood group system in man, which is clinically significant in transfusion medicine. Rh antigens are carried by an oligomer of two major erythroid specific polypeptides, the Rh (D and CcEe) proteins and the RhAG glycoprotein, that shared a common predicted structure with 12 transmembrane a-helices (M0 to M11). Non erythroid homologues of these proteins have been identified (RhBG and RhCG), notably in diverse organs specialized in ammonia production and excretion, such as kidney, liver and intestine. Phylogenetic studies and experimental evidence have shown that these proteins belong to the Amt/Mep/Rh protein superfamily of ammonium/methylammonium permease, but another view suggests that Rh proteins might function as CO2 gas channels. Until recently no information on the structure of these proteins were available. However, in the last two years, new insight has been gained into the structural features of Rh proteins (through the determination of the crystal structures of bacterial AmtB and archeaebacterial Amt-1. Here, models of the subunit and oligomeric architecture of human Rh proteins are proposed, based on a refined alignment with and crystal structure of the bacterial ammonia transporter AmtB, a member of the Amt/Mep/Rh superfamily. This alignment was performed considering invariant structural features, which were revealed through Hydrophobic Cluster Analysis, and led to propose alternative predictions for the less conserved regions, particularly in the N-terminal sequences. The Rh models, on which an additional Rh-specific, N-terminal helix M0 was tentatively positioned, were further assessed through the consideration of biochemical and immunochemical data, as well as of stereochemical and topological constraints. These models highlighted some Rh specific features that have not yet been reported. Among these, are the prediction of some critical residues, which may play a role in the channel function, but also in the stability of the subunit structure and oligomeric assembly. These results provide a basis to further understand the structure/function relationships of Rh proteins, and the alterations occurring in variant phenotypes.
3.
Cisplatin rapidly down-regulates its own influx transporter hCTR1 in cultured human ovarian carcinoma cells.
Holzer, AK, Katano, K, Klomp, LW, Howell, SB
Clinical cancer research : an official journal of the American Association for Cancer Research. 2004;(19):6744-9
Abstract
PURPOSE Cisplatin (DDP)-resistant cells commonly exhibit reduced drug accumulation. Previous studies have shown that the major copper (Cu) influx transporter CTR1 controls the uptake of DDP in yeast and mammalian cells. The goal of this study was to examine the effect of Cu and DDP on the level and subcellular localization of hCTR1 protein in human ovarian carcinoma cells. EXPERIMENTAL DESIGN Cultured human ovarian carcinoma A2780 cells were exposed to DDP and Cu, and the effect on hCTR1 was determined using Western blot analysis and confocal digital deconvolution microscopy. RESULTS Loss of hCTR1 was triggered by DDP exposure in a concentration and time-dependent manner. Exposure to 0.5 micromol/L DDP for 5 minutes reduced hCTR1 levels and exposure to DDP concentrations > or =2 micromol/L caused almost complete disappearance. The loss of hCTR1 was observed within 1 minute of the start of exposure to 2 micromol/L DDP. Treatment of cells with 100 micromol/L Cu for 5 minutes produced a smaller effect. Pretreatment of cells with 2 micromol/L DDP for 5 minutes resulted in a 50% decrease in 64Cu uptake, demonstrating that the DDP-induced loss of hCTR1 detected by Western blot analysis and imaging was functionally significant. CONCLUSIONS DDP down-regulated the amount of its major influx transporter in cultured human ovarian carcinoma cells in a concentration- and time-dependent manner. The effect was observed at DDP concentrations within the range found in the plasma of patients being treated with DDP, and it occurred very quickly relative to the half-life of the drug.