Development and validation of a molecular size distribution method for polysaccharide vaccines.

Determination of the molecular size distribution of vaccine products by high performance size exclusion chromatography coupled to refractive index detection is important during the manufacturing process. Partial elution of high molecular weight compounds in the void volume of the chromatographic column is responsible for variation in the results obtained with a reference method using a TSK G5000PWXL chromatographic column. GlaxoSmithKline Vaccines has developed an alternative method relying on the selection of a different chromatographic column with a wider separation range and the generation of a dextran calibration curve to determine the optimal molecular weight cut-off values for all tested products. Validation of this method was performed according to The International Conference on Harmonisation of Technical Requirements for Registration of Pharmaceuticals for Human Use (ICH). The new method detected product degradation with the same sensitivity as that observed for the reference method. All validation parameters were within the pre-specified range. Precision (relative standard deviation (RSD) of mean values) was < 5 per cent (intra-assay) and < 10 per cent (inter-assay). Sample recovery was > 70 per cent for all polysaccharide conjugates and for the Haemophilus influenzae type B final container vaccine. All results obtained for robustness met the acceptance criteria defined in the validation protocol (≤ 2 times (RSD) or ≤ 2 per cent difference between the modified and the reference parameter value if RSD = 0 per cent). The new method was shown to be a suitable quality control method for the release and stability follow-up of polysaccharide-containing vaccines. The new method gave comparable results to the reference method, but with less intra- and inter-assay variability.

The Glossina morsitans tsetse fly saliva: general characteristics and identification of novel salivary proteins.

The tsetse fly (Glossina spp.) is an obligate blood-sucking insect that transmits different human-pathogenic and livestock threatening trypanosome species in Africa. To obtain more insight in the tsetse salivary function, some general aspects of the tsetse fly saliva and its composition were studied. Direct pH and protein content measurements revealed a moderately alkaline (pH approximately 8.0) salivary environment with approximately 4.3 microg soluble proteins per gland and a constant representation of the major saliva proteins throughout the blood-feeding cycle. Although major salivary genes are constitutively expressed, upregulation of salivary protein synthesis within 48 h after the blood meal ensures complete protein replenishment from day 3 onwards. Screening of a non-normalised Glossina morsitans morsitans lambdagt11 salivary gland expression library with serum from a saliva-immunized rabbit identified three full-length cDNAs encoding for novel salivary proteins with yet unknown functions: a 8.3 kDa glycine/glutamate-rich protein (G. morsitans morsitans salivary gland protein Gmmsgp1), a 12.0 kDa proline-rich protein (Gmmsgp2), and a 97.4 kDa protein composed of a metallophosphoesterase/5'nucleotidase region with a glutamate/aspartate/asparagines-rich region (Gmmsgp3).

Regulation of the alpha-fetoprotein promoter: Ku binding and DNA spatial conformation.

This work shows that the proximal promoter of the mouse Afp gene contains a Ku binding site and that Ku binding is associated with down-regulation of the transcriptional activity of the Afp promoter. The Ku binding site is located in a segment able to adopt a peculiar structured form, probably a hairpin structure. Interestingly, the structured form eliminates the binding sites of the positive transcription factor HNF1. Furthermore, a DNAse hypersensitive site is detected in footprinting experiments done with extracts of AFP non-expressing hepatoma cells. These observations suggest that the structured form is stabilised by Ku and is associated with extinction of the gene in AFP non-expressing hepatic cells.

Growth kinetics rather than stress accelerate telomere shortening in cultures of human diploid fibroblasts in oxidative stress-induced premature senescence.

WI-38 human diploid fibroblasts underwent accelerated telomere shortening (490 bp/stress) and growth arrest after exposure to four subcytotoxic 100 microM tert-butylhydroperoxide (t-BHP) stresses, with a stress at every two population doublings (PD). After subcytotoxic 160 microM H2O2 stress or five repeated 30 microM t-BHP stresses along the same PD, respectively a 322 +/- 55 and 380 +/- 129 bp telomere shortening was observed only during the first PD after stress. The percentage of cells resuming proliferation after stress suggests this telomere shortening is due to the number of cell divisions accomplished to reach confluence during the first PD after stress.

Consideration of heteroduplexes and homoduplexes for the quantification by competitive PCR of human mitochondrial DNA deletions with ageing of tissues and cells.

The purpose of this work was first to construct two internal standards for human mitochondrial DNA mt DNA corresponding respectively to the fragment resulting from the 4,977 bp common deletion (H2del) and a fragment which was never reported to be deleted (H1). Secondly, we wished to consider the possible effect of annealing between the target and corresponding internal standard which forms heteroduplexes. These experiments show that the correction of the number of copies found by competitive PCR by considering the percentage of heteroduplexes allows a more accurate quantification of the number of target copies present in mt DNA samples. The design of internal standards specific to the fragment resulting from other deletions could also help a more accurate quantification of the frequency of other mt DNA deletions as well, and reconsideration of the role of mt DNA deletions in ageing.

Stress-induced premature senescence as alternative toxicological method for testing the long-term effects of molecules under development in the industry.

No alternative in vitro method exists for detecting the potential long-term genotoxic effects of molecules at subcytotoxic concentrations, in terms of days and weeks after exposure(s) to the molecule tested. A theoretical model of cellular senescence led to the concept that subcytotoxic stresses under any molecules at subcytotoxic doses, such as molecules under development in the pharmaceutical, cosmetics and food industry, might lead human fibroblasts into a state closely related to in vitro senescence. This concept was then experimentally confirmed in vitro: many biomarkers of replicative senescence of human fibroblasts were found 72 h after their exposure to various kinds of stressors used at non-cytotoxic concentrations. This phenomenon has been termed stress-induced premature senescence (SIPS). Moreover, proteomics studies have revealed that, besides their effects on the appearance of the biomarkers of senescence, sublethal stresses under a variety of stressors also lead to long-term specific changes in the expression level of proteins which are stress-specific. These changes have been coined the molecular scars of stress. The proteins corresponding to these molecular scars may be identified using the latest developments in mass spectrometry. This model of stress-induced premature senescence may be applied to the toxicological sciences when testing for the potential irreversible long-term effects of molecules on the cell fate.