Lipovitellins and phosvitins of the fertilized eggs during embryo growth in the oviparous lizard Podarcis sicula

In the lizard Podarcis sicula, the major vitellogenin (VTG)-derived yolk proteins, lipovitellins and phosvitins, were extracted from the yolk globules of laid and fertilized eggs at different periods of incubation up to 44 days close to hatching. Embryonic development was almost over at this time. Yolk proteins were isolated by precipitation in saturated (NH(4))(2)SO(4), separated on SDS-PAGE and detected by Western blotting with homologous polyclonal anti/VTG antibody. Two lipovitellins of 110 and 116 kDa were always present in the yolk of laid eggs after 1, 10, 18, and 44 days from oviposition. Both these proteins were glycosylated and were recognized by the anti/VTG antibody; their N-terminal sequences were analyzed. Four phosvitins were detected in freshly laid eggs, but their number decreased during incubation, and after 44 days only a single protein of approximately 6.5 kDa was present. The results indicated that, in this lizard, during embryonic development, lipovitellins remain unchanged, whereas the phosphorylated components of yolk undergo continuous degradation.     

Phenotypic switching of Cryptococcus neoformans can influence the outcome of the human immune response

The human pathogenic fungus Cryptococcus neoformans exhibits the phenomenon of phenotypic switching, a process that generates variant colonies that can differ in morphology, virulence and other characteristics such as capsular glucuronoxylomannan (GXM) size and structure. A previous study established that mucoid colony (MC) variants of C. neoformans were more virulent and elicited a different inflammatory response than smooth colony (SM) variants. In this study, we investigated the interaction of cells from MC and SM variants and their respective GXMs with human T cells and monocytes. Specifically, we measured CD40, CD80 and CD86 expression, lymphoproliferation and interleukin (IL)-4, IL-10, interferon (IFN)-gamma and IL-12Rbeta2 expression in the presence and absence of variant cells and their GXMs. For some immune parameters, both MC and SM strains produced similar results, in particular no differences were observed in IL-4 induction. However, for other critical parameters, including CD86 expression, lymphoproliferation and IL-10 production, the MC variant had effects that can be expected to impair the immune response. Hence, a single C. neoformans strain can elicit several different immune responses depending on the colony type expressed, and this is unlikely to be accounted for by differences in phagocytosis only. The results provide a potential explanation for the higher virulence of the MC variant based on the concept that these cells inhibit the development of a vigorous immune response. Furthermore, the results suggest a mechanism by which phenotypic switching can generate variants able to evade the immune response.     

Quantitative detection of probiotic Bifidobacterium strains in bacterial mixtures by using real-time PCR

Strain-specific rRNA-targeted primers were designed for the quantitative detection of Bifidobacterium infantis Y1, B. breve Y8 and B. longum Y10 used in a pharmaceutical probiotic product (VSL-3). PCR and real-time PCR techniques with the selected primers were employed for the direct enumeration of the bifidobacteria in the probiotic preparation and for studying their kinetic characteristics in batch cultures. These analysis revealed that B. infantis Y1 was the predominant strain in the probiotic product and that its growth rate was the highest. Since B. infantis Y1, B. breve Y8 and B. longum Y10 are co-cultured during the industrial production of VSL-3, the kinetic characteristics of these strains can explain their different concentrations in the probiotic preparation. A validation of the PCR quantification method was performed by identifying a representative number of isolates from the bacterial mixtures with automated ribotyping. The methodology described represents a useful tool for the specific quantitative detection of bacterial strains and species in complex mixtures such as pharmaceutical preparations, dairy starter cultures, faecal samples and biopsies.     

DNA strand breaks in ejaculated human spermatozoa: comparison of susceptibility to the nick translation and terminal transferase assays

The nick translation and terminal transferase assays have been compared to test their relative efficiency in detecting DNA breakage in ejaculated human spermatozoa. The results have been correlated with the percentage of chromomycin A3 positive sperm, a fluorochrome that is indicative of the protamination state of sperm. Examination of the ejaculated sperm of 30 subjects revealed that the percentage of positivity to the nick translation and terminal transferase assays did not differ, even when using different fixatives. It is concluded that the inability of the two assays to distinguish the type of DNA damage, as is possible in somatic nuclei, is most probably linked to the unique nature of sperm chromatin. It is proposed that the presence of the damaged DNA may be the remnants of an imperfect spermiogenesis, probably related to an inadequate protamine deposition. This is supported by the strong correlation between the presence of DNA damage and underprotamination as evidenced by chromomycin A3. © Chapman & Hall     

Improvement in the high-performance liquid chromatography malondialdehyde level determination in normal human plasma

We report a very rapid and simple isocratic reversed-phase HPLC separation of malondialdehyde (MDA) in normal human plasma without previous purification of the MDA–2-thiobarbituric acid (TBA) complex. The separation of MDA–TBA complex was performed using a 250×4.6 mm Nucleosil-5C18 column with a mobile phase composed of 35% methanol and 65% 50 mM sodium phosphate buffer, pH 7.0. Samples of 50 μl (composed of 100 μl plasma mixed with 1.0 ml of 0.2% 2-thiobarbituric acid in 2 M sodium acetate buffer containing 1 mM diethylenetriaminepentaacetic acid, pH 3.5, and 10 μl of 5% 2,6-di-tert.-butyl-4-methylphenol in 96% ethanol, incubated at 95°C for 45 min [K. Fukunaga, K. Takama and T. Suzuki, Anal. Biochem., 230 (1995) 20] were injected into the column. The MDA–TBA complex was eluted at a flow-rate of 1 ml/min and monitored by fluorescence detection with excitation at 515 nm and emission at 553 nm. Analysis of groups of normal male and female volunteers gave plasma levels of MDA of 1.076 nmol/ml with a coefficient of variation of about 58%. No significant statistical differences were found between male and female groups, and no correlation was discovered on the age.     

Higher alcohol and acetic acid production by apiculate wine yeasts

P. ROMANO, G. SUZZI, G. COMI AND R. ZIRONI. 1992. Ninety-six strains of apiculate wine yeasts were investigated for their ability to produce higher alcohols and acetic acid in synthetic medium. Less isoamyl alcohol and more n -propanol and isobutanol were formed by Hanseniaspora guilliermondii than by Kloeckera apiculata. The latter produced twice as much acetic acid as H. guilliermondii. The production of higher alcohols and acetic acid was found to be a characteristic of individual strains and was statistically significant. In a multivariate analysis of higher alcohol production two main groupings were formed at 86%S, corresponding to the taxa H. guilliermondii and K. apiculata. Strains that produced low amounts (50 mg/1) of acetic acid, comparable with that of Saccharomyces cerevisiae, were found in both species of apiculate yeasts.     

Expression of the alpha3/beta1 isoform of human Na,K-ATPase in the methylotrophic yeast Pichia pastoris

Na,K-ATPase is a crucial enzyme for ion homeostasis in human tissues. Different isozymes are produced by assembly of four alpha- and three beta-subunits. The expression of the alpha3/beta1 isozyme is confined to brain and heart. Its heterologous production has so far never been attempted in a lower eukaryote. In this work we explored whether the methylotrophic yeast Pichia pastoris is capable of expressing the alpha3/beta1 isoform of human Na,K-ATPase. cDNAs encoding the alpha(3) and the beta(1)-subunits were cloned under the control of the inducible promoter of Pichia pastoris alcohol oxidase 1. Pichia pastoris could express the single alpha3- and beta1-subunits and even coexpress them after methanol induction. beta1-subunit was produced as a major 44-kDa glycosylated polypeptide and alpha3 as a 110-kDa unglycosylated polypeptide. Expression at the plasma membrane was limited in shaking flask cultures but by cultivating P. pastoris cells in a fermenter there was a 10-fold increase of the number of ouabain binding sites per cell. The exported enzyme was estimated to be about 0.230 mg L(-1) at the end of a bioreactor run. Na,K-ATPase proved active and the dissociation constant of the recombinant enzyme-ouabain interaction was determined.