Ascension of Chlamydia is moderated by uterine peristalsis and the neutrophil response to infection

Chlamydia trachomatis is a common sexually transmitted infection that is associated with a range of serious reproductive tract sequelae including in women Pelvic Inflammatory Disease (PID), tubal factor infertility, and ectopic pregnancy. Ascension of the pathogen beyond the cervix and into the upper reproductive tract is thought to be necessary for these pathologies. However, Chlamydia trachomatis does not encode a mechanism for movement on its genome, and so the processes that facilitate ascension have not been elucidated. Here, we evaluate the factors that may influence chlamydial ascension in women. We constructed a mathematical model based on a set of stochastic dynamics to elucidate the moderating factors that might influence ascension of infections in the first month of an infection. In the simulations conducted from the stochastic model, 36% of infections ascended, but only 9% had more than 1000 bacteria ascend. The results of the simulations indicated that infectious load and the peristaltic contractions moderate ascension and are inter-related in impact. Smaller initial loads were much more likely to ascend. Ascension was found to be dependent on the neutrophil response. Overall, our results indicate that infectious load, menstrual cycle timing, and the neutrophil response are critical factors in chlamydial ascension in women.     

Expression of carboxylesterase and lipase genes in rat liver cell-types

Approximately 80% of the body vitamin A is stored in liver stellate cells with in the lipid droplets as retinyl esters. In low vitamin A status or after liver injury, stellate cells are depleted of the stored retinyl esters by their hydrolysis to retinol. However, the identity of retinyl ester hydrolase(s) expressed in stellate cells is unknown. The expression of carboxylesterase and lipase genes in purified liver cell-types was investigated by real-time PCR. We found that six carboxylesterase and hepatic lipase genes were expressed in hepatocytes. Adipose triglyceride lipase was expressed in Kupffer cells, stellate cells and endothelial cells. Lipoprotein lipase expression was detected in Kupffer cells and stellate cells. As a function of stellate cell activation, expression of adipose triglyceride lipase decreased by twofold and lipoprotein lipase increased by 32-fold suggesting that it may play a role in retinol ester hydrolysis during stellate cell activation.     

The multicopper oxidase of Pseudomonas aeruginosa is a ferroxidase with a central role in iron acquisition

Recently it has been observed that multicopper oxidases are present in a number of microbial genomes, raising the question of their function in prokaryotes. Here we describe the analysis of an mco mutant from the opportunistic pathogen Pseudomonas aeruginosa. Unlike wild-type Pseudomonas aeruginosa, the mco mutant was unable to grow aerobically on minimal media with Fe(II) as sole iron source. In contrast, both the wild-type and mutant strain were able to grow either anaerobically via denitrification with Fe(II) or aerobically with Fe(III). Analysis of iron uptake showed that the mco mutant was impaired in Fe(II) uptake but unaffected in Fe(III) uptake. Purification and analysis of the MCO protein confirmed ferroxidase activity. Taken together, these data show that the mco gene encodes a multicopper oxidase that is involved in the oxidation of Fe(II) to Fe(III) subsequent to its acquisition by the cell. In view of the widespread distribution of the mco gene in bacteria, it is suggested that an iron acquisition mechanism involving multicopper oxidases may be an important and hitherto unrecognized feature of bacterial pathogenicity.     

Isolation and characterization of Anacystis nidulans R2 mutants affected in nitrate assimilation: Establishment of two new mutant types

Summary Eighteen mutant strains of the unicellular cyanobacterium Anacystis nidulans R2 that are unable to assimilate nitrate have been isolated after transposon Tn901 mutagenesis. Characterization of phenotypes and transformation tests have allowed the distinction of five different mutant types. The mutants exhibiting a nitrate reductase-less phenotype were identified as being affected in previously defined loci, as they could be transformed to the wild type by one of the plasmids pNR12, pNR63 or pNR193, which contain cloned genes of A. nidulans R2 involved in nitrate reduction. The mutations in strains FM2 and FM16 appear to affect two other genes involved in nitrate assimilation. Strain FM2 apparently bears a single mutation which results in both lack of nitrite reductase activity and loss of ammonium-promoted repression of nitrate reductase synthesis. FM16 has a low but significant level of nitrate reductase that is also freed from repression by ammonium, and an increased level of nitrite reductase activity. FM16 exhibited properties which indicate that this mutant strain might also be affected in the transport of nitrate into the cell.Abbreviations EDTA ethylenediamine-tetraacetic acid - MTA mixed alkyltrimethylammonium bromide - TES N-tris (hydroxymethyl)methyl-2-aminoethane sulfonic acid - Tricine N-[2-hydroxy-1,1-bis (hydroxymethyl)ethyl]-glycine - Tris Tris(hydroxymethyl)aminomethane     

Identification and Characterization of an mRNA Encoding a Proline-Rich Protein that Rapidly Declines in Abundance in the Tips of Harvested Asparagus Spears

We previously isolated a cDNA clone, pTIP13, whose homologousmRNA rapidly declined in abundance in the tips of harvestedasparagus (Asparagus officinalis L.) spears [King and Davies(1992) Plant Physiol. 100: 1661]. In order to identify factorsregulating the postharvest deterioration of asparagus, we havenow sequenced the pTIP13 cDNA, derived the encoded amino acidsequence and determined the cellular location of pTIP13 mRNAby in situ hybridization. pTIP13 encodes a derived protein thatis rich in proline (22.3%), but also has a high content of lysine(15.2%) and threonine (14.1%). The proline residues are locatedin motifs at the amino-terminal region of the protein. The carboxyl-terminalregion of the derived protein has a high leucine content andshares >64% amino acid identity with derived proteins identifiedfrom cDNA clones to cell wall protein precursor mRNAs obtainedfrom soybean hypocotyls, alfalfa roots, and tomato fruit. GenomicSouthern analysis suggests that pTIP13 is encoded by a single-copygene in asparagus. pTIP13 mRNA was localized to specific celltypes in the young bracts of the asparagus spear tip. The resultsprovide new information on the complexity of tissue responsesin the tips of asparagus spears following harvest. (Received February 5, 1996; Accepted May 16, 1996)     

A chemotaxonomic survey of kaurene derivatives in the genus Alepidea (Apiaceae)

Lipophilic extracts from the roots of 16 species of Alepidea were studied by GC-MS for the presence of kaurenoic acids, dehydrokaurenoic acids, kaurenic lactones, hydroxykaurenoic acids and other kaurene derivatives. Various mixtures of these compounds are present in yields of up to 11.8% dry wt. in the rhizomes and roots. Two different isomers of kaurenoic acid occur in Alepidea, the one as a major compound in all the species, the other as a major compound only in some of them. The first isomer is clearly a useful chemical marker for the genus Alepidea, but the apparent chemical dichotomy is not obviously correlated with morphological patterns. Alepidea amatymbica, however, is part of a morphologically isolated group within the genus and also differs from other species in its chemical complexity and in the unique presence of kaurenoic lactones.     

Candida aquatica sp.n. isolated from water scums

A new species ofCandida was isolated from water scums. It ferments glucose and sucrose; maltose and raffinose fermentation is retarded. Starch production could be demonstrated on malt agar. Potassium nitrate is assimilated. The proposed name isCandida aquatica. Data on the distribution and physiology of the species are presented.