Identification of genes up-regulated by retinoic-acid-induced differentiation of the human neuronal precursor cell line NTERA-2 cl.D1

The human teratocarcinoma cell line NTERA-2 cl.D1 (NT2 cells) can be induced with retinoic acid and cell aggregation to yield postmitotic neurones. This seems to model the in vivo situation, as high concentrations of retinoic acid, retinoic acid binding proteins, and receptors have been detected in the embryonic CNS and the developing spinal cord suggesting a role for retinoic acid in neurogenesis. Suppression subtractive hybridization was used to detect genes up-regulated by this paradigm of neuronal differentiation. Microfibril-associated glycoprotein 2 was found to be drastically up-regulated and has not been implicated in neuronal differentiation before. Suppression subtractive hybridization also identified DYRK4, a homologue of the Drosophila gene minibrain. Minibrain mutations result in specific defects in the development of the fly central nervous system. In adult rats, DYRK4 is only expressed in testis, but our results suggest an additional role for DYRK4 in neuronal differentiation. We have shown that suppression subtractive hybridization in conjunction with an efficient screening procedure is a valuable tool to produce a repertoire of differentially expressed genes and propose a new physiological role for several identified genes and expressed sequence tags.     

BAX inhibitor-1 is a Ca2+ channel critically important for immune cell function and survival

The endoplasmic reticulum (ER) serves as the major intracellular Ca²⁺ store and has a role in the synthesis and folding of proteins. BAX (BCL2-associated X protein) inhibitor-1 (BI-1) is a Ca²⁺ leak channel also implicated in the response against protein misfolding, thereby connecting the Ca²⁺ store and protein-folding functions of the ER. We found that BI-1-deficient mice suffer from leukopenia and erythrocytosis, have an increased number of splenic marginal zone B cells and higher abundance and nuclear translocation of NF-κB (nuclear factor-κ light-chain enhancer of activated B cells) proteins, correlating with increased cytosolic and ER Ca²⁺ levels. When put into culture, purified knockout T cells and even more so B cells die spontaneously. This is preceded by increased activity of the mitochondrial initiator caspase-9 and correlated with a significant surge in mitochondrial Ca²⁺ levels, suggesting an exhausted mitochondrial Ca²⁺ buffer capacity as the underlying cause for cell death in vitro. In vivo, T-cell-dependent experimental autoimmune encephalomyelitis and B-cell-dependent antibody production are attenuated, corroborating the ex vivo results. These results suggest that BI-1 has a major role in the functioning of the adaptive immune system by regulating intracellular Ca²⁺ homeostasis in lymphocytes.The endoplasmic reticulum (ER) serves as the major intracellular calcium (Ca²⁺) store, the release of which controls a vast array of cellular functions from short-term responses such as contraction and secretion to long-term regulation of cell growth and proliferation.¹ Dysregulated release of ER Ca²⁺, in contrast, initiates programmed cell death by several mechanisms including mitochondrial Ca²⁺ overload, depolarization, ATP loss and cytochrome c release.² Besides this, the ER also has a key role in the synthesis, folding and sorting of proteins destined for the secretory pathway. The deleterious consequences of an increase in unfolded proteins is called ER stress and can be antagonized by the unfolded protein response (UPR), a mechanism that coordinates a simultaneous increase in the ER folding capacity and a decrease in folding load. In the case of insufficient adaptation to ER stress, cells undergo apoptosis.³BAX (BCL2-associated X protein) inhibitor-1 (BI-1) is an evolutionarily conserved protein that bridges both the Ca²⁺ homeostasis and UPR functions of the ER.⁴ BI-1 was first identified in a screen for human proteins capable of inhibiting BAX-mediated cell death in yeast.⁵ In mammalian cells, BI-1''s antiapoptotic function is most pronounced in paradigms of ER stress⁶ and involves changes in the amount of Ca²⁺ that can be released from intracellular stores.^{6, 7} BI-1 is a highly hydrophobic protein that forms a Ca²⁺ pore responsible for its Ca²⁺ leak properties⁸ and is the founding member of a family of six proteins with similar properties.⁹ The increase in the ER Ca²⁺ leak mediated by BI-1 is blocked at a more acidic pH¹⁰ – a function recently corroborated by a structural analysis of a bacterial homolog of BI-1.¹¹Despite its evolutionarily conserved role in important functions such as ER stress and Ca²⁺ regulation, bi-1−/− mice were reported to have no phenotypic abnormalities but increased infarct volumes in a stroke model, and increased sensitivity to tunicamycin-induced kidney toxicity.⁶ Moreover, livers from BI-1-deficient mice regenerate faster than those from wild-type (WT) mice and this correlates with increased nuclear translocation of nuclear factor of activated T cells (NFATs)¹², a Ca²⁺-dependent process. BI-1 knockout (KO) mice also express more of the spliced form of X-box-binding protein-1 (sXBP-1) in their liver and kidney,¹³ which is generated by the endoribonuclease activity of inositol requiring enzyme 1 (IRE1), and is considered an indicator of increased UPR activity. This was later reproduced and attributed to an inhibitory function of BI-1 on IRE1α mediated via a direct interaction of the two proteins.¹⁴In our study, we found that bi-1−/− mice are more obese and suffer from leukopenia. T and B cells from these mice show significant changes in cellular Ca²⁺ homeostasis and dynamics, and are more prone to spontaneous death in culture but, surprisingly, demonstrate no signs of ongoing ER stress within the homeostatic system of the living animal. These changes lead to an attenuated functioning of the adaptive immune system in vivo. Our results suggest that a major role of BI-1 in vivo involves its effects on the intracellular Ca²⁺ homeostasis in lymphocytes in line with its function as an ER Ca²⁺ leak channel.     

Xylose fermentation by yeasts

Summary Utilization and fermentation of xylose by the yeasts Pachysolen tannophilus I fGB 0101 and Pichia stipitis 5773 to 5776 under aerobic and anaerobic conditions are investigated. Pa. tannophilus requires biotin and thiamine for growth, whereas Pi. stipitis does not, and growth of both yeasts is stimulated by yeast extract. Pi. stipitis converts xylose (30 g/l) to ethanol under anaerobic conditions with high yields of 0,40 and it produces only low amounts of xylitol. The yield coefficient is further increased at lower xylose concentrations.Publication Nr. 2 of this series: Eur. J. Appl. Microbiol. Biotechnol. (1983) 17, 287–291.     

<Emphasis Type="Italic">Salmonella enterica</Emphasis> subspecies <Emphasis Type="Italic">enterica</Emphasis> serovar Choleraesuis in a German wild boar population: occurrence and characterisation

Background

The swine-adapted serovar Choleraesuis of Salmonella enterica subspecies enterica is found rarely in domestic pigs in Germany. However, a considerable and increasing number of S. Choleraesuis organisms have been isolated from wild boars in Germany in recent years. To investigate a possible epidemiological context, S. Choleraesuis strains from a regional German wild boar population and other hosts were characterised by genotyping methods.

Results

Macrorestriction analysis, biochemical differentiation and antimicrobial susceptibility typing enabled the identification of several clusters of S. Choleraesuis. Some clusters occurred almost permanently in a certain district, whereas other groups circulated among different wild boar herds in larger regions. Non-porcine hosts were infected with the same cluster as the wild boars.

Conclusions

The emergence of S. Choleraesuis in wild boars might be caused by a higher prevalence in the wild boar population, but also the higher awareness to infections with African swine fever may have resulted in a higher number of examined animals. Separation of wild boar populations and, as a result, also the diverse S. Choleraesuis organisms might be due to natural barriers and artificial barriers like arterial roads. The findings of S. Choleraesuis in domestic pigs emphasize the importance of strict biosecurity measures to prevent transmission from wild boars of this but also other pathogens. To avoid risks for humans by zoonotic pathogens regular inspections of meat from wildlife need to be conducted.

     

Promoting Myelination in an In Vitro Mouse Model of the Peripheral Nerve System: The Effect of Wine Ingredients

Protective properties of moderate wine consumption against cancers, cardiovascular, metabolic and degenerative diseases have been reported in various clinical studies. Here, we analysed the effect of red wine (RW) and white wine (WW) on myelination using an in vitro embryonic co-culture mouse model. The total amount of myelin was found to be significantly increased after RW and WW treatment, while only RW significantly increased the number of internodes. Both types of wine increased rat Schwann cell- (rSC) expression of the NAD+-dependent deacetylase sirtuin-two-homolog 2 (Sirt2), a protein known to be involved in myelination.Detailed chemical analysis of RW revealed a broad spectrum of anthocyanins, piceids, and phenolics, including resveratrol (RSV). In our assay system RSV in low concentrations induced myelination. Furthermore RSV raised intracellular glutathione concentrations in rSCs and in co-cultures and therefore augmented antioxidant capacity.We conclude that wine promotes myelination in a rodent in vitro model by controlling intracellular metabolism and SC plasticity. During this process, RSV exhibits protective properties; however, the fostering effect on myelinaton during exposure to wine appears to be a complex interaction of various compounds.     

Occurrence and characterisation of <Emphasis Type="Italic">Salmonella enterica</Emphasis> subspecies <Emphasis Type="Italic">diarizonae</Emphasis> serovar 61: k: 1, 5, (7) in sheep in the federal state of Thuringia,Germany

Background

The occurrence of Salmonella enterica subspecies diarizonae serovar 61: k: 1, 5, (7) (SASd) and other Salmonella organisms in sheep in the German federal state of Thuringia was examined for the first time. Pooled faecal samples from 90 flocks located in this state were monitored.

Results

Only SASd was detected in 74 (82.2%) out of the 90 sheep herds, other Salmonella serovars were not identified. A positive correlation was found between the flock size and the detection probability of SASd. Despite the agent’s high prevalence, clinical symptoms of a disease exclusively due to SASd have not been observed. The SASd strains were characterised by macrorestriction analysis, antimicrobial testing and the biochemical profile. All strains were sensitive to 13 out of 14 antimicrobial substances and resistant to only sulfamethoxazole. The high number of macrorestriction groups of SASd strains indicated a low clonality of the serovar.

Conclusions

Data from sheep derived foods and public health data in Germany strongly suggest that the significance of SASd for public health is considerably lower than that of serovars belonging to Salmonella enterica subspecies enterica. For this reason and because of the low disease-causing potential of SASd in sheep, it is worthwile to consider a reduction in ongoing activities from combating to monitoring serovar 61: k: 1, 5, (7) in the sheep population.