A Rac1/phosphatidylinositol 3-kinase/Akt3 anti-apoptotic pathway, triggered by AlsinLF, the product of the ALS2 gene, antagonizes Cu/Zn-superoxide dismutase (SOD1) mutant-induced motoneuronal cell death

AlsinLF, the product of the ALS2 gene, inhibits Cu/Zn-superoxide dismutase (SOD1) mutant-induced neurotoxicity via its Rho guanine nucleotide-exchanging factor domain. We here identified Rac1, a Rho family small GTPase, as a target for the Rho guanine nucleotide-exchanging factor activity of alsinLF. Rac1 associates with alsinLF. The amount of the GTP form of Rac1 is up-regulated by enforced overexpression of alsinLF. We further found not only that constitutively active Rac1 suppresses motoneuronal cell death induced by SOD1 mutants but also that the neuroprotective activity of alsinLF was completely inhibited by knocking down the endogenous Rac1 expression with small interfering RNA for Rac1, indicating that Rac1 is the major effector for alsinLF-mediated neuroprotection. Such alsinLF/Rac1-mediated neuroprotection occurs specifically against the SOD1 mutant-induced cell death but not against the cell death induced by any other neurotoxic insults in motoneuronal NSC34 cells. We further demonstrated that the alsinLF/Rac1-mediated neuroprotective signal is transmitted to the phosphatidylinositol 3-kinase/Akt anti-apoptotic axis. Among three Akt family proteins, Akt3 is the major downstream mediator for alsinLF/Rac1-mediated neuroprotection, which is specifically effective against SOD1 mutant-induced neurotoxicity.     

Reduced responsiveness is an essential feature of chronic fatigue syndrome: A fMRI study

Background  

Although the neural mechanism of chronic fatigue syndrome has been investigated by a number of researchers, it remains poorly understood.     

d-Ser-containing humanin shows promotion of fibril formation

Humanin (HN), a peptide of 24 amino acid residues, suppresses the neuronal cell death that is induced by the gene products of Alzheimer’s disease. HN contains two Ser residues at positions 7 and 14. Because the proportion of d-Ser isomerized from l-Ser in proteins appears to increase as cellular organs age, we explored the structural effects of the isomerization of each Ser residue in HN. By using a thioflavin-T assay to detect fibril formation, we found that an HN derivative that contained two isomerized d-Ser residues had a greater tendency to form fibrils than did wild-type HN or HNs containing single d-Ser residues. A previous report showed that HN containing two d-Ser residues exerts neuroprotective activity. Our data, therefore, suggest that the fibril formation by HN that contains two d-Ser residues may promote HN neuroprotective activity.     

Neutralization of leukotriene C4 and D4 activity by monoclonal and single-chain antibodies

Background

Cysteinyl leukotrienes (LTs) are key mediators in inflammation. To explore the structure of the antigen-recognition site of a monoclonal antibody against LTC₄ (mAbLTC), we previously isolated full-length cDNAs for heavy and light chains of the antibody and prepared a single-chain antibody comprising variable regions of these two chains (scFvLTC).

Methods

We examined whether mAbLTC and scFvLTC neutralized the biological activities of LTC₄ and LTD₄ by competing their binding to their receptors.

Results

mAbLTC and scFvLTC inhibited their binding of LTC₄ or LTD₄ to CysLT₁ receptor (CysLT₁R) and CysLT₂ receptor (CysLT₂R) overexpressed in Chinese hamster ovary cells. The induction by LTD₄ of monocyte chemoattractant protein-1 and interleukin-8 mRNAs in human monocytic leukemia THP-1 cells expressing CysLT₁R was dose-dependently suppressed not only by mAbLTC but also by scFvLTC. LTC₄- and LTD₄-induced aggregation of mouse platelets expressing CysLT₂R was dose-dependently suppressed by either mAbLTC or scFvLTC. Administration of mAbLTC reduced pulmonary eosinophil infiltration and goblet cell hyperplasia observed in a murine model of asthma. Furthermore, mAbLTC bound to CysLT₂R antagonists but not to CysLT₁R antagonists.

Conclusions

These results indicate that mAbLTC and scFvLTC neutralize the biological activities of LTs by competing their binding to CysLT₁R and CysLT₂R. Furthermore, the binding of cysteinyl LT receptor antagonists to mAbLTC suggests the structural resemblance of the LT-recognition site of the antibody to that of these receptors.

General significance

mAbLTC can be used in the treatment of inflammatory diseases such as asthma.     

Evaluation of the lower protein limit in the budding yeast Saccharomyces cerevisiae using TIPI-gTOW

Background

Identifying permissible limits of intracellular parameters such as protein expression provides important information for examining robustness. In this study, we used the TEV protease-mediated induction of protein instability (TIPI) in combination with the genetic Tug-of-War (gTOW) to develop a method to measure the lower limit of protein level. We first tested the feasibility of this method using ADE2 as a marker and then analyzed some cell cycle regulators to reveal genetic interactions.

Results

Using TIPI-gTOW, we successfully constructed a strain in which GFP-^TDegFAde2 was expressed at the lower limit, just sufficient to support cellular growth under the -Ade condition by accelerating degradation by TEV protease. We also succeeded in constructing a strain in which the minimal level of GFP-^TDegFCdc20 was expressed by TIPI-gTOW. Using this strain, we studied genetic interactions between cell cycle regulators and CDC20, and the result was highly consistent with the previously identified interactions. Comparison of the experimental data with predictions of a mathematical model revealed some interactions that were not implemented into the current model.

Conclusions

TIPI-gTOW is useful for estimating changes in the lower limit of a protein under different conditions, such as different genetic backgrounds and environments. TIPI-gTOW is also useful for analyzing genetic interactions of essential genes whose deletion mutants cannot be obtained.     

Independent pathways leading to apoptotic cell death, oxidative burst and defense gene expression in response to elicitin in tobacco cell suspension culture.

We characterized pharmacologically the hypersensitive cell death of tobacco BY-2 cells that followed treatments with Escherichia coli preparations of INF1, the major secreted elicitin of the late blight pathogen Phytophthora infestans. INF1 elicitin treatments resulted in fragmentation and 180 bp laddering of tobacco DNA as early as 3 h post-treatment. INF1 elicitin also induced rapid accumulation of H2O2 typical of oxidative burst, and the expression of defense genes such as phenylalanine ammonia-lyase (PAL) gene at 1 h and 3 h after elicitin treatment, respectively. To investigate the involvement of the oxidative burst and/or the expression of defense genes in the signal transduction pathways leading to hypersensitive cell death, we analyzed the effect of several chemical inhibitors of signal transduction pathways on the various responses. The results indicated that (a) the cell death required serine proteases, Ca2+ and protein kinases, (b) the oxidative burst was involved in Ca2+ and protein kinase mediated pathways, but elicitin-induced AOS was neither necessary nor sufficient for cell death and PAL gene expression, and (c) the signaling pathway of PAL gene expression required protein kinases. These results suggest that the three signal transduction pathways leading to cell death, oxidative burst and expression of defense genes branch in the early stages that follow elicitin recognition by tobacco cells.     

Helicobacter pylori Infection Significantly Increases Insulin Resistance in the Asymptomatic Japanese Population

Background: Helicobacter pylori infection has been shown to contribute to atherosclerosis and cardiovascular diseases. Insulin resistance is the pathophysiologic background of the clinical features of atherosclerosis and cardiovascular diseases. We examined the association between H. pylori infection and insulin resistance in a large Japanese population. Materials and Methods: Fifteen hundred ninety‐eight consecutive asymptomatic subjects that underwent a complete medical survey in our institute between May 2007 and July 2008 were recruited. Cases under medication for hypertension, hyperlipidemia, diabetes mellitus, hyperuricemia, or cardiovascular diseases were excluded from the study. Cases suffering from chronic renal or liver failure were also excluded. The homeostasis model assessment of insulin resistance (HOMA‐IR) score was used to quantitatively estimate insulin resistance. Visceral and subcutaneous adipose tissues (SAT) were measured by computed tomography. The association between H. pylori serostatus and HOMA‐IR score was investigated by multivariate regression analysis. Results: A total of 988 men and 119 women were eventually eligible for this cross‐sectional survey. Helicobacter pylori seropositivity was significantly higher in 99 cases with insulin resistance (HOMA‐IR ≥2.5) compared with 1008 cases without insulin resistance (HOMA‐IR <2.5) (39.4 vs 28.7%, p = .027). There was a significant association between H. pylori serostatus and HOMA‐IR score by multiple linear regression analysis (coefficients = 0.152, 95% CI = 0.058–0.246, p = .001), after adjusting for sex, age, body mass index, waist girth, visceral and subcutaneous adipose tissues, smoking status, alcohol consumption, dietary habits, and physical activity. Conclusions: Helicobacter pylori infection significantly and independently contributed to promoting insulin resistance in a large asymptomatic population.