Peroxisomes Are Required for in Vivo Nitric Oxide Accumulation in the Cytosol following Salinity Stress of Arabidopsis Plants

Peroxisomes are unique organelles involved in multiple cellular metabolic pathways. Nitric oxide (NO) is a free radical active in many physiological functions under normal and stress conditions. Using Arabidopsis (Arabidopsis thaliana) wild type and mutants expressing green fluorescent protein through the addition of peroxisomal targeting signal 1 (PTS1), which enables peroxisomes to be visualized in vivo, this study analyzes the temporal and cell distribution of NO during the development of 3-, 5-, 8-, and 11-d-old Arabidopsis seedlings and shows that Arabidopsis peroxisomes accumulate NO in vivo. Pharmacological analyses using nitric oxide synthase (NOS) inhibitors detected the presence of putative calcium-dependent NOS activity. Furthermore, peroxins Pex12 and Pex13 appear to be involved in transporting the putative NOS protein to peroxisomes, since pex12 and pex13 mutants, which are defective in PTS1- and PTS2-dependent protein transport to peroxisomes, registered lower NO content. Additionally, we show that under salinity stress (100 mm NaCl), peroxisomes are required for NO accumulation in the cytosol, thereby participating in the generation of peroxynitrite (ONOO⁻) and in increasing protein tyrosine nitration, which is a marker of nitrosative stress.Peroxisomes are single membrane-bound organelles whose basic enzymatic constituents are catalase and H₂O₂-producing flavin oxidases as their basic enzymatic and are found in virtually all eukaryotic cell types (Corpas et al., 2001; Hayashi and Nishimura, 2006; Reumann et al., 2007; Pracharoenwattana and Smith, 2008; Palma et al., 2009). These oxidative organelles are characterized by metabolic plasticity, as their enzymatic content can vary according to the organism, cell/tissue type, and environmental conditions (Mullen et al., 2001; Hayashi and Nishimura, 2003; Corpas et al., 2009a). In higher plants, peroxisomes contain a complex battery of antioxidative enzymes, such as catalase, superoxide dismutase, the components of the ascorbate-glutathione cycle, and the NADP-dehydrogenases of the pentose-P pathway (Corpas et al., 2009a). The generation of superoxide radicals has also been reported in the matrices and membranes of peroxisomes (López-Huertas et al., 1999; del Río et al., 2006). All these findings point to the important role played by peroxisomes in the cellular metabolism of reactive oxygen species (Corpas et al., 2001, 2009a; del Río et al., 2006).Nitric oxide (NO) is a free radical involved in many physiological functions under normal and stress conditions in both animal and plant cells (Arasimowicz and Floryszak-Wieczorek, 2007; Corpas et al., 2007a, 2008; Neill et al., 2008). Unlike animal systems, knowledge of NO generation and subcellular location in plants remains largely elusive, and the data are sometimes contradictory and ambiguous (Zemojtel et al., 2006; Jasid et al., 2006; Gas et al., 2009). In previous studies, we detected l-Arg-dependent nitric oxide synthase (NOS) activity in isolated pea (Pisum sativum) leaf peroxisomes (Barroso et al., 1999). In a later study, using electron paramagnetic resonance techniques, we demonstrated the presence of NO in these types of peroxisomes (Corpas et al., 2004). However, several issues, such as whether NO is released into the cytosol and the physiological function of this free radical, remain unresolved.In this study, we provide an in vivo demonstration that Arabidopsis peroxisomes are essential for NO accumulation in the cytosol, thus participating in the generation of nitrosative stress under salinity conditions. In addition, using Arabidopsis mutants pex12 and pex13, we also suggest that these peroxins are involved in importing into peroxisomes the enzyme responsible for NO generation.     

DNA Sequencing and Homologous Expression of a Small Peptide Conferring Immunity to Gassericin A,a Circular Bacteriocin Produced by Lactobacillus gasseri LA39

Gassericin A, produced by Lactobacillus gasseri LA39, is a hydrophobic circular bacteriocin. The DNA region surrounding the gassericin A structural gene, gaaA, was sequenced, and seven open reading frames (ORFs) of 3.5 kbp (gaaBCADITE) were found with possible functions in gassericin A production, secretion, and immunity. The deduced products of the five consecutive ORFs gaaADITE have homology to those of genes involved in butyrivibriocin AR10 production, although the genetic arrangements are different in the two circular bacteriocin genes. GaaI is a small, positively charged hydrophobic peptide of 53 amino acids containing a putative transmembrane segment. Heterologous expression and homologous expression of GaaI in Lactococcus lactis subsp. cremoris MG1363 and L. gasseri JCM1131^T, respectively, were studied. GaaI-expressing strains exhibited at least sevenfold-higher resistance to gassericin A than corresponding control strains, indicating that gaaI encodes an immunity peptide for gassericin A. Comparison of GaaI to peptides with similar characteristics found in the circular bacteriocin gene loci is discussed.Bacteriocins are antimicrobial peptides that act primarily against related bacterial species. The classification of bacteriocins remains controversial. Here, we use the classification of Maqueda et al. (30): class I (lantibiotics); class II (nonlantibiotics) with subclasses IIa (antilisteral pediocin-like bacteriocins), IIb (two-peptide bacteriocins), and IIc (leaderless bacteriocins); class III (large heat-labile bacteriocins); and class IV (circular bacteriocins linked at the N- and C-terminal amino acids).Nine class IV circular bacteriocins have been reported to date. They can be further divided into two major groups by using their primary structures, biochemical characteristics, and genetic arrangements. One group is the family of enterocin AS-48 (32), the first circular bacteriocin described (in 1994), which includes circularin A (25) and uberolysin (40). The other group is the family of gassericin A (19, 21), the second bacteriocin found (in 1998), which includes acidocin B (28), reutericin 6 (with a primary structure 100% identical to that of gassericin A) (22, 23), butyrivibriocin AR10 (17), and carnocyclin A, from Carnobacterium maltaromaticum UAL307 (33). The lantibiotic-like subtilosin A produced by Bacillus subtilis subsp. subtilis strain 168 (24) is an orphan member of the class IV bacteriocins. The gassericin A family of bacteriocins have been isolated from various bacterial species in several countries, suggesting the bacteriocin genes may be associated with transferable genetic elements.The bacteriocins of lactic acid bacteria (LAB) and bacteriocin-producing LAB strains isolated from foods are promising food preservative candidates, and strains of human origin are expected to be probiotics that could help to prevent the growth of harmful bacteria in food and the human intestine. Lactobacillus gasseri belongs to the Lactobacillus acidophilus group of LAB, which are natural inhabitants of the human intestinal tract (35), and many L. gasseri strains have been shown to produce bacteriocins (16, 20). Gassericin A was produced by L. gasseri LA39 isolated from the feces of a human infant; it has bactericidal activity against the food-borne pathogens Listeria monocytogenes, Bacillus cereus, and Staphylococcus aureus (16). Recently, using proteose peptone, some strains of L. gasseri containing LA39 were successfully cultured in reconstituted skim milk and cheese whey, where L. gasseri LA39 produced gassericin A; these low-cost, safe media could be used to improve the safety of biopreservation (1). Gassericin A has been purified and characterized, and its structural gene (gaaA) has been cloned and sequenced (21, 22). Determination of the complete chemical structure of gassericin A showed that the bacteriocin belongs to class IV and consists of 58 amino acid residues linked at the N and C termini (19). Little is known about the mechanisms of secretion and circularization of gassericin A and immunity to the circular bacteriocin.Here, we sequenced six genes surrounding gaaA thought to be related to production of and immunity to gassericin A and examined the homologous and heterologous expression of a small hydrophobic peptide, GaaI; we found that gaaI is an immunity gene providing protection against gassericin A.     

Effects of encouraged water drinking on thermoregulatory responses after 20 days of head-down bed rest in humans

We tested the hypothesis that encouraged water drinking according to urine output for 20 days could ameliorate impaired thermoregulatory function under microgravity conditions. Twelve healthy men, aged 24 ± 1.5 years (mean ± SE), underwent −6° head-down bed rest (HDBR) for 20 days. During bed rest, subjects were encouraged to drink the same amount of water as the 24-h urine output volume of the previous day. A heat exposure test consisting of water immersion up to the knees at 42°C for 45 min after a 10 min rest (baseline) in the sitting position was performed 2 days before the 20-day HDBR (PRE), and 2 days after the 20-day HDBR (POST). Core temperature (tympanic), skin temperature, skin blood flow and sweat rate were recorded continuously. We found that the −6° HDBR did not increase the threshold temperature for onset of sweating under the encouraged water drinking regime. We conclude that encouraged water drinking could prevent impaired thermoregulatory responses after HDBR.     

Alcadein Cleavages by Amyloid ��-Precursor Protein (APP) ��- and ��-Secretases Generate Small Peptides, p3-Alcs, Indicating Alzheimer Disease-related ��-Secretase Dysfunction

Alcadeins (Alcs) constitute a family of neuronal type I membrane proteins, designated Alc_α, Alc_β, and Alc_γ. The Alcs express in neurons dominantly and largely colocalize with the Alzheimer amyloid precursor protein (APP) in the brain. Alcs and APP show an identical function as a cargo receptor of kinesin-1. Moreover, proteolytic processing of Alc proteins appears highly similar to that of APP. We found that APP α-secretases ADAM 10 and ADAM 17 primarily cleave Alc proteins and trigger the subsequent secondary intramembranous cleavage of Alc C-terminal fragments by a presenilin-dependent γ-secretase complex, thereby generating “APP p3-like” and non-aggregative Alc peptides (p3-Alcs). We determined the complete amino acid sequence of p3-Alc_α, p3-Alc_β, and p3-Alc_γ, whose major species comprise 35, 37, and 31 amino acids, respectively, in human cerebrospinal fluid. We demonstrate here that variant p3-Alc C termini are modulated by FAD-linked presenilin 1 mutations increasing minor β-amyloid species Aβ42, and these mutations alter the level of minor p3-Alc species. However, the magnitudes of C-terminal alteration of p3-Alc_α, p3-Alc_β, and p3-Alc_γ were not equivalent, suggesting that one type of γ-secretase dysfunction does not appear in the phenotype equivalently in the cleavage of type I membrane proteins. Because these C-terminal alterations are detectable in human cerebrospinal fluid, the use of a substrate panel, including Alcs and APP, may be effective to detect γ-secretase dysfunction in the prepathogenic state of Alzheimer disease subjects.     

Hepatitis C Virus Impairs p53 via Persistent Overexpression of 3��-Hydroxysterol ��24-Reductase

Persistent infection with hepatitis C virus (HCV) induces tumorigenicity in hepatocytes. To gain insight into the mechanisms underlying this process, we generated monoclonal antibodies on a genome-wide scale against an HCV-expressing human hepatoblastoma-derived cell line, RzM6-LC, showing augmented tumorigenicity. We identified 3β-hydroxysterol Δ24-reductase (DHCR24) from this screen and showed that its expression reflected tumorigenicity. HCV induced the DHCR24 overexpression in human hepatocytes. Ectopic or HCV-induced DHCR24 overexpression resulted in resistance to oxidative stress-induced apoptosis and suppressed p53 activity. DHCR24 overexpression in these cells paralleled the increased interaction between p53 and MDM2 (also known as HDM2), a p53-specific E3 ubiquitin ligase, in the cytoplasm. Persistent DHCR24 overexpression did not alter the phosphorylation status of p53 but resulted in decreased acetylation of p53 at lysine residues 373 and 382 in the nucleus after treatment with hydrogen peroxide. Taken together, these results suggest that DHCR24 is elevated in response to HCV infection and inhibits the p53 stress response by stimulating the accumulation of the MDM2-p53 complex in the cytoplasm and by inhibiting the acetylation of p53 in the nucleus.     

Stability of DNA/Td3717 complexes for gene transfection,defined by the size and polydispersity of the complex

The amphiphilic α-helical peptide, Td3717, is a bi-functional synthetic peptide that acts as both a polycation for DNA binding and a ligand for targeted delivery to tumor cells. Td3717 forms a stable complex with plasmid DNA, and the complex maintained high transfection efficiency after storage at 4 °C for six months and after four freeze/thaw cycles. During the storage and freeze/thaw cycling, the particle size of the DNA/Td3717 complex remained less than 100 nm. The size of the complex is an important factor for its internalization into cells via the endocytosis pathway; therefore, the stability of the particles will strongly contribute to high transfection efficiencies after storage and repeated freezing/thawing.     

Relationships among tributary length,census population size,and genetic variability of white-spotted charr, <Emphasis Type="Italic">Salvelinus leucomaenis</Emphasis>, in the Lake Biwa water system

The relationships between census population size and tributary length and between haplotype diversity of the mitochondrial DNA and census population size in ten white-spotted charr populations in the Lake Biwa water system and its adjacent basins were investigated. The census population size (number of fish with ≥100 mm in standard length) significantly increased with the tributary length. In the eastern part of the Lake Biwa water system, haplotype diversity increased with the census population size. On other hand, in the western part of the water system and adjacent basins, haplotype diversity was zero irrespective of the census population size. These results suggest that white-spotted charr populations in the eastern and western part of the Lake Biwa water system have undergone different levels of bottlenecks related to the habitat size in the postglacial warming.     

Identification of proteins whose synthesis is preferentially enhanced by polyamines at the level of translation in mammalian cells

In Escherichia coli, several proteins whose synthesis is enhanced by polyamines at the level of translation have been identified. We looked for proteins that are similarly regulated in eukaryotes using a mouse mammary carcinoma FM3A cell culture system. Polyamine deficiency was induced by adding an inhibitor of ornithine decarboxylase, α-difluoromethylornithine, to the medium. Proteins enhanced by polyamines were determined by comparison of protein levels in control and polyamine-deficient cells using two-dimensional gel electrophoresis, and were identified by Edman degradation and/or LC/MALDI-TOF/TOF tandem mass spectrometry. Polyamine stimulation of the synthesis of these proteins at the level of translation was confirmed by measuring levels of the corresponding mRNAs and proteins, and levels of the [³⁵S]methionine pulse-labeled proteins. The proteins identified in this way were T-complex protein 1, β subunit (Cct2); heterogenous nuclear ribonucleoprotein L (Hnrpl); and phosphoglycerate mutase 1 (Pgam1). Since Cct2 was most strongly enhanced by polyamines among three proteins, the mechanism of polyamine stimulation of Cct2 synthesis was studied using NIH3T3 cells transiently transfected with genes encoding Cct2-EGFP fusion mRNA with normal or mutated 5′-untranslated region (5′-UTR) of Cct2 mRNA. Polyamines most likely enhanced ribosome shunting on the 5′-UTR of Cct2 mRNA.