In vitro oocyte culture and somatic cell nuclear transfer used to produce a live-born cloned goat

The use of an in vitro culture system was examined for production of somatic cells suitable for nuclear transfer in the goat. Goat cumulus-oocyte complexes were incubated in tissue culture medium TCM-199 supplemented with 10% fetal bovine serum (FBS) for 20 h. In vitro matured (IVM) oocytes were enucleated and used as karyoplast recipients. Donor cells obtained from the anterior pituitary of an adult male were introduced into the perivitelline space of enucleated IVM oocytes and fused by an electrical pulse. Reconstituted oocytes were cultured in chemically defined medium for 9 days. Two hundred and twenty-eight oocytes (70%) were fused with donor cells. After in vitro culture, seven somatic cell nuclear transfer (SCNT) oocytes (3%) developed to the blastocyst stage. SCNT embryos were transferred to the oviducts of recipient females (four 8-cell embryos per female) or uterine horn (two blastocysts per female). One male clone (NT1) was produced at day 153 from an SCNT blastocyst and died 16 days after birth. This study demonstrates that nuclear transferred goat oocytes produced using an in vitro culture system could develop to term and that donor anterior pituitary cells have the developmental potential to produce term offspring. In this study, it suggested that the artificial control of endocrine system in domestic animal might become possible by the genetic modification to anterior pituitary cells.     

Kinetic study of seita-fitting

We have already presented two studies of the traditional carrier frame, the seita. In our first study, we reported on seita users supporting loads not on the lumbar vertebrae but on the sacrum. In the second study, we showed that carrying a load on the sacrum was efficient in terms of metabolic rate, muscle activity, cadence and subjective responses. The purpose of this study was to verify the effect of carrying a load on the sacrum in terms of gait pattern. We compared the kinetic parameters produced while carrying a load on the sacrum (LOS) with those produced while carrying a load on the lumbar vertebrae (LOLV). Maximum propulsive force and medial impulse were significantly larger in LOS than in LOLV. These results suggested that a normal gait pattern was maintained more in LOS conditions than in LOLV conditions. This indicated that seita-fitting was efficient for carrying and transporting loads.     

The membrane biogenesis peroxin Pex16p. Topogenesis and functional roles in peroxisomal membrane assembly

Previously we isolated human PEX16 encoding 336-amino acid-long peroxin Pex16p and showed that its dysfunction was responsible for Zellweger syndrome of complementation group D (group 9). Here we have determined the membrane topology of Pex16p by differential permeabilization method: both N- and C-terminal parts are exposed to the cytosol. In the search for Pex16p topogenic sequence, basic amino acids clustered sequence, RKELRKKLPVSLSQQK, at positions 66-81 and the first transmembrane segment locating far downstream, nearly by 40 amino acids, of this basic region were defined to be essential for integration into peroxisome membranes. Localization to peroxisomes of membrane proteins such as Pex14p, Pex13p, and PMP70 was interfered with in CHO-K1 cells by a higher level expression of the pex16 patient-derived dysfunctional but topogenically active Pex16pR176ter comprising resides 1-176 or of the C-terminal cytoplasmic part starting from residues at 244 to the C terminus. Furthermore, Pex16p C-terminal cytoplasmic part severely abrogated peroxisome restoration in pex mutants such as matrix protein import-defective pex12 and membrane assembly impaired pex3 by respective PEX12 and PEX3 expression, whereas the N-terminal cytosolic region did not affect restoration. These results imply that Pex16p functions in peroxisome membrane assembly, more likely upstream of Pex3p.     

Phosphorylation-dependent scaffolding role of JSAP1/JIP3 in the ASK1-JNK signaling pathway. A new mode of regulation of the MAP kinase cascade

JSAP1 (also termed JIP3) is a scaffold protein that interacts with specific components of the JNK signaling pathway. Apoptosis signal-regulating kinase (ASK) 1 is a MAP kinase kinase kinase that activates the JNK and p38 mitogen-activated protein (MAP) kinase cascades in response to environmental stresses such as reactive oxygen species. Here we show that JSAP1 bound ASK1 and enhanced ASK1- and H(2)O(2)-induced JNK activity. ASK1 phosphorylated JSAP1 in vitro and in vivo, and the phosphorylation facilitated interactions of JSAP1 with SEK1/MKK4, MKK7 and JNK3. Furthermore, ASK1-dependent phosphorylation was required for JSAP1 to recruit and thereby activate JNK in response to H(2)O(2). We thus conclude that JSAP1 functions not only as a simple scaffold, but it dynamically participates in signal transduction by forming a phosphorylation-dependent signaling complex in the ASK1-JNK signaling module.     

The novel role of the C-terminal region of SHP-2. Involvement of Gab1 and SHP-2 phosphatase activity in Elk-1 activation

SHP-2, a nontransmembrane-type protein-tyrosine phosphatase that contains two Src homology 2 (SH2) domains, is thought to participate in growth factor signal transduction pathways via SH2 domain interactions. To determine the role of each region of SHP-2 in platelet-derived growth factor signaling assayed by Elk-1 activation, we generated six deletion mutants of SHP-2. The large SH2 domain deletion SHP-2 mutant composed of amino acids 198-593 (SHP-2-(198-593)), but not the smaller SHP-2-(399-593), showed significantly higher SHP-2 phosphatase activity in vitro. In contrast, SHP-2-(198-593) mutant inhibited wild type SHP-2 phosphatase activity, whereas SHP-2-(399-593) mutant increased activity. To understand these functional changes, we focused on the docking protein Gab1 that assembles signaling complexes. Pull-down experiments with Gab1 suggested that the C-terminal region of SHP-2 as well as the SH2 domains (N-terminal region) associated with Gab1, but the SHP-2-(198-593) mutant did not associate with Gab1. SHP-2-(1-202) or SHP-2-(198-593) inhibited platelet-derived growth factorinduced Elk-1 activation, but SHP-2-(399-593) increased Elk-1 activation. Co-expression of SHP-2-(1-202) with SHP-2-(399-593) inhibited SHP-2-(399-593)/Gab1 interaction, and the SHP-2-(399-593) mutant induced SHP-2 phosphatase and Elk-1 activation, supporting the autoinhibitory effect of SH2 domains on the C-terminal region of SHP-2. These data suggest that both SHP-2/Gab1 interaction in the C-terminal region of SHP-2 and increased SHP-2 phosphatase activity are important for Elk-1 activation. Furthermore, we identified a novel sequence for SHP-2/Gab1 interactions in the C-terminal region of SHP-2.     

Heat stress facilitates stretch-induced hypertrophy of cultured muscle cells

Increased mechanical stress induced by stretch is an important growth stimulus in skeletal muscle. Heat shock proteins (HSPs) are an important family of endogenous, protective proteins. HSP90 and HSP70 families show elevated levels under beat stress. Mechanical stress, such as physical exercise, is known to induce not only muscular hypertrophy but also the elevation of HSPs expression in skeletal muscle. The purpose of this study was to determine whether heat stress facilitates the stretch-induced hypertrophy of skeletal muscle cells. Cultured rat myotubes (L6) were plated on collagenized Silastic membranes and incubated at 41 degrees C for 60 and 75 minutes (heat shock). Following the incubation, the cells were subjected two-second stretching and four-second releasing for 4 days at 37 degrees C. Protein concentrations in the homogenates and pellets of the cultured skeletal muscle cells increased under heat shock and/or mechanical stretching. The protein concentration of cells following mechanical stretching following heat shock was significantly higher than that following either heat shock or mechanical stretching alone. HSP72 in supernatants and HSP90 in pellets increased under heat shock and/or mechanical stretching. HSP90 in supernatants decreased following heat shock and/or mechanical stretching. Changes in HSPs and cellular protein concentrations in stressed cells suggest that the expression of HSPs may be closely related with muscular hypertrophy.     

Relationship between gastric ulcer and Helicobacter pylori VacA detected in gastric juice using bead-ELISA method

Background. VacA is an important pathogenetic factor produced by Helicobacter pylori. VacA has often been detected in supernatants of liquid cultures or lysates of whole bacterial cells. However, no studies have ever tried to assay VacA produced in the human stomach. We applied a very sensitive and simple method, bead‐ELISA, to detect VacA in gastric juice. Materials and Methods. Forty‐eight H. pylori‐positive patients (16 nonulcer dyspepsia, 16 gastric ulcer, and 16 duodenal ulcer) and four H. pylori‐negative nonulcer dyspepsia patients had endoscopy performed and gastric juice were aspirated. Polystyrene beads coated with the antibody to VacA, were used in this bead‐ELISA method. The nucleotide sequences of vacA in the signal and middle regions were investigated. Results. Of the 48 samples that were positive for H. pylori, 21 [43.8%] were found to be VacA positive in gastric juice. The average and maximum concentrations of detected VacA in gastric juice were 143.2 ± 216.5 and 840 pg/ml, respectively. The average density of VacA from gastric ulcer patients (227.5 ± 276.7 pg/ml) was higher than that found in nonulcer dyspepsia (51.8 ± 39.8 pg/ml) and duodenal ulcer (49.2 ± 21.5 pg/ml) patients. There was no relationship between VacA in gastric juice and vacA genotype. Conclusions. VacA in gastric juice could be directly detected by bead‐ELISA. In this study, the diversity of disease outcome was associated with not the quality but the quantity of VacA. Therefore, not only the quality but also the quantity of VacA is important etiological factors in the pathogenesis of mucosal damage.     

IGF-I mediates the stimulatory effect of high phosphate concentration on osteoblastic cell proliferation

Although high concentrations of inorganic phosphate (Pi) are known to have a distinct anabolic effect on bone structure and metabolism, the precise mechanism by which phosphate possesses anabolic effect on bone formation has not been elucidated. The present study was performed to examine the effects of an increase in extracellular Pi concentration ([Pi](e)) on the proliferation of osteoblastic MC3T3-E1 cells. Increase in [Pi](e)(2-4 mM) dose-dependently stimulated DNA synthesis. Indomethacin, an inhibitor of prostaglandin synthesis, did not affect high [Pi](e)-induced DNA synthesis. DNA synthesis first increased affer a 3 h exposure to 4 mM [Pi](e) and its stimulatory effect was observed in a time-dependent manner up to 24 h. On the other hand, DNA synthesis was significantly but partially blocked by cycloheximide, suggesting that this stimulatory effect of high [Pi](e) was at least in part dependent on new protein synthesis. There is recent evidence that MG3T3-E1 cells constitutively produce and secrete insulin-like growth factor-I (IGF-I) and possess IGF-I receptors. IGF-I antiserum (1:10,000 to 1:100) significantly but partially blocked the stimulatory effect of [Pi](e) (4 mM) on DNA synthesis in a concentration-dependent manner. A neutralizing IGF-I antibody as well as IGF-I receptor antibody also significantly but partially blocked DNA synthesis stimulated by high [Pi](e) in a concentration-dependent manner, indicating that IGF-I at least in part mediated the high [Pi](e)-induced effect. Actually, high [Pi](e) significantly increased the secretion of immunoreactive IGF-I into the medium as well as the expression of IGF-I mRNA. Present findings indicate that an increase in [Pi](e) stimulated DNA synthesis partly via an increase in IGF-I action.     

Lysophosphatidic acid,a growth factor-like lipid,in the saliva

Lysophosphatidic acid is a multifunctional phospholipid mediator and elicits a variety of biological responses in vitro and in vivo. Evidence is accumulating that lysophosphatidic acid plays important physiological roles in diverse mammalian tissues and cells. In the present study, we first examined whether lysophosphatidic acid is present in human saliva. We found that a significant amount of lysophosphatidic acid is present in the saliva (0.785 nmol/ml). The predominant fatty acyl moiety of lysophosphatidic acid was 18:1n-9 + n-7 followed by 18:0 and 16:0. A small amount of lysoplasmanic acid, an alkyl ether-linked analog of lysophosphatidic acid, was also detected in the saliva (0.104 nmol/ml). We found that physiologically relevant concentrations of lysophosphatidic acid induced accelerated growth of cells of mouth, pharynx, and esophagus origin in vitro. Lysophosphatidic acid also induced rapid increases in the intracellular free Ca2+ concentrations in these cells. We obtained evidence that lysophosphatidic acid receptor mRNAs are actually present in these cells. These results strongly suggest that lysophosphatidic acid is involved in wound healing in the upper digestive organs such as the mouth, pharynx, and esophagus.