Doppel-induced Purkinje cell death is stoichiometrically abrogated by prion protein

Activin A can induce erythroid differentiation, whereas basic fibroblast growth factor (bFGF) can maintain the undifferentiated status of erythroid progenitors. How these two factors together can affect the regulation of erythroid differentiation in hematopoietic cells has not been elucidated. This study demonstrates that bFGF antagonizes activin A-mediated growth inhibition and hemoglobin (Hb) synthesis in K562 cells. Analyses of mitogen-activated protein kinases revealed that activin A-induced p38 phosphorylation and inhibited ERK1/2 phosphorylation. In contrast, bFGF worked antagonistically to induce ERK1/2 phosphorylation and inhibited p38 phosphorylation in K562 cells. Furthermore, co-treatment of cells with activin A and bFGF decreased p38 phosphorylation and increased ERK1/2 phosphorylation. SB203580 inhibition of p38 activity eliminated activin A-mediated growth inhibition and Hb synthesis, whereas U0126 inhibition of ERK1/2 activity augmented the effects of activin A on K562 cells. These results suggest that bFGF can negatively modulate p38 and positively modulate ERK1/2 to antagonize activin A-mediated growth inhibition and Hb synthesis in K562 cells.     

Biochemical,Pharmacological and Structural Characterization of a New PLA<Subscript>2</Subscript> from <Emphasis Type="Italic">Crotalus durissus terrificus</Emphasis> (South American Rattlesnake) Venom

A new PLA₂ (F16) was purified from Crotalus durissus terrificus venom by molecular exclusion chromatography followed by analytical reverse phase HPLC. The PLA₂ (14.86 kDa by MALDI-TOF mass spectrometry) had an amino acid sequence of SLLQFNKMIKFETRKNAVPFYAFYGCYCGWGGRRRPKDATDRCCFVHDCCYEKVTKCNTKWDIYRYSLKSGYITCGKGTWCKEQICECDRVAAECLRRSLSTYKNGYMFYPDSRCRGPSETC, and showed highly conserved Ca²⁺-binding and catalytic sites. F16 showed allosteric behavior with 10 mM Ca²⁺ and had temperature and pH optima of 25°C and 7.9, respectively. F16 (10 μg/ml) produced neuromuscular blockade in chick biventer cervicis preparations in the absence and presence of crotapotin, indicating that crotapotin was not essential for neuromuscular action in this preparation. In contrast, in mouse phrenic nerve-diaphragm preparations, the neuromuscular blockade produced by the same concentration of toxin was dependent on crotapotin. Pre-incubation with heparin markedly reduced the neurotoxicity of F16. These results show that the biochemical and structural properties of F16 are similar to those of the PLA₂ isoforms F15 and F17, but that the neurotoxicity and the requirement for crotapotin to form the crotoxin complex varies according to the neuromuscular preparation.     

Antibody-based detection of advanced glycation end-products: promises <Emphasis Type="Italic">vs</Emphasis>. limitations

Advanced glycation end-products (AGEs) of the Maillard reaction were originally measured according to their fluorescent and browning properties. A subsequent study with instrumental analyses such as high-performance liquid chromatography and gas chromatography mass spectrometry more clearly demonstrated the involvement of each AGE structure in pathological conditions. Furthermore, immunochemical methods have also been developed to clarify the localization of AGEs in tissues and measurement of AGEs in multiple clinical samples. Although the involvement of AGEs in age-related diseases has progressed due to immunochemical techniques, the relationship between AGE structure and diseases has not been clear because little was known about the epitope structure of each anti-AGE antibody. However, the development of epitope-identified antibodies against AGEs has made it possible to clarify AGE structures involved in diseases. This review discusses not only the usability of anti-AGE antibodies to evaluate AGEs and disease pathology and screen AGE inhibitors, but also describes their usage.     

Differential processes underlying the roadside distributions of native and alien plant assemblages

Although biological invasion often alters ecosystem properties and community composition at different scales, considerable uncertainty still exists regarding the underlying mechanisms that regulate the spread of alien species into new habitats. An alien invasion is generally achieved through multiple processes from multiple sources; this type of invasion often prevents us from understanding of the dispersal mechanisms. Here, we aim to disentangle the processes of alien invasion by focusing on a single migration source. We surveyed the distribution of alien and native plant species in Shiretoko National Park, located in northern Japan. We measured the coverage of each species and the environmental and spatial factors in 362 quadrats established along roadsides. We found 101 native species and 35 alien species (γ-diversity) throughout the quadrats. The local species richness (α-diversity) was higher for the alien species (6.1 species) than for the native species (3.2 species). There was a significant negative correlation in α-diversity between native and alien species. Moreover, the α-diversity and distance from the nearest town (migration source) showed a negative relationship for alien assemblages while the native assemblages showed the opposite trend. These results suggest that the alien species are expanding their distribution outward from the town, resulting in a decrease in the α-diversity of native species in localities close to the migration source. Overall, our results emphasize that roadsides could unintentionally act as corridors for alien species, even in protected areas. Careful consideration is thus needed for utilizing these human-created habitats even though they were designed for conservation and management purposes.     

Calcitonin gene-related peptide-like immunoreactivity in the central nervous system and peripheral organs of rats

The concentrations of rat calcitonin gene-related peptide-like immunoreactivity (rCGRP-LI) in various organs of male rats as well as the molecular heterogeneity of rCGRP-LI in tissue extracts was examined using a specific radioimmunoassay (RIA) for rCGRP and gel-filtration chromatography. rCGRP-LI was high in extracts of the spinal cord (202 +/- 22.6 pg/mg wet wt. of tissue; mean +/- S.E.M.) and of the thyroid (229 +/- 62.3 pg/mg). rCGRP-LI was detectable in the brainstem, hypothalamus, stomach, duedenum, pancreas and kidney. The elution pattern of the extracts on a Sephadex G-50 column showed 3 peaks of rCGRP-LI irrespective of organs and tissues. The first peak corresponded to authentic rCGRP-(1-37). The second and third rCGRP-LI peaks probably consisted of C-terminal fragments of rCGRP, because they had a lower molecular weight than rCGRP-(1-37) and because our antiserum cross-reacts with a synthetic C-terminal fragment. The ratio of 3 rCGRP-LI molecules, however, differed between neural tissue extracts and others. The main component of rCGRP-LI in neural tissue was authentic rCGRP-(1-37), while the smaller fragments of rCGRP were chiefly contained in other tissues like the stomach, pancreas and thyroid. The relative ratio of rCGRP-LI molecules with different size in respective tissue extracts was not changed after leaving the dissected tissues for 2 h at room temperature. These findings indicate that rCGRP-LI is abundantly present in the thyroid as well as the spinal cord and it is detected in lower amounts in the alimentary tract and central nervous system. rCGRP-LI in the extracts consists of 3 different components, the proportions of which vary from one tissue to another, probably reflecting tissue-specific differences in the processing of CGRP.     

Tolbutamide inhibits gastrin release in man

Tolbutamide significantly decreased fasting plasma gastrin after 5 min of intravenous infusion in patients with atrophic gastritis, duodenal ulcer, or insulin-dependent diabetes mellitus (IDDM) as well as in healthy volunteers. Increased plasma insulin and decreased blood glucose were observed in patients with atrophic gastritis, duodenal ulcer and healthy volunteers, but not in patients with IDDM. Suppression of plasma gastrin in healthy volunteers was also observed following oral administration of tolbutamide. Despite the observed decrease in plasma gastrin, neither basal nor tetragastrin-stimulated acid output was changed for 30 min following tolbutamide infusion in healthy volunteers. Thus, our data suggest that tolbutamide inhibits gastrin release in man via mechanisms independent of changes in plasma insulin, blood glucose or acid secretion.     

Increased expression of ERp57/GRP58 is protective against pancreatic beta cell death caused by autophagic failure

Autophagy is a tightly regulated self-digestion system. As in other cell types, autophagy plays an essential role in the homeostasis of pancreatic beta cells. However, the mechanisms involved in the deterioration of beta cell function caused by autophagic failure have not yet been fully elucidated. To gain insight into its mechanisms, we compared the protein expression of islets from beta cell-specific Atg7-deficient mice (Atg7^Δβ-cell mice) and their controls (Atg7^f/f mice). Liquid chromatography/mass spectrometry after 1-dimensional electrophoresis identified the increased expression of ERp57/GRP58 in islets isolated from Atg7^Δβ-cell mice compared with those from Atg7^f/f mice. The expression level of ERp57 was also elevated in rat insulinoma INS-1 cells by inducible knock-down of the atg7-gene. In Atg7 knock-down INS-1 cells, the suppression of ERp57 expression by siRNA resulted in an increase in the level of cleaved Caspase-3 protein and a decrease in the number of live cells. Furthermore, cell cycle analyses demonstrated that the suppressed expression of ERp57 increased the sub-G1 population. These data reveal that increased expression of ERp57 may contribute to the protection from beta cell death caused by autophagic failure.     

Nitrogen source and pCO2 synergistically affect carbon allocation,growth and morphology of the coccolithophore Emiliania huxleyi: potential implications of ocean acidification for the carbon cycle

Coccolithophores are unicellular phytoplankton that produce calcium carbonate coccoliths as an exoskeleton. Emiliania huxleyi, the most abundant coccolithophore in the world's ocean, plays a major role in the global carbon cycle by regulating the exchange of CO₂ across the ocean‐atmosphere interface through photosynthesis and calcium carbonate precipitation. As CO₂ concentration is rising in the atmosphere, the ocean is acidifying and ammonium (NH₄⁺) concentration of future ocean water is expected to rise. The latter is attributed to increasing anthropogenic nitrogen (N) deposition, increasing rates of cyanobacterial N₂ fixation due to warmer and more stratified oceans, and decreased rates of nitrification due to ocean acidification. Thus, future global climate change will cause oceanic phytoplankton to experience changes in multiple environmental parameters including CO₂, pH, temperature and nitrogen source. This study reports on the combined effect of elevated pCO₂ and increased NH₄⁺ to nitrate (NO₃^?) ratio (NH₄⁺/NO₃^?) on E. huxleyi, maintained in continuous cultures for more than 200 generations under two pCO₂ levels and two different N sources. Herein, we show that NH₄⁺ assimilation under N‐replete conditions depresses calcification at both low and high pCO₂, alters coccolith morphology, and increases primary production. We observed that N source and pCO₂ synergistically drive growth rates, cell size, and the ratio of inorganic to organic carbon. These responses to N source suggest that, compared to increasing CO₂ alone, a greater disruption of the organic carbon pump could be expected in response to the combined effect of increased NH₄⁺/NO₃^? ratio and CO₂ level in the future acidified ocean. Additional experiments conducted under lower nutrient conditions are needed prior to extrapolating our findings to the global oceans. Nonetheless, our results emphasize the need to assess combined effects of multiple environmental parameters on phytoplankton biology to develop accurate predictions of phytoplankton responses to ocean acidification.     

Chemerin enhances insulin signaling and potentiates insulin-stimulated glucose uptake in 3T3-L1 adipocytes

To explore a novel adipokine, we screened adipocyte differentiation-related gene and found that TIG2/chemerin was strongly induced during the adipocyte differentiation. Chemerin was secreted by the mature 3T3-L1 adipocytes and expressed abundantly in adipose tissue in vivo as recently described. Intriguingly, the expression of chemerin was differently regulated in the liver and adipose tissue in db/db mice. In addition, serum chemerin concentration was decreased in db/db mice. Chemerin and its receptor/ChemR23 were expressed in mature adipocytes, suggesting its function in autocrine/paracrine fashion. Finally, chemerin potentiated insulin-stimulated glucose uptake concomitant with enhanced insulin signaling in the 3T3-L1 adipocytes. These data establish that chemerin is a novel adipokine that regulates adipocyte function.