Virus-induced fusion of human erythrocyte ghosts I. Effects of macromolecules on the final stages of the fusion reaction

Human erythrocyte ghosts prepared by hypotonic hemolysis can be fused by Sendai virus, provided that certain macromolecules (bovine serum albumin, dextran and others) are sequestered in the ghosts. Since fusion of the ghosts is dependent on intactness of the F(fusion)-glycoprotein of the virion, and since the other requirements for this reaction are also similar to those for the Sendai virus-induced fusion of intact erythrocytes, this system can be used as a model for the Sendai virus-induced cell fusion reaction. Sequestered macromolecules seem to be required for rounding of locally fused ghosts. Under low osmotic swelling conditions, such as use of ghosts sealed without macromolecules or using bovine serum albumin-loaded ghosts sealed in the presence of external macromolecules, no apparently complete cell fusion (large spherical polyghost formation) could be observed. Even under these conditions, however, occurence of local cell fusion could be demonstrated either by transfer of fluorescent-labeled albumin from one ghost to an other, or by observation of polyghost formation after osmotic swelling in the cold. Thus, final stages of the fusion reaction can be divided into local cell-cell fusion which could not be observed by phase-contrast microscopy, and rounding (i.e. formation of spherical polyghost). For the observation of fusion of ghosts, the last step seems to be important.     

Production and some properties of monoclonal antibodies against human pancreatic secretory trypsin inhibitor.

Hybridomas that secrete monoclonal antibodies against human pancreatic secretory trypsin inhibitor (PSTI) were established by fusion of spleen cells obtained from mice immunized with PSTI with mouse NS-I-Ag 4/1 myeloma cells. One of three resulting monoclonal antibodies (KN-1) was found to recognize the N-terminal moiety of the inhibitor, while the others (KN-2 and KN-3) reacted with other as yet undefined parts of the molecule. Trypsin inhibitory activity of PSTI treated with KN-1 monoclonal antibody was the same as that of PSTI itself, thus indicating no relationship between the N-terminal moiety of the PSTI molecule and its inhibitory activity. We further examined the applicability of one of the monoclonal antibodies (KN-1) for immunohistochemical study of human pancreatic cancer tissue including the normal as a model, and found granular staining of the cytoplasm of the normal acinar and duct cells and also of that of adenocarcinoma cells in formalin-fixed, paraffin-embedded tissue sections.     

Hypoxemia and blunted hypoxic ventilatory responses in mice lacking heme oxygenase-2

Heme oxygenase (HO) catalyzes physiological heme degradation and consists of two structurally related isozymes, HO-1 and HO-2. Here we show that HO-2-deficient (HO-2(-/-)) mice exhibit hypoxemia and hypertrophy of the pulmonary venous myocardium associated with increased expression of HO-1. The hypertrophied venous myocardium may reflect adaptation to persistent hypoxemia. HO-2(-/-) mice also show attenuated ventilatory responses to hypoxia (10% O2) with normal responses to hypercapnia (10% CO2), suggesting the impaired oxygen sensing. Importantly, HO-2(-/-) mice exhibit normal breathing patterns with normal arterial CO2 tension and retain the intact alveolar architecture, thereby excluding hypoventilation and shunting as causes of hypoxemia. Instead, ventilation-perfusion mismatch is a likely cause of hypoxemia, which may be due to partial impairment of the lung chemoreception probably at pulmonary artery smooth muscle cells. We therefore propose that HO-2 is involved in oxygen sensing and responsible for the ventilation-perfusion matching that optimizes oxygenation of pulmonary blood.     

A pathway of neuregulin-induced activation of cofilin-phosphatase Slingshot and cofilin in lamellipodia

Cofilin mediates lamellipodium extension and polarized cell migration by stimulating actin filament dynamics at the leading edge of migrating cells. Cofilin is inactivated by phosphorylation at Ser-3 and reactivated by cofilin-phosphatase Slingshot-1L (SSH1L). Little is known of signaling mechanisms of cofilin activation and how this activation is spatially regulated. Here, we show that cofilin-phosphatase activity of SSH1L increases approximately 10-fold by association with actin filaments, which indicates that actin assembly at the leading edge per se triggers local activation of SSH1L and thereby stimulates cofilin-mediated actin turnover in lamellipodia. We also provide evidence that 14-3-3 proteins inhibit SSH1L activity, dependent on the phosphorylation of Ser-937 and Ser-978 of SSH1L. Stimulation of cells with neuregulin-1beta induced Ser-978 dephosphorylation, translocation of SSH1L onto F-actin-rich lamellipodia, and cofilin dephosphorylation. These findings suggest that SSH1L is locally activated by translocation to and association with F-actin in lamellipodia in response to neuregulin-1beta and 14-3-3 proteins negatively regulate SSH1L activity by sequestering it in the cytoplasm.     

Two different types of hepcidins from the Japanese flounder Paralichthys olivaceus

The cysteine-rich peptide hepcidin is known to be an antimicrobial peptide and iron transport regulator that has been found in both fish and mammals. Recently, we found two different types (designated Hep-JF1 and Hep-JF2) of hepcidin cDNA in the Japanese flounder, Paralichthys olivaceus, by expressed sequence tag analysis. The identity of amino acid sequences between Hep-JF1 and Hep-JF2 was 51%. The Hep-JF1 and Hep-JF2 genes both consist of three exons and two introns, and both exist as single copies in the genome. The predicted mature regions of Hep-JF1 and Hep-JF2 have six and eight Cys residues, respectively. The first Cys residue of Hep-JF1 was deleted and the second was replaced with Gly. The number and positions of Cys residues in Hep-JF2 are the same as they are in human Hep. Hep-JF1 is specifically expressed in liver while the expression of Hep-JF2 was detected from gill, liver, heart, kidney, peripheral blood leucocytes, spleen and stomach. Gene expression of Hep-JF1 in liver decreased during experimental iron (iron-dextran) overload. Expression of Hep-JF1 in liver was decreased by injecting fish with iron-dextran and increased by injecting lipopolysaccharide. Iron overload did not significantly affect expression of Hep-JF2 in liver but it did increase expression of Hep-JF2 in kidney. Lipopolysaccharide injection increased expression of Hep-JF2 in both liver and kidney. In liver, some cells expressed both Hep-JF1 and Hep-JF2 while some other cells expressed just one of them. Synthesized Hep-JF2 peptide showed antimicrobial activity, while synthesized Hep-JF1 peptide did not against several bacteria including fish-pathogenic bacteria used in this study.     

Synthesis and evaluation of N-(4-benzylphenyl)piperazines as VGF inducers

A series of compounds was discovered that induce the production of VGF mRNA in SH-SY5Y cells and exhibit cytoprotection under tunicamycin induced endoplasmic reticulum (ER) stress. The aminophenol ring and linker chain of the template SUN N8075 (1) was modified to yield compounds with higher efficacy and lower propensity for adverse effects.     

Demonstration of a considerable amount of mouse epidermal growth factor in aqueous humor

In a previous study we reported the presence of a considerable amount of mouse epidermal growth factor (mEGF) in abdominal effusion. Using our EIA system for mEGF, we identified a high level of EGF-like immunoreactive material(s) in mouse aqueous humor. This material(s) and mEGF from mouse submaxillary gland were virtually equivalent with respect to molecular weight and antigenicity. Also, on chromatofocusing analysis, the mEGF-like material(s) gave a major peak at pH 4.7 with a minor one at pH 4.2. These results demonstrate that the mEGF-like immunoreactive material(s) found in aqueous humor is a molecule identical to submaxillary gland EGF. Also, no clear difference was observed in the mEGF levels in aqueous humor between male and female. Further, sialoadenectomy did not change dramatically the EGF level in aqueous humor. From these results, it seems that mEGF found in aqueous humor may be synthesized by cells in the eyeball itself or be transported there from some site other than the submaxillary gland.     

Soil acidification and adaptations of plants and microorganisms in Bornean tropical forests

In tropical forest ecosystems, a paradoxical relationship is commonly observed between massive biomass production and low soil fertility (low pH). The loss and deficiency of soil phosphorus (P) and bases generally constrain biomass production; however, high productivity on nutrient-deficient soils of Bornean tropical forests is hypothesized to be maintained by plant and microorganism adaptation to an acidic soil environment. Proton budgets in the plant–soil system indicated that plants and microorganisms promote acidification to acquire bases, even in highly acidic tropical soils. The nitric and organic acids they produce contribute to the mobilization of basic cations and their uptake by plants. In response to soil P deficiency and the recalcitrance of lignin-rich organic matter, specific trees and fungi can release organic acids and enzymes for nutrient acquisition. Organic acids exuded by roots and rhizosphere microorganisms can promote the solubilization of P bonded to aluminum and iron oxides and its uptake by plants from P-poor soils. Lignin degradation, a rate-limiting step in organic matter decomposition, is specifically enhanced in acidic organic layers by lignin peroxidase, produced by white-rot fungi, which may solubilize recalcitrant lignin and release soluble aromatic substances into the soil solution. This dissolved organic matter functions in the transport of nitrogen, P, and basic cations in acidic soils without increasing leaching loss. In Bornean tropical forests, soil acidification is promoted by plants and microorganisms as a nutrient acquisition strategy, while plant roots and fungi can develop rhizosphere and enzymatic processes that promote tolerance of low pH.     

Development of PCR assays to detect iridovirus infections among captive and wild populations of Missouri River sturgeon

The Missouri River sturgeon iridovirus (MRSIV) is an important factor contributing to losses during the hatchery rearing of juvenile pallid Scaphirhynchus albus and shovelnose S. platorynchus sturgeon. As the virus has not been isolated in cell culture, current detection procedures rely upon a combination of light and electron microscopy. Detection of characteristic virus-infected cells in the integument, usually of the fins, in hematoxylin and eosin (H&E)-stained tissue sections provides a presumptive finding. Confirmation requires observation by electron microscopy of characteristic doubly enveloped hexagonal virions of the appropriate size in the host cell cytoplasm. To improve these diagnostic procedures, a conventional polymerase chain reduction (PCR) assay was developed as a sensitive and specific method for detection of MRSIV DNA as found in numerous tissues of both naturally and experimentally infected pallid and shovelnose sturgeon. Sequences of amplicons obtained from testing of wild-caught shovelnose sturgeon and juvenile pallid sturgeon during hatchery outbreaks were identical, suggesting that the viruses found in both sturgeon are similar or closely related. In addition, a TaqMan PCR was developed that allowed estimates of the concentrations of MRSIV DNA present in the tissues of pallid and shovelnose sturgeon during acute and persistent infection. These new PCR assays are improved methods to detect MRSIV, but equally importantly, they provide insights into to the biology of the agent for more effective management of viral diseases in captive and wild Missouri River sturgeon populations.