Preparation of biologically active recombinant human progastrin(1-80)

The bacterial expression of human progastrin_6–80 has been reported previously [Baldwin, G.S. et al. (2001) J. Biol. Chem. 276: 7791-7796]. The aims of the present study were to prepare full-length recombinant human progastrin_1–80 and to compare its biological activity with that of progastrin_6–80 in vitro, to determine whether or not the N-terminal five amino acids contributed to activity. A fusion protein of glutathione-S-transferase and human progastrin_1–80 was expressed in Escherichia coli, collected on glutathione-agarose beads, and cleaved with enterokinase. Progastrin_1–80 was purified by reversed-phase and anion exchange HPLC and characterized by radioimmunoassay, amino acid sequencing, and mass spectrometry. No differences were detected in the extent of stimulation by progastrin_1–80 and progastrin_6–80 in proliferation and migration assays with the mouse gastric cell line IMGE-5. We conclude that residues 1–5 of progastrin_1–80 are not essential for biological activity.     

PKC zeta participates in activation of inflammatory response induced by enteropathogenic E. coli

We showed previously that enteropathogenic Escherichia coli (EPEC) infection of intestinal epithelial cells induces inflammation by activating NF-B and upregulating IL-8 expression. We also reported that extracellular signal-regulated kinases (ERKs) participate in EPEC-induced NF-B activation but that other signaling molecules such as PKC may be involved. The aim of this study was to determine whether PKC is activated by EPEC and to investigate whether it also plays a role in EPEC-associated inflammation. EPEC infection induced the translocation of PKC from the cytosol to the membrane and its activation as determined by kinase activity assays. Inhibition of PKC by the pharmacological inhibitor rottlerin, the inhibitory myristoylated PKC pseudosubstrate (MYR-PKC-PS), or transient expression of a nonfunctional PKC significantly suppressed EPEC-induced IB phosphorylation. Although PKC can activate ERK, MYR-PKC-PS had no effect on EPEC-induced stimulation of this pathway, suggesting that they are independent events. PKC can regulate NF-B activation by interacting with and activating IB kinase (IKK). Coimmunoprecipitation studies showed that the association of PKC and IKK increased threefold 60 min after infection. Kinase activity assays using immunoprecipitated PKC-IKK complexes from infected intestinal epithelial cells and recombinant IB as a substrate showed a 2.5-fold increase in IB phosphorylation. PKC can also regulate NF-B by serine phosphorylation of the p65 subunit. Serine phosphorylation of p65 was increased after EPEC infection but could not be consistently attenuated by MYR-PKC-PS, suggesting that other signaling events may be involved in this particular arm of NF-B regulation. We speculate that EPEC infection of intestinal epithelial cells activates several signaling pathways including PKC and ERK that lead to NF-B activation, thus ensuring the proinflammatory response. inflammation; enteropathogenic Escherichia coli; nuclear factor-B; protein kinase C; IB kinase; extracellular signal-regulated kinase     

A novel effect of bismuth ions: selective inhibition of the biological activity of glycine-extended gastrin

Although bismuth salts have been used for over two centuries for the treatment of various gastrointestinal disorders, the mechanism of their therapeutic action remains controversial. Because gastrins bind two trivalent ferric ions with high affinity, and because ferric ions are essential for the biological activity of glycine-extended gastrin 17, we have investigated the hypothesis that trivalent bismuth ions influence the biological activity of gastrins. Binding of bismuth ions to gastrins was measured by fluorescence quenching and NMR spectroscopy. The effects of bismuth ions on gastrin-stimulated biological activities were measured in inositol phosphate, cell proliferation, and cell migration assays. Fluorescence quenching experiments indicated that both glycine-extended and amidated gastrin 17 bound two bismuth ions. The NMR spectral changes observed on addition of bismuth ions revealed that Glu-7 acted as a ligand at the first bismuth ion binding site. In the presence of bismuth ions the ability of glycine-extended gastrin 17 to stimulate inositol phosphate production, cell proliferation, and cell migration was markedly reduced. In contrast, bismuth ions had little effect on the affinity of the CCK-2 receptor for amidated gastrin 17, or on the stimulation of inositol phosphate production by amidated gastrin 17. We conclude that bismuth ions may act, at least in part, by blocking the effects of glycine-extended gastrin 17 on cell proliferation and cell migration in the gastrointestinal tract. This is the first report of a specific inhibitory effect of bismuth ions on the action of a gastrointestinal hormone.     

Phenotypic modulation of fibroblastic cells in mice pubic symphysis during pregnancy,partum and postpartum

In many species, the cartilaginous pubic symphysis of the pregnant female is gradually replaced by a fibrous connective tissue, forming a flexible and elastic interpubic ligament. This newly formed ligament is responsible for the separation of the pubic bones, enabling safe delivery of the young. Following labor, the ligament undergoes rapid involution. To our knowledge, no previous work has focused on the phenotypic modulation that is responsible for the changes present at the interpubic ligament throughout the relaxation and closing of the symphysis. The purpose of this study was to investigate the ultrastructural features and immunophenotype of the peculiar cell type found in the pubic symphysis of cycling, pregnant and postpartum mice. In particular, immunohistochemistry studies were conducted on the expressions of the cytoskeletal proteins desmin, vimentin and -smooth muscle actin (-SMA). During pregnancy, the pubic symphysis cells always expressed -SMA, whereas the expression of vimentin and desmin was transient from early pregnancy to postpartum. Furthermore, the expression patterns of these three cytoskeletal proteins were distinct. Cells present in the medial region of the mouse symphysis in cycling and at D12 displayed ultrastructural features characteristic of a typical fibroblast. In contrast, during the last week of pregnancy and in postpartum these cells acquired ultrastructural features representative of a myofibroblast; for example, a fibronexus and a contractile apparatus were found to be present lying in close contact with the extracellular collagenous and elastic system fibrils. Taken together, these results strongly suggest a contractile function for these cells which might contribute to support of the varying mechanical stresses present during pubic bone movement.This work was supported by grants from Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES). This paper is part of a thesis submitted to the Department of Histology and Embryology of the Biology Institute State University of Campinas, in partial fulfillment of the requirements for the Masters degree.     

Multiple sclerosis and neuro-ophthalmologic manifestations

The authors report clinical features of ocular manifestations in patients with multiple sclerosis (MS), those that affect the visual sensory system and those that affect the ocular motor system. Disturbances of visual sensory function may precede, manifest coincidentally or follow the neurologic manifestations. Visual disturbances are common in MS and often a result of acute demyelinating optic neuropathy. Careful examination of MS patients, who have never suffered optic neuritis, may also reveal asymptomatic visual loss. Asymptomatic visual loss seems to be a universal feature of MS. Patients with multiple sclerosis may develop disorders of fixation, ocular motility and ocular alignment. Disorders of ocular motor system are frequently the initial sign of multiple sclerosis and occur as its presenting sign weeks, month, or years before other neurologic symptoms and signs develop.     

Oxidative burst and anticancer activities of rat neutrophils

It is assumed that oxidative damage caused by reactive oxygen species (ROS) from activated neutrophil granulocytes may contribute to pathology of tumors. ROS are crucial in neutrophil-mediated tumor cell lysis. The present study is focused on the oxidative burst and antitumorous activities of neutrophils when challenged with Walker carcinoma W256. Survival and tumor growth dynamics were monitored in vivo, while tumor cell proliferation when mixed with neutrophils was studied in vitro together with the generation/release of neutrophil respiratory burst products, primarily 1O2. Neutrophils were collected upon Sephadex injection. The survival of Sephadex injected animals was slightly improved, while their tumors grew less than in controls. The presence of tumor cells in vitro activated neutrophils to produce singlet oxygen similar to phorbol ester. Neutrophils from Sephadex-bearing animals diminished tumor cell proliferation in vitro (measured by 3H-TdR incorporation), while neutrophils from Sephadex and the tumor-bearing animals did not show such activity in vitro. Our results confirm that in the case of rapidly growing tumors such as murine W256 carcinoma neutrophils have antitumorous effects in the early phase of tumor development.     

Feasibility of treating partially soluble wastewater in anaerobic sequencing batch biofilm reactor (ASBBR) with mechanical stirring

This work reports on the treatment of partially soluble wastewater in an anaerobic sequencing batch biofilm reactor, containing biomass immobilized on polyurethane matrices and stirred mechanically. The results showed that agitation provided optimal mixing and improved the overall organic matter consumption rates. The system showed to be feasible to enhance the treatment of partially soluble wastewaters.     

Evolution of autosomal suppression of the sex-ratio trait in Drosophila

The sex-ratio trait is the production of female-biased progenies due to X-linked meiotic drive in males of several Drosophila species. The driving X chromosome (called SR) is not fixed due to at least two stabilizing factors: natural selection (favoring ST, the nondriving standard X) and drive suppression by either Y-linked or autosomal genes. The evolution of autosomal suppression is explained by Fisher's principle, a mechanism of natural selection that leads to equal proportion of males and females in a sexually reproducing population. In fact, sex-ratio expression is partially suppressed by autosomal genes in at least three Drosophila species. The population genetics of this system is not completely understood. In this article we develop a mathematical model for the evolution of autosomal suppressors of SR (sup alleles) and show that: (i). an autosomal suppressor cannot invade when SR is very deleterious in males (c < (1)/(3), where c is the fitness of SR/Y males); (ii). "SR/ST, sup/+" polymorphisms occur when SR is partially deleterious ( approximately 0.3 < c < 1); while (iii). SR neutrality (c = 1) results in sup fixation and thus in total abolishment of drive. So, surprisingly, as long as there is any selection against SR/Y males, neutral autosomal suppressors will not be fixed. In that case, when a polymorphic equilibrium exists, the average female proportion in SR/Y males' progeny is given approximately by ac + 1 - a + a (2) c + 1 (2) + 1 - 4ac /4ac, where a is the fitness of SR/ST females.     

Design of thyroid hormone receptor antagonists from first principles

It is desirable to obtain TR antagonists for treatment of hyperthyroidism and other conditions. We have designed TR antagonists from first principles based on TR crystal structures. Since agonist ligands are buried in the fold of the TR ligand binding domain (LBD), we reasoned that ligands that resemble agonists with large extensions should bind the LBD, but would prevent its folding into an active conformation. In particular, we predicted that extensions at the 5′ aryl position of ligand should reposition helix (H) 12, which forms part of the co-activator binding surface, and thereby inhibit TR activity. We have found that some synthetic ligands with 5′ aryl ring extensions behave as antagonists (DIBRT, NH-3), or partial antagonists (GC-14, NH-4). Moreover, one compound (NH-3) represents the first potent TR antagonist with nanomolar affinity that also inhibits TR action in an animal model. However, the properties of the ligands also reveal unexpected aspects of TR behavior. While nuclear receptor antagonists generally promote binding of co-repressors, NH-3 blocks co-activator binding and also prevents co-repressor binding. More surprisingly, many compounds with extensions behave as full or partial agonists. We present hypotheses to explain both behaviors in terms of dynamic equilibrium of H12 position.