Eight International Symposium of the Biology of the Turbellaria

Announcement

Eight International Symposium of the Biology of the Turbellaria     

Investigating the role of the human CIA2A-CIAO1 complex in the maturation of aconitase

Background

The CIA2A protein, in complex with CIAO1, has been proposed to be exclusively implicated in the maturation of cytosolic aconitase. However, how the CIA2A-CIAO1 complex generates active aconitase is still unknown and the available structural information has not provided any crucial insights into the molecular function of CIA2A.

The impact of the receptor binding profiles of the vascular endothelial growth factors on their angiogenic features

Background

Vascular endothelial growth factors (VEGFs) are potential therapeutic agents for treatment of ischemic diseases. Their angiogenic effects are mainly mediated through VEGF receptor 2 (VEGFR2).

Methods

Receptor binding, signaling, and biological efficacy of several VEGFR2 ligands were compared to determine their characteristics regarding angiogenic activity and vascular permeability.

Results

Tested VEGFR2 ligands induced receptor tyrosine phosphorylation with different efficacy depending on their binding affinities. However, the tyrosine phosphorylation pattern and the activation of the major downstream signaling pathways were comparable. The maximal angiogenic effect stimulated by different VEGFR2 ligands was dependent on their ability to bind to co-receptor Neuropilin (Nrp), which was shown to form complexes with VEGFR2. The ability of these VEGFR2 ligands to induce vascular permeability was dependent on their concentration and VEGFR2 affinity, but not on Nrp binding.

Conclusions

VEGFR2 activation alone is sufficient for inducing endothelial cell proliferation, formation of tube-like structures and vascular permeability. The level of VEGFR2 activation is dependent on the binding properties of the ligand used. However, closely similar activation pattern of the receptor kinase domain is seen with all VEGFR2 ligands. Nrp binding strengthens the angiogenic potency without increasing vascular permeability.

General significance

This study sheds light on how different structurally closely related VEGFR2 ligands bind to and signal via VEGFR2/Nrp complex to induce angiogenesis and vascular permeability. The knowledge of this study could be used for designing VEGFR2/Nrp ligands with improved therapeutic properties.     

The effects of selenium and the GPx-1 selenoprotein on the phosphorylation of H2AX

Background

Significant data supports the health benefits of selenium although supplementation trials have yielded mixed results. GPx-1, whose levels are responsive to selenium availability, is implicated in cancer etiology by human genetic data. Selenium's ability to alter the phosphorylation of the H2AX, a histone protein that functions in the reduction of DNA damage by recruiting repair proteins to the damage site, following exposure to ionizing radiation and bleomycin was investigated.

Methods

Human cell lines that were either exposed to selenium or were transfected with a GPx-1 expression construct were exposed to ionizing radiation or bleomycin. Phosphorylation of histone H2AX was quantified by flow cytometry and survival by the MTT assay. Phosphorylation of the Chk1 and Chk2 checkpoint proteins was quantified by western blotting.

Results

In colon-derived cells, selenium increases GPx-1 and attenuated H2AX phosphorylation following genotoxic exposures while the viability of these cells was unaffected. MCF-7 cells and transfectants that express high GPx-1 levels were exposed to ionizing radiation and bleomycin, and H2AX phosphorylation and cell viability were assessed. GPx-1 increased H2AX phosphorylation and viability following the induction of DNA damage while enhancing the levels of activated Chk1 and Chk2.

Conclusions

Exposure of mammalian cells to selenium can alter the DNA damage response and do so by mechanisms that are dependent and independent of its effect on GPx-1.

General significance

Selenium and GPx-1 may stimulate the repair of genotoxic DNA damage and this may account for some of the benefits attributed to selenium intake and elevated GPx-1 activity.     

Recent developments in the biology and systematics of the Lipomycetaceae

Editorial

Recent developments in the biology and systematics of the Lipomycetaceae     

Reengineering the ligand sensitivity of the broadly tuned human bitter taste receptor TAS2R14

Background

In humans, bitterness perception is mediated by ~25 bitter taste receptors present in the oral cavity. Among these receptors three, TAS2R10, TAS2R14 and TAS2R46, exhibit extraordinary wide agonist profiles and hence contribute disproportionally high to the perception of bitterness. Perhaps the most broadly tuned receptor is the TAS2R14, which may represent, because of its prominent expression in extraoral tissues, a receptor of particular importance for the physiological actions of bitter compounds beyond taste.

In Memory of the Editor

Memory

In Memory of the Editor Editorial Board of The Entomologicheskoe Obozrenie     

Calcium oscillations in the olfactory nonsensory cells of the goldfish, Carassius auratus

Background

The olfactory nonsensory cells contribute to the maintenance of normal functions of the olfactory epithelium (OE). Specifically, the ciliated nonsensory cells of teleosts play important roles in the odorant detection by OE in aqueous environment. Their cilia show strong beating activities and cause water flow at the OE surface, making the detection of odorants by OE more efficient. Because intracellular Ca²⁺ level has been reported to play an important role in ciliary beating, the ciliary beating activity may be regulated by intracellular Ca²⁺ dynamics of these ciliated nonsensory cells.

Methods

We performed Ca²⁺ imaging experiments to analyze the Ca²⁺ dynamics in acutely dissociated OE cells of the goldfish. Furthermore, we examined the contribution of the Ca²⁺ dynamics to the ciliary beating frequency (CBF) at the surface of the intact OE.

Results

Olfactory nonsensory cells showed both spontaneous intracellular Ca²⁺ oscillations and propagating intercellular Ca²⁺ waves. Application of 2-aminoethoxydiphenylborate (2-APB), which antagonizes IP₃-induced Ca²⁺ release from intracellular stores suppressed these Ca²⁺ oscillations. Furthermore, 2-APB application to the intact OE lamellae resulted in the decrease of CBF at the surface of the OE.

Conclusions

These results indicate that spontaneous intracellular calcium oscillations persistently up-regulate the ciliary beating at the surface of the OE in teleosts.

General significance

Ciliary beating activity at the surface of OE can be regulated by the Ca²⁺ dynamics of olfactory nonsensory cells. Because this ciliary movement causes inflow of external fluid into the nostril, this regulation is suggested to influence the efficiency of odorant detection by OE.     

Exostosin-like 2 regulates FGF2 signaling by controlling the endocytosis of FGF2

Background

Heparan sulfate proteoglycans are ubiquitously expressed on cell surfaces and in extracellular matrices, and are engaged in heparin-binding growth factor-related signal transduction. Thus, changes in the amounts, structures, and chain lengths of heparan sulfate have profound effects on aspects of cell growth controlled by heparin-binding growth factors such as FGF2. Exostosin glycosyltransferases (EXT1, EXT2, EXTL1, EXTL2, and EXTL3) control heparan sulfate biosynthesis, and the expression levels of their genes regulate the amounts, chain lengths, and sulfation patterns of heparan sulfate. Unlike EXT1, EXT2, and EXTL3, EXTL2 functions chain termination of heparan sulfate. Here, we examined the importance of EXTL2 in FGF2-dependent signaling.

Structure of the Altitude Adapted Hemoglobin of Guinea Pig in the R2-State

Background

Guinea pigs are considered to be genetically adapted to a high altitude environment based on the consistent finding of a high oxygen affinity of their blood.

Methodology/Principal Findings

The crystal structure of guinea pig hemoglobin at 1.8 Å resolution suggests that the increased oxygen affinity of guinea pig hemoglobin can be explained by two factors, namely a decreased stability of the T-state and an increased stability of the R2-state. The destabilization of the T-state can be related to the substitution of a highly conserved proline (P44) to histidine (H44) in the α-subunit, which causes a steric hindrance with H97 of the β-subunit in the switch region. The stabilization of the R2-state is caused by two additional salt bridges at the β1/β2 interface.

Conclusions/Significance

Both factors together are supposed to serve to shift the equilibrium between the conformational states towards the high affinity relaxed states resulting in an increased oxygen affinity.     

On the 100th Anniversary of the Birth of G.V. Gershuni

Chronicle

On the 100th Anniversary of the Birth of G.V. Gershuni     

Insulin alters the expression of components of the Wnt signaling pathway including TCF-4 in the intestinal cells

Background

Epidemiological and experimental evidence that support the correlation between Type 2 diabetes mellitus (T2D) and increased risks of colorectal cancer formation have led us to hypothesize the existence of molecular crosstalk between insulin and canonical Wnt signaling pathways. Insulin was shown to stimulate Wnt target gene expression, utilizing the effector of the Wnt signaling pathway. Whether insulin affects expression of components of Wnt pathway has not been extensively examined.

Methods

cDNA microarray was utilized to assess the effect of insulin on gene expression profile in the rat intestinal non-cancer IEC-6 cell line, followed by real-time RT-PCR, Western blotting and reporter gene analyses in intestinal cancer and non-cancer cells.

Results

Insulin was shown to alter the expression of a dozen of Wnt pathway related genes including TCF-4 (= TCF7L2) and frizzled- (Fzd-4). The stimulatory effect of insulin on TCF-4 expression was then confirmed by real-time RT-PCR, Western blotting and luciferase reporter analyses, while the activation on Fzd-4 was confirmed by real-time PCR.

General significance

Our observations suggest that insulin may crosstalk with the Wnt signaling pathway in a multi-level fashion, involving insulin regulation of the expression of Wnt target genes, a Wnt receptor, as well as mediators of the Wnt signaling pathway.     

Variability of the metal content of flood deposits

Contaminant accumulation, distributions, geochemistry and mineralogy

Variability of the metal content of flood deposits     

Abstracts of Communications of the 45th Annual Meeting of the Japanese Society for Neurochemistry

Abstract List

Abstracts of Communications of the 45^th Annual Meeting of the Japanese Society for Neurochemistry     

ATP interacts with the CPVT mutation-associated central domain of the cardiac ryanodine receptor

Background

This study was designed to determine whether the cardiac ryanodine receptor (RyR2) central domain, a region associated with catecholamine polymorphic ventricular tachycardia (CPVT) mutations, interacts with the RyR2 regulators, ATP and the FK506-binding protein 12.6 (FKBP12.6).

Methods

Wild-type (WT) RyR2 central domain constructs (G²²³⁶to G²⁴⁹¹) and those containing the CPVT mutations P2328S and N2386I, were expressed as recombinant proteins. Folding and stability of the proteins were examined by circular dichroism (CD) spectroscopy and guanidine hydrochloride chemical denaturation.

Results

The far-UV CD spectra showed a soluble stably-folded protein with WT and mutant proteins exhibiting a similar secondary structure. Chemical denaturation analysis also confirmed a stable protein for both WT and mutant constructs with similar two-state unfolding. ATP and caffeine binding was measured by fluorescence spectroscopy. Both ATP and caffeine bound with an EC₅₀ of ~ 200–400 μM, and the affinity was the same for WT and mutant constructs. Sequence alignment with other ATP binding proteins indicated the RyR2 central domain contains the signature of an ATP binding pocket. Interaction of the central domain with FKBP12.6 was tested by glutaraldehyde cross-linking and no association was found.

Conclusions

The RyR2 central domain, expressed as a ‘correctly’ folded recombinant protein, bound ATP in accord with bioinformatics evidence of conserved ATP binding sequence motifs. An interaction with FKBP12.6 was not evident. CPVT mutations did not disrupt the secondary structure nor binding to ATP.

General significance

Part of the RyR2 central domain CPVT mutation cluster, can be expressed independently with retention of ATP binding.     

On the 75th anniversary of the birth of L. L. Kiselev

Chronicle

On the 75th anniversary of the birth of L. L. Kiselev     

Abstracts of Communications of the 1999 Meeting of the Japanese Society for Neurochemistry (JSN)

Summary List

Abstracts of Communications of the 1999 Meeting of the Japanese Society for Neurochemistry (JSN)