Regulation of integrin-type cell adhesion receptors by cytokines.

Integrin heterodimers which share a common beta 1 subunit are the major cellular receptors for many extracellular matrix proteins. Here, we show that two inflammatory mediators, interleukin-1 beta (IL-1 beta) and tumor necrosis factor-alpha (TNF-alpha), can regulate the expression of the alpha 1 beta 1 integrin heterodimer, known to be a laminin and collagen receptor. In human skin fibroblasts 10 units/ml IL-1 beta increase the biosynthesis of the alpha 1 integrin subunit an average of 4.5-fold. Furthermore, IL-1 beta can turn on alpha 1 subunit expression in MG-63 human osteosarcoma cells even in conditions where the untreated MG-63 cells do not express it in detectable amounts. The effect of TNF-alpha on alpha 1 subunit expression is similar. Both IL-1 beta and TNF-alpha increased MG-63 cell adhesion on laminin. The effect of transforming growth factor-beta 1 (TGF-beta 1) on integrin expression in MG-63 cells has been previously described (Heino, J., and Massagué, J. (1989) J. Biol. Chem. 264, 21806-21811). TGF-beta 1 decreases the biosynthesis of alpha 3 subunit but increases the production of alpha 2 subunit. IL-1 beta potentiates the effects of TGF-beta 1. Furthermore, in the presence of TGF-beta 1 the increase in the expression of alpha 1 subunit by IL-1 beta is even larger. Thus, IL-1 beta and TGF-beta 1, which usually have antagonistic functions in connective tissue, can regulate integrin expression in a synergistic way.     

A1 adenosine receptors of bovine brain couple to guanine nucleotide-binding proteins Gi1, Gi2, and Go

A1 adenosine receptors and associated guanine nucleotide-binding proteins (G proteins) were purified from bovine cerebral cortex by affinity chromatography (Munshi, R., and Linden, J. (1989) J. Biol. Chem. 264, 14853-14859). In this study we have identified the pertussis toxin-sensitive G protein subunits that co-purify with A1 adenosine receptors by immunoblotting with specific antipeptide antisera. Gi alpha 1, Gi alpha 2, Go alpha, G beta 35, and G beta 36 were detected. Of the total [35S]guanosine 5'-O-(3-thio)triphosphate [( 35S]GTP gamma S) binding sites, Gi alpha 1 and Go alpha each accounted for greater than 37% whereas Gi alpha 2 comprised less than 13%. G beta 35 was found in excess over G beta 36. Low molecular mass (21-25 kDa) GTP-binding proteins were not detected. We also examined the characteristics of purified receptors and various purified bovine brain G proteins reconstituted into phospholipid vesicles. All three alpha-subunits restored GTP gamma S-sensitive high affinity binding of the agonist 125I-aminobenzyladenosine to a fraction (25%) of reconstituted receptors with a selectivity order of Gi2 greater than Go greater than or equal to Gi1 (ED50 values of G proteins measured as fold excess over the receptor concentration were 4.7 +/- 1.2, 24 +/- 5, and 34 +/- 7, respectively). Furthermore, receptors occupied with the agonist R-phenylisopropyladenosine catalytically increased the rate of binding of [35S]GTP gamma S to reconstituted G proteins by 6.5-8.5-fold. These results suggest that A1 adenosine receptors couple indiscriminately to pertussis toxin-sensitive G proteins.     

The assignment of carbon monoxide association rate constants to the alpha and beta subunits in native and mutant human deoxyhemoglobin tetramers

The association kinetics of CO binding to site-directed mutants of human deoxyhemoglobin were measured by stopped-flow rapid mixing techniques at pH 7.0, 20 degrees C. Hemoglobin tetramers were constructed from one set of native subunits and one set of mutated partners containing His(E7) to Gly, Val(E11) to Ala, or Val(E11) to Ile substitutions. The reactivity of beta Cys93 with p-hydroxymercuribenzoate was measured to ensure that the mutant deoxyhemoglobins were capable of forming T-state quaternary conformations. Time courses for the complete binding of CO were measured by mixing the deoxygenated proteins with a 5-fold excess of ligand in the absence and presence of inositol hexaphosphate. Association rate constants for the individual alpha and beta subunits in the T-state conformation were assigned by measuring time courses for the reaction of a small, limiting amount of CO with a 20-fold excess of deoxyhemoglobin (i.e. Hb4 + CO----Hb4(CO)). The effects of the E7 and E11 mutations in T-state alpha subunits were qualitatively similar to those observed for the same subunit in the R-state (Mathews, A.J., Rohlfs, R.J., Olson, J.S., Tame, J., Renaud, J-P., and Nagai, K. (1989) J. Biol. Chem. 264, 16573-16583). The alpha His58(E7) to Gly and Val62(E11) to Ala substitutions caused 80- and 3-fold increases, respectively, in k'CO for T-state alpha subunits, and the alpha Val62(E11) to Ile mutation caused a 3-fold decrease. The beta His63(E7) to Gly and Val67(E11) to Ala substitutions produced 70- and 8-fold increases, respectively, in k'CO for T-state beta subunits whereas these same mutations caused little effect on the rate of CO binding to R-state beta subunits. The beta Val67(E11) to Ile mutation produced the same large effect, a 23-fold reduction in k'CO, in both quaternary conformations of beta subunits. These kinetic results can be interpreted qualitatively in terms of differences between the alpha and beta subunits in the deoxy and liganded crystal structures of human hemoglobin (Perutz, M.F. (1990) Annu. Rev. Physiol. 52, 1-25). Both the structural and functional data suggest that the distal portion of the beta heme pocket is tightly packed in deoxyhemoglobin whereas the CO binding site in R-state beta subunits is much more open. In contrast, the distal portion of the alpha heme pocket is restricted sterically in both quaternary states.(ABSTRACT TRUNCATED AT 400 WORDS)     

Determination of the secondary structure and molecular topology of interleukin-1 beta by use of two- and three-dimensional heteronuclear 15N-1H NMR spectroscopy

A study of the regular secondary structure elements of recombinant human interleukin-1 beta has been carried out using NMR spectroscopy. Using a randomly 15N labeled sample, a number of heteronuclear three- and two-dimensional NMR experiments have been performed, which have enabled a complete analysis of short-, medium-, and long-range NOEs between protons of the polypeptide backbone, based on the sequence-specific resonance assignments that have been reported previously [Driscoll, P. C., Clore, G. M., Marion, D., Wingfield, P. T., & Gronenborn, A. M. (1990) Biochemistry 29, 3542-3556]. In addition, accurate measurements of a large number of 3JHN alpha coupling constants have been carried out by two-dimensional heteronuclear multiple-quantum-coherence-J spectroscopy. Amide NH solvent exchange rates have been measured by following the time dependence of the 15N-1H correlation spectrum of interleukin-1 beta on dissolving the protein in D2O solution. Analysis of these data indicate that the structure of interleukin-1 beta consists of 12 extended beta-strands aligned in a single extended network of antiparallel beta-sheet structure that in part folds into a skewed six-stranded beta-barrel. In the overall structure the beta-strands are connected by tight turns, short loops, and long loops in a manner that displays approximate pseudo-three-fold symmetry. The secondary structure analysis is discussed in the light of the unrefined X-ray structure of interleukin-1 beta at 3-A resolution [Priestle, J. P., Sch?r, H.-P., & Grütter, M. G. (1988) EMBO J. 7, 339-343], as well as biological activity data. Discernible differences between the two studies are highlighted. Finally, we have discovered conformational heterogeneity in the structure of interleukin-1 beta, which is characterized by an exchange rate that is slow on the NMR chemical shift time scale.     

Crystal structure of a Kunitz-type trypsin inhibitor from Erythrina caffra seeds

The trypsin inhibitor DE-3 from Erythrina caffra (ETI) belongs to the Kunitz-type soybean trypsin inhibitor (STI) family and consists of 172 amino acid residues with two disulphide bridges. The amino acid sequence of ETI shows high homology to other trypsin inhibitors from the same family but ETI has the unique ability to bind and inhibit tissue plasminogen activator. The crystal structure of ETI has been determined using the method of isomorphous replacement and refined using a combination of simulated annealing and conventional restrained least-squares crystallographic refinement. The refined model includes 60 water molecules and 166 amino acid residues, with a root-mean-square deviation in bond lengths from ideal values of 0.016 A. The crystallographic R-factor is 20.8% for 7770 independent reflections between 10.0 and 2.5 A. The three-dimensional structure of ETI consists of 12 antiparallel beta-strands joined by long loops. Six of the strands form a short antiparallel beta-barrel that is closed at one end by a "lid" consisting of the other six strands coupled in pairs. The molecule shows approximate 3-fold symmetry about the axis of the barrel, with the repeating unit consisting of four sequential beta-strands and the connecting loops. Although there is no sequence homology, this same fold is present in the structure of interleukin-1 alpha and interleukin-1 beta. When the structure of ETI and interleukin-1 beta are superposed, the close agreement between the alpha-carbon positions for the beta-strands is striking. The scissile bond (Arg63-Ser64) is located on an external loop that protrudes from the surface of the molecule and whose architecture is not constrained by secondary structure elements, disulphide bridges or strong electrostatic interactions. The hydrogen bonds made by the side-chain amide group of Asn12 play a key role in maintaining the three-dimensional structure of the loop. This residue is in a position corresponding to that of a conserved asparagine in the Kazal inhibitor family. Although the overall structure of ETI is similar to the partial structure of STI, the scissile bond loop is displaced by about 4 A. This displacement probably arises from the fact that the structure of STI has been determined in a complex with trypsin but could possibly be a consequence of the close molecular contact between Arg63 and an adjacent molecule in the crystal lattice.     

Rabbit IL-1. Cloning, expression, biologic properties, and transcription during endotoxemia

The cloning, sequencing, expression, and biologic activities of rabbit IL-1 alpha and beta are described. A cDNA library was constructed in lambda gt10 by using polyadenylated RNA extracted from rabbit adherent splenic macrophages 4 h after stimulation with endotoxin. By using the cDNA for human IL-1 beta and IL-1 alpha as hybridization probes, cDNA for both forms of rabbit IL-1 were isolated. The cDNA for rabbit IL-1 beta encodes a precursor polypeptide of 268 amino acids with an overall homology to human IL-1 beta of 74% (81% in the mature region coding for a 17.5 kDa carboxyl-terminal protein). The similarity between the two rabbit IL-1 forms is 31% for the entire molecule and 34% for the mature protein. The mature polypeptides of both forms were expressed in Escherichia coli. The recombinant proteins were purified to homogeneity and tested in a variety of biologic assays. Both forms produced typical endogenous pyrogen fevers in rabbits and augmented murine thymocyte and Th cell proliferation. Rabbit IL-1 alpha and beta were more pyrogenic in rabbits than human rIL-1 beta, whereas human rIL-1 alpha and beta were slightly more potent lymphocyte-activating factors. The recombinant rabbit proteins induced PGE and IL-1 production from human PBMC in vitro. A RIA for human IL-1 alpha did not recognize rabbit IL-1 alpha or beta, but rabbit IL-1 beta cross-reacted (as much as 30%) in a RIA for human IL-1 beta. Rabbits were injected with endotoxin and mRNA for both forms of IL-1 were observed primarily in the spleen and liver. The mRNA reached maximal levels after 60 min, then declined rapidly over the next 3 h, but were still present after 24 h. Liver tissue removed 4 h after endotoxin infusion produced lymphocyte-activating factors which were neutralized by more than 90% with a combination of goat anti-rabbit IL-1 alpha and anti-IL-1 beta.     

Solution structure and backbone dynamics of the human DNA ligase IIIalpha BRCT domain.

BRCT (BRCA1 carboxyl terminus) domains are found in a number of DNA repair enzymes and cell cycle regulators and are believed to mediate important protein-protein interactions. The DNA ligase IIIalpha BRCT domain partners with the distal BRCT domain of the DNA repair protein XRCC1 (X1BRCTb) in the DNA base excision repair (BER) pathway. To elucidate the mechanisms by which these two domains can interact, we have determined the solution structure of human ligase IIIalpha BRCT (L3[86], residues 837-922). The structure of L3[86] consists of a beta2beta1beta3beta4 parallel sheet with a two-alpha-helix bundle packed against one face of the sheet. This fold is conserved in several proteins having a wide range of activities, including X1BRCTb [Zhang, X. D., et al. (1998) EMBO J. 17, 6404-6411]. L3[86] exists as a dimer in solution, but an insufficient number of NOE restraints precluded the determination of the homodimer structure. However, 13C isotope-filtered and hydrogen-deuterium exchange experiments indicate that the N-terminus, alpha1, the alpha1-beta2 loop, and the three residues following alpha2 are involved in forming the dimer interface, as similarly observed in the structure of X1BRCTb. NOE and dynamic data indicate that several residues (837-844) in the N-terminal region appear to interconvert between helix and random coil conformations. Further studies of other BRCT domains and of their complexes are needed to address how these proteins interact with one another, and to shed light on how mutations can lead to disruption of function and ultimately disease.     

Regulatory role of peritoneal NK1.1+ alpha beta T cells in IL-12 production during Salmonella infection.

NK1.1+ alpha beta T cells emerge in the peritoneal cavity after an i.p. infection with Salmonella choleraesuis in mice. To elucidate the role of the NK1.1+ alpha beta T cells during murine salmonellosis, mice lacking NK1.1+ alpha beta T cells by disruption of TCR beta (TCR beta-/-), beta 2m (beta 2m-/-), or J alpha 281 (J alpha 281-/-) gene were i.p. inoculated with S. choleraesuis. The peritoneal exudate T cells in wild type (wt) mice on day 3 after infection produced IL-4 upon TCR alpha beta stimulation, whereas those in TCR beta-/-, beta 2m-/-, or J alpha 281-/- mice showed no IL-4 production upon the stimulation, indicating that NK1.1+ alpha beta T cells are the main source of IL-4 production at the early phase of Salmonella infection. Neutralization of endogenous IL-4 by administration of anti-IL-4 mAb to wt mice reduced the number of Salmonella accompanied by increased IL-12 production by macrophages after Salmonella infection. The IL-12 production by the peritoneal macrophages was significantly augmented in mice lacking NK1.1+ alpha beta T cells after Salmonella infection accompanied by increased serum IFN-gamma level. The aberrantly increased IL-12 production in infected TCR beta-/- or J alpha 281-/- mice was suppressed by adoptive transfer of T cells containing NK1.1+ alpha beta T cells but not by the transfer of T cells depleted of NK1.1+ alpha beta T cells or T cells from J alpha 281-/- mice. Taken together, it is suggested that NK1. 1+ alpha beta T cells eliciting IL-4 have a regulatory function in the IL-12 production by macrophages at the early phase of Salmonella infection.     

Structure-function mapping of interleukin 1 precursors. Cleavage leads to a conformational change in the mature protein

The two interleukin 1 (IL-1) genes (IL-1 alpha and beta) encode 31-kDa precursor molecules, which are cleaved upon secretion to generate the mature, active, carboxyl-terminal 17-kDa proteins. The IL-1 beta precursor is inactive, whereas the IL-1 alpha precursor is as active as the mature IL-1 alpha. In this report, we demonstrate that when either of the recombinant precursors is processed to the mature form, the mature region undergoes a conformational change from a proteinase K-sensitive structure to one that is proteinase K-insensitive. In addition, cysteine residues that are exposed to solvent in the IL-1 beta precursor become buried in the mature protein. Limited structure-activity mapping of the IL-1 beta precursor indicates that the amino-terminal 76 residues are responsible for the conformational change, whereas the most dramatic change in biological activity occurs after further removal of residues 77-94. These findings suggest that the altered structure of the mature region in precursor IL-1s has been conserved for some function. Denaturation/renaturation experiments implicate the precursor domain in protein folding, and by analogy with signal-directed secretory proteins, the unique conformation of the precursors may play a role in IL-1 secretion.     

IL-1-converting enzyme requires aspartic acid residues for processing of the IL-1 beta precursor at two distinct sites and does not cleave 31-kDa IL-1 alpha

IL-1 converting enzyme (ICE) specifically cleaves the human IL-1 beta precursor at two sequence-related sites: Asp27-Gly28 (site 1) and Asp116-Ala117 (site 2). Cleavage at Asp116-Ala117 results in the generation of mature, biologically active IL-1 beta. ICE is unusual in that preferred cleavage at Asp-X bonds (where X is a small hydrophobic residue), has not been described for any other eukaryotic protease. To further examine the substrate specificity of ICE, proteins that contain Asp-X linkages including transferrin, actin, complement factor 9, the murine IL-1 beta precursor, and human and murine IL-1 alpha precursors, were assayed for cleavage by 500-fold purified ICE. The human and murine IL-1 beta precursors were the only proteins cleaved by ICE, demonstrating that ICE is an IL-1 beta convertase. Analysis of human IL-1 beta precursor mutants containing amino acid substitutions or deletions within each processing site demonstrated that omission or replacement of Asp at site 1 or site 2 prevented cleavage by ICE. To quantitatively assess the substrate requirements of ICE, a peptide-based cleavage assay was established using a 14-mer spanning site 2. Cleavage between Asp [P1] and Ala [P1']2 was demonstrated. Replacement of Asp with Ala, Glu, or Asn resulted in a greater than 100-fold reduction in cleavage activity. The rank order in position P1' was Gly greater than Ala much greater than Leu greater than Lys greater than Glu. Substitutions at P2'-P4' and P6' had relatively little effect on cleavage activity. These results show that ICE is a highly specific IL-1 beta convertase with absolute requirements for Asp in P1 and a small hydrophobic amino acid in P1'.     

Impaired interleukin-3 (IL-3) response of the A/J mouse is caused by a branch point deletion in the IL-3 receptor alpha subunit gene.

Interleukin-3 (IL-3) alone does not support hematopoietic colony formation of bone marrow cells from the A/J mouse. To elucidate the molecular lesion in A/J mice, we examined expression of the alpha and beta subunits of the IL-3 receptor (IL-3R). While IL-3R beta was normally expressed, IL-3R alpha was not detectable on the surface of A/J-derived cells by antibody staining. Genetic linkage analysis using recombinant inbred mouse strains between A/J and IL-3-responsive C57BL/6 indicated that the IL-3R alpha gene locus was responsible for the impaired IL-3 response in A/J mice. Molecular cloning and characterization of A/J-derived IL-3R alpha cDNA revealed that it lacked the sequence corresponding to exon 8, which encodes 10 amino acid residues in the extracellular domain. The aberrant splicing was due to a 5 base pair deletion at the branch point in intron 7 and was reproduced in heterologous cells by transfecting with an IL-3R alpha minigene carrying the deleterious intron. The A/J-specific abnormal form of IL-3R alpha was localized inside the cells, but not on the cell surface, providing the molecular basis for the impaired IL-3 response in the A/J mouse.     

The 3.0 A crystal structure of xylose isomerase from Streptomyces olivochromogenes

The crystal structure of xylose isomerase [E.C. 5.3.1.5] from Streptomyces olivochromogenes has been determined to 3.0 A resolution. The crystals belong to space group P22(1)2(1) with unit cell parameters a = 98.7, b = 93.9, c = 87.7. The asymmetric unit contains half of a tetrameric molecule of 222 symmetry. The two-fold axis relating the two molecules in the asymmetric unit is close to where a crystallographic two-fold would be if the space group were I222. This causes the diffraction pattern to have strong I222 pseudo-symmetry, so all data were collected in this pseudo-space group. Since the sequence of this enzyme has not been reported, a polyalanine backbone has been fitted to the electron density. Xylose isomerase has two domains: the N-terminal domain is an eight-stranded alpha/beta barrel of 299 residues. The C-terminal domain is a large loop of 50 residues which is involved in intermolecular contacts. Comparison of xylose isomerase with the archetypical alpha/beta barrel protein, triose phosphate isomerase, reveals that the proteins overlap best when the third (alpha beta) strand of xylose isomerase is superimposed on the first (alpha beta) strand of triose phosphate isomerase. This same overlap has also been found between the muconate lactonising enzyme and triose phosphate isomerase [Goldman et al. (1987) J. Mol. Biol., in press].     

Allophycocyanin complexes of the phycobilisome from Mastigocladus laminosus. Influence of the linker polypeptide L8.9C on the spectral properties of the phycobiliprotein subunits

The following phycobiliproteins and complexes of the allophycocyanin core were isolated from phycobilisomes of the thermophilic cyanobacterium Mastigocladus laminosus: alpha AP, beta AP, (alpha AP beta AP), (alpha AP beta AP)3, (alpha AP beta AP)3L8.9C, (alpha APB alpha AP2 beta AP3)L8.9C. The six proteins and complexes were characterised spectroscopically with respect to absorption, oscillator strength, extinction coefficient, fluorescence emission, relative quantum yield, fluorescence emission polarisation and fluorescence excitation polarisation. The interpretation of the spectral data was based on the three-dimensional structure model of (alpha PC beta PC)3 (Schirmer et al. (1985) J. Mol. Biol. 184, 257-277), which is related to the allophycocyanin trimer. The absorption and CD spectra of the complexes (alpha AP beta AP)3, (alpha AP beta AP)3L8.9C and (alpha APB alpha AP2 beta AP3)L8.9C could be deconvoluted into the spectra of the phycobiliprotein subunits. The assumptions made for the deconvolution could be checked by the synthesis of the spectra of (alpha APB beta AP)3. The synthesised spectra are in good agreement with the corresponding measured spectra published by other authors. Considering the deconvoluted spectra the following influences on the chromophores could be ascribed to L8.9C: L8.9C neither influences the alpha AP nor the alpha APB chromophores. L8.9C shifts the absorption maximum of the beta AP chromophore to longer wavelength than the absorption maximum of the alpha AP chromophore in trimeric complexes. L8.9C increases the oszillator strength of the beta AP chromophores to about the value of the alpha AP chromophores in trimeric complexes. L8.9C turns the beta AP chromophores from sensitizing into weak fluorescing chromophores. By means of the hydropathy plot and the predicted secondary structure, a postulated three-fold symmetry in the tertiary structure of L8.9C could be confirmed.     

Recombinant human interleukin 1-stimulated Na+/H+ exchange is not required for differentiation in pre-B lymphocyte cell line, 70Z/3

Interleukin-1 a polypeptide hormone produced by activated macrophages is a mixture of at least two proteins, interleukin-1 alpha (IL-1 alpha) and interleukin-1 beta (IL-1 beta). We have previously shown that macrophage-derived interleukin-1 induced new kappa light chain synthesis for surface IgM expression in a murine pre-B like cell line 70Z/3, a finding associated with an early amiloride-sensitive rise in the total intracellular sodium concentration. Because IL-1 alpha and IL-1 beta are structurally quite different, in this study their effect on 70Z/3 was examined separately. The results show that both human rIL-1 alpha and rIL-1 beta induce the differentiation of 70Z/3, but a higher concentration of rIL-1 beta compared to rIL-1 alpha is needed for a maximal response. At saturating concentrations, both rIL-1 alpha and rIL-1 beta induce a simultaneous rise in intracellular pH and sodium concentration. Because rIL-1 mediated intracellular alkalinization and sodium rise are amiloride sensitive, they likely occur through stimulation of the Na+/H+ exchanger across the cell membrane. Inhibition of the Na+/H+ antiport with an amiloride analog did not have an effect on rIL-1 induced surface IgM expression or the rIL-1-mediated increase in kappa light chain specific mRNA level. Therefore, these results indicate that an increase in pHi or [Na]i is not required for IL-1 induced 70Z/3 differentiation.     

Phorbol ester stimulates cyclooxygenase-2 expression and prostanoid production in cardiac myocytes

Phorbol-12-myristate- 13-acetate (PMA) has been shown to induce hypertrophy of cardiac myocytes. The prostaglandin endoperoxide H synthase isoform 2 (cyclooxygenase-2, COX-2) has been associated with enhanced growth and/or proliferation of several types of cells. Thus we studied whether PMA induces COX-2 and prostanoid products PGE(2) and PGF(2alpha) in neonatal ventricular myocytes and whether endogenous COX-2 products participate in their growth. In addition, we examined whether PMA affects interleukin-1beta (IL-1beta) stimulation of COX-2 and PGE(2) production. PMA (0.1 micromol/l) stimulated growth, as indicated by a 1.6-fold increase in [(3)H]leucine incorporation. PMA increased COX-2 protein levels 2. 8-fold, PGE(2) 3.7-fold, and PGF(2alpha) 2.9-fold. Inhibition of either p38 kinase or protein kinase C (PKC) prevented PMA-stimulated COX-2. Inhibition of COX-2 with either indomethacin or NS-398 had no effect on PMA-stimulated [(3)H]leucine incorporation. Exogenous administration of PGF(2alpha), but not PGE(2), stimulated protein synthesis. Treatment with IL-1beta (5 ng/ml) increased COX-2 protein levels 42-fold, whereas cotreatment with IL-1beta and PMA stimulated COX-2 protein only 32-fold. IL-1beta did not affect control or PMA-stimulated protein synthesis. These findings indicate that: 1) PMA, acting through PKC and p38 kinase, enhances COX-2 expression, but chronic treatment with PMA partially inhibits IL-1beta stimulation of COX-2; and 2) exogenous PGF(2alpha) is involved in neonatal ventricular myocyte growth but endogenous COX-2 products are not.     

Solution structure of alpha-conotoxin PIA, a novel antagonist of alpha6 subunit containing nicotinic acetylcholine receptors

alpha-Conotoxin PIA is a novel nicotinic acetylcholine receptor (nAChR) antagonist isolated from Conus purpurascens that targets nAChR subtypes containing alpha6 and alpha3 subunits. alpha-conotoxin PIA displays 75-fold higher affinity for rat alpha6/alpha3beta2beta3 nAChRs than for rat alpha3beta2 nAChRs. We have determined the three-dimensional structure of alpha-conotoxin PIA by nuclear magnetic resonance spectroscopy. The alpha-conotoxin PIA has an "omega-shaped" overall topology as other alpha4/7 subfamily conotoxins. Yet, unlike other neuronally targeted alpha4/7-conotoxins, its N-terminal tail Arg1-Asp2-Pro3 protrudes out of its main molecular body because Asp2-Pro3-Cys4-Cys5 forms a stable type I beta-turn. In addition, a kink introduced by Pro15 in the second loop of this toxin provides a distinct steric and electrostatic environment from those in alpha-conotoxins MII and GIC. By comparing the structure of alpha-conotoxin PIA with other functionally related alpha-conotoxins we suggest structural features in alpha-conotoxin PIA that may be associated with its unique receptor recognition profile.     

Protein phosphatase 1beta is required for the maintenance of muscle attachments

Type 1 serine/threonine protein phosphatases (PP1) are important regulators of many cellular and developmental processes, including glycogen metabolism, muscle contraction, and the cell cycle [1] [2] [3] [4] [5]. Drosophila and humans both have multiple genes encoding PP1 isoforms [3] [6] [7]; each has one beta and several alpha isoform genes (alpha(1), alpha(2), alpha(3) in flies, alpha and gamma in humans; mammalian PP1beta is also known as PP1delta). The alpha/beta subtype differences are highly conserved between flies and mammals [6]. Though all these proteins are >85% identical to each other and have indistinguishable activities in vitro, we show here that the Drosophila beta isoform has a distinct biological role. We show that PP1beta9C corresponds to flapwing (flw), previously identified mutants of which are viable but flightless because of defects in indirect flight muscles (IFMs) [8]. We have isolated a new, semi-lethal flw allele that shows a range of defects, especially in muscles, which break away from their attachment sites and degenerate.     

Diurnal variation of heart rate, locomotor activity, and body temperature in interleukin-1 alpha/beta doubly deficient mice.

This study was investigated the roles of interleukin-1 (IL-1) on diurnal rhythms of heart rate (HR), locomotor activity (LA), and body temperature (BT). For this purpose, HR, LA, and BT were recorded from conscious and unrestrained IL-1 alpha/beta doubly deficient (KO) and normal C57BL/6J mice using a telemetry system. These parameters were continuously recorded from just after to 2 weeks after transmitter implantation, because we thought that the surgical stress-induced IL-1 might affect the biobehavioral activities of the animals. At 1 day after implantation, HR and LA in IL-1 alpha/beta KO mice were higher than those in C57BL/6J mice. While BT in IL-1 alpha/beta KO mice was lower than that in C57BL/6J mice. Moreover, diurnal rhythmicity in these parameters after implantation in IL-1 alpha/beta KO mice appeared earlier than in C57BL/6J mice. At 2 weeks after implantation, there were no significant differences in the light- and dark-phase values of each parameter between IL-1 alpha/beta KO and C57BL/6J mice, however, IL-1 alpha/beta KO mice showed clear ultradian rhythmicity. It is thought that a phenotypical difference in biobehavioral activities between IL-1 alpha/beta KO and C57BL/6J mice may reflect IL-1 induced febrile and behavioral responses. These results suggest that IL-1 may play important physiological and pathophysiological roles on biobehavioral activities.