Erythrocruorin from the water-flea Daphnia magna. Quaternary structure and arrangement of subunits.

The subunit structure of erythrocruorin from the cladoceran Daphnia magna was studied. The native protein was found to have a sedimentation coefficient (S2(20), w) of 17.9 +/- 0.2 S and a molecular weight, as determined by sedimentation equilibrium, of 494 000 +/- 33 000. Iron and haem determinations gave 0.312 +/- 0.011% and 3.84 +/- 0.04%, corresponding to minimal molecular weights of 17900 +/- 600 and 16 100 +/- 200 respectively. Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis gave one band with mobility corresponding to a molecular weight of 31 000 +/- 1 500. The molecular weight of the polypeptide chain determined by sedimentation equilibrium in 6 M-guanidinium chloride and 0.1 M-2-mercaptoethanol is 31 100 +/- 1300. On a molecular-weight basis, Daphnia erythrocruorin is composed of 16 identical polypeptide chains carrying two haem groups each. The native structure is stable between pH5 and 8.5. At alkaline and acidic pH, a gradual decrease in the sedimentation coefficient down to 9.8S occurs. Above pH 10 and below pH4, a slow component with S20, w between 2.7S and 4.0S is observed. The 2.7S, 4.0S and 9.8S species are identified as single-chain subunits, subunit dimers and half-molecules respectively. We propose a model for the molecule composed of 16 2.7S subunits grouped in two layers stacked in an eclipsed orientation, the eight subunits of each layer occupying the vertices of a regular eight-sided polygon. Support for this arrangement is provided from electron microscopy and from analysis of the pH-dissociation pattern.     

Does osmotic regulation of amylase activity in bean cotyledons exist?

The hypothesis that the promotive effect of the embryo axis of the germinating bean seed on amylase activity in the cotyledons is mediated by an osmoregulative mechanism was examined. After 2 days of germination the action of the axis on amylolytic activity was already clearly revealed, whereas at the same time it did not have any influence on osmotic pressure in the cotyledons. When the axis was attached to one cotyledon during 4 days of incubation, osmotic pressure in the cotyledon was lower than its value in the cotyledons of the intact seedling, whereas amylolytic activity was similar in both treatments. It was concluded that the tested hypothesis is not valid in the case of the bean seedling. External osmotic agents brought about a decrease in the level of amylase in the cotyledons, but this does not prove that osmotic changes which are brought about by production of internal metabolites are involved in the regulation of amylase synthesis.     

Inhibition of adenylate cyclase in human blood platelets by 9-substituted adenine derivatives.

A series of 9-substituted adenine derivatives inhibited adenylate cyclase activity (ATP pyrophosphate-lyase (cyclizing) EC 4.6.1.1) of a particulate preparation of human blood platelets. A 3--6 fold elevation of adenylate cyclase activity by prostaglandin E1 (PGE1) was inhibited in a concentration-related manner by 9-(tetrahydro-5-methyl-2-furyl) adenine (SQ 22,538), 9-(tetrahydro-2-furyl) adenine (SQ 22,536), 9-cyclopentyladenine (SQ 22,534), 9-furfuryladenine (sQ 4647) and 9-benzyladenine (SQ 218611). The I50 values ranged from 21 microM for SQ 22,538 to 140 microM for SQ 21,611. These same adenine derivatives reversed the inhibition by PGE1 of ADP-induced aggregation and the PGE1-stimulated elevation of adenosine 3':5'-monophosphate (cyclic AMP). The reversal of platelet aggregation inhibition by SQ 22,536 and SQ 4647 was concentration-related with I50 values of 30 microM in each case, whereas SQ 22,534 and SQ 21,611 reversed inhibition by 30% at 100 microM. SQ 22,536, SQ 22,534 and SQ 21,611 also blocked the increase in cyclic AMP levels in a concentration-related manner with I50 values of 1, 4 and 60 microM, respectively. SQ 4647 inhibited the elevation of cyclic AMP by more than 85% at 1000 microM. The adenine derivatives had no effect on platelet aggregation or on cyclic AMP levels in the absence of PGE1. These results provide additional evidence that the inhibition of platelet aggregation by PGE1 is mediated by cyclic AMP.     

A simplified microassay for serotonin: Modification of the enzymatic isotopic assay

A simplification of the enzymatic isotopic assay for serotonin is described, Serotonin is converted to [³H]melatonin by a two-step reaction: N-acetylation of serotonin using acetic anhydride, followed by O-methylation with the enzyme hydroxyindole O-methyltransferase (EC 2.1,1.4) and S-adenosyl- -[methyl-³H]methionine as methyl donor. The present assay avoids the use of unstable acetylating enzyme, rat liver N-acetyltransferase (EC2.3,1.5). Blank values are lowered considerably and the sensitivity is doubly increased. Two-tenths micromole of serotonin per 30 μl of sample in tissue homogenates can be measured.     

Effect of clofibrate application on morphology and enzyme content of liver peroxisomes.

Male albino rats (Sprague Dawley) were fed for 2-6 weeks on a diet containing 0.75% clofibrate. Liver cell fractions obtained from these animals were assayed for peroxisomal enzymes. In the cell homogenate the catalase activity was doubled, whereas the activity of urate oxidase was found to be only slightly depressed. The activity of carnitine acetyltransferase increased several times. In liver peroxisomes purified by isopycnic gradient centrifugation the specific activity of urate oxidase decreased appreciably showing that peroxisomes formed under the proliferative influence of clofibrate are not only modified with respect to their morphological characteristics but also to their enzymic equipment. This is also obvious from the changes in peroxisomal carnitine acetyltransferase activity which was enhanced by clofibrate to more than the fivefold amount. In purified mitochondria this enzyme was even more active: clofibrate advances both, the peroxisomal and the mitochondrial moiety of carnitine acetyltransferase. Morphological and cytochemical studies showed an increase in the number of microbodies and as compared to the controls microbodies were lying in groups more frequently. Small particles located closely adjacent to "normal" sized peroxisomes were found particularly after short feeding periods. While the number of coreless microbodies increased studies gave no clear evidence for an increase in marked shape irregularities of the peroxisomes.     

The one-electron transfer redox potentials of free radicals. I. The oxygen/superoxide system.

The method of determination of Redox potentials of radicals, using the pulse radiolysis technique, is outlined. The method is based on the determination of equilibrium constants of electron transfer reactions between the radicals and appropriate acceptors. The limitations of this technique are discussed. The redox potentials of several quinones-semiquinones are calculated, as well as the standard redox potential of the peroxy radical. EO2/O2=-0.33 V and the redox oxidation properties of the peroxy radical in various systems and pH are discussed. The value determined for the redox potentials of O2/O2 is higher by more than 0.2 V than earlier estimates, which has important implications on the possible role of O2 in biological processes of O2 fixation.     

Similarities in properties and a functional difference in purified leucyl-tRNA synthetase isolated from two developmental stages of Tenebrio molitor

In Tenebrio molitor, as well as in other biological systems, there are indications that differences in leucyl-tRNA synthetase activity may play a role in translational control. However, it has not been clear whether the difference in activity is due to the appearance of a multiplicity of enzymes during development or to the alteration of a single enzyme.The purification of leucyl-tRNA synthetase from day 1 and day 7 after the larval pupal molt of Tenebrio molitor is described. The enzyme from both developmental stages was purified over a 1000-fold. The two enzyme preparations are identical in molecular weight (99,000). They show the same characteristics after aging. The pH optimum, heat inactivation behavior, and dependency on divalent cations are the same for both enzymes. They also show identical kinetics with similar values of Km for leucine, ATP, Mg²⁺, and tRNA day 1. However, leucyl-tRNA synthetase purified from day 7 exhibits an additional function in recognizing a new species of isoaccepting tRNA in day 7 tRNA. We have tentatively concluded that the two enzymes are probably different forms of the same enzyme and the additional activity is due to alteration of the enzyme at the macromolecular level during development.     

Identification and characterization of heparin/heparan sulfate binding domains of the endoglycosidase heparanase

The endo-beta-glucuronidase, heparanase, is an enzyme that cleaves heparan sulfate at specific intra-chain sites, yielding heparan sulfate fragments with appreciable size and biological activities. Heparanase activity has been traditionally correlated with cell invasion associated with cancer metastasis, angiogenesis, and inflammation. In addition, heparanase up-regulation has been documented in a variety of primary human tumors, correlating with increased vascular density and poor postoperative survival, suggesting that heparanase may be considered as a target for anticancer drugs. In an attempt to identify the protein motif that would serve as a target for the development of heparanase inhibitors, we looked for protein domains that mediate the interaction of heparanase with its heparan sulfate substrate. We have identified three potential heparin binding domains and provided evidence that one of these is mapped at the N terminus of the 50-kDa active heparanase subunit. A peptide corresponding to this region (Lys(158)-Asp(171)) physically associates with heparin and heparan sulfate. Moreover, the peptide inhibited heparanase enzymatic activity in a dose-responsive manner, presumably through competition with the heparan sulfate substrate. Furthermore, antibodies directed to this region inhibited heparanase activity, and a deletion construct lacking this domain exhibited no enzymatic activity. NMR titration experiments confirmed residues Lys(158)-Asn(162) as amino acids that firmly bound heparin. Deletion of a second heparin binding domain sequence (Gln(270)-Lys(280)) yielded an inactive enzyme that failed to interact with cell surface heparan sulfate and hence accumulated in the culture medium of transfected HEK 293 cells to exceptionally high levels. The two heparin/heparan sulfate recognition domains are potentially attractive targets for the development of heparanase inhibitors.     

Semaphorins as Mediators of Neuronal Apoptosis

Shrinkage and collapse of the neuritic network are often observed during the process of neuronal apoptosis. However, the molecular and biochemical basis for the axonal damage associated with neuronal cell death is still unclear. We present evidence for the involvement of axon guidance molecules with repulsive cues in neuronal cell death. Using the differential display approach, an up-regulation of collapsin response mediator protein was detected in sympathetic neurons undergoing dopamine-induced apoptosis. A synchronized induction of mRNA of the secreted collapsin-1 and the intracellular collapsin response mediator protein that preceded commitment of neurons to apoptosis was detected. Antibodies directed against a conserved collapsin-derived peptide provided marked and prolonged protection of several neuronal cell types from dopamine-induced apoptosis. Moreover, neuronal apoptosis was inhibited by antibodies against neuropilin-1, a putative component of the semaphorin III/collapsin-1 receptor. Induction of neuronal apoptosis was also caused by exposure of neurons to semaphorin III-alkaline phosphatase secreted from 293EBNA cells. Anti-collapsin-1 antibodies were effective in blocking the semaphorin III-induced death process. We therefore suggest that, before their death, apoptosis-destined neurons may produce and secrete destructive axon guidance molecules that can affect their neighboring cells and thus transfer a "death signal" across specific and susceptible neuronal populations.