Characterization of the folic acid C9-N10-cleaving enzyme of Dictyostelium minutum V3

Folic acid is a chemoattractant for the slime mold Dictyostelium minutum V3. The activity of extracellular folic acid is regulated by a folic acid C9-N10 splitting enzyme (FAS). The products were identified as pterin-6-aldehyde and p-amino-benzoylglutamic acid. The enzyme was stabilized by EDTA. For the extracellular enzyme, the Km was 10(-7) M, and the optimal pH was 4.0. During starvation, FAS activity was mainly secreted into the medium; after 3 h, a plateau was reached. The membrane-bound activity was constant, but only 12% of the extracellular activity at 3 h. Intracellular activity also increased up to 3 h to a level of 23% of the extracellular FAS. The substrate recognition of FAS was found to be based on 4-O or N3 or both, N5 or N8 or both, N10, and the p-aminobenzoic acid moiety, whereas 2-NH2, N1, and the glutamic acid moiety were not recognized. Other slime mold species were found to secrete FAS with 20-fold or more reduced activity than D. minutum V3.     

Specific binding of guanosine 5'-diphosphate with the NS protein of vesicular stomatitis virus

A soluble protein fraction containing L, NS, G and M proteins of vesicular stomatitis virus was prepared by treatment of Triton-disrupted virions with 0.8M NaCl. Incubation of the soluble fraction with beta-32P GDP followed by analysis of the proteins by polyacrylamide gel electrophoresis showed specific labeling of the NS protein. The NS-GDP complex was sensitive to phosphatase treatment, suggesting non-covalent binding. No binding of GDP to NS protein was detected when the soluble fraction was pre-heated at 100 degrees C for 1 min. or Mg++ was omitted from the incubation mixture. The binding was inhibited by ATP consistent with competition for a common nucleotide binding site.     

Elastase-type activity of human serum. Its variation in chronic obstructive lung diseases and atherosclerosis

Human serum was found to contain enzyme activities hydrolyzing succinyl trialanine paranitroanilide and 3H-kappa-elastin Sepharose substrates. Both types of activities could be partly abolished by serine active site titrants (phenylmethanesulfonylfluoride, diisopropylphosphorofluoridate) and partly by neutral chelating agents (EDTA; 1-10-phenanthroline). The combination of phenylmethanesulfonylfluoride and EDTA gave a complete inhibition of human serum elastase-type activities indicating the presence of at least two different types of elastases (serine and metalloproteases) in human serum. In nonsmokers, the average serum elastase-type activity on succinyl trialanine paranitroanilide was found equal to 78.1 ng/ml porcine pancreatic elastase equivalents and on 3H-kappa-elastin sepharose beads equal to 688.8 ng/ml. No statistically significant differences were observed in elastase levels in the sera of individuals presenting clinical symptoms of atherosclerosis. The sera of patients suffering from chronic obstructive lung diseases contained, however, higher amounts of elastase-type activities, respectively equal to 237.2 ng/ml on succinyl trialanine paranitroanilide and 1,096 ng/ml on 3H-kappa-elastin Sepharose beads and was quantitatively significant when compared with control subjects.     

Phototoxicity of phenothiazine derivatives. II. Photosensitized cross-linking of erythrocyte membrane proteins

Irradiation in the presence of O₂, with near-UV light of five promazine (PZ) derivatives added to erythrocyte ghost membranes, causes covalent cross-linking between proteins as revealed by a progressive decrease in the amounts of proteins separable by electrophoresis after denaturation. The induction of cross-links in the two spectrin subunits is a single-hit process as a function of the irradiation time; relatively the rate constants (in min^?1) of the photoreactions were 0.060 with chlorpromazine (CPZ), 0.039 with methoxypromazine (MTPZ), 0.031 with PZ, 0.029 with triflupromazine (TFPZ) and 0.006 with acepromazine (ACPZ).A main photochemical intermediate implicated in the spectrin aggregation seems to be the cation radical of the PZ derivatives. Indeed, (i) the chemically generated cation radicals can induce the reaction in the dark; (ii) the photoaggregation is regularly reduced upon addition of increasing concentrations of NaN₃; (iii) NaN₃ similarly affects the amount of cross-links induced by the isolated cation radicals. Hydroxyl radicals are also involved in the photocross-linking when the reaction is initiated only by MTPZ and not by the other sensitizers.In the absence of oxygen during irradiation, PZ, MTPZ and ACPZ completely loose their cross-linking activities whereas CPZ and TFPZ remain as efficient as in the presence of oxygen.     

Experimental study of synchronization phenomena under periodic light irradiation of a nonlinear chemical system

A photosensitive chemical oscillating reaction, i.e., the Briggs-Rauscher (B.R.) reaction, exhibiting a wealth of nonlinear behavior, when performed in a continuous-flow stirred-tank reactor, and subjected to periodic light irradiation, is studied as an experimental example of entrainment phenomena observable in biological systems. The adaptation patterns under periodic light irradiation are elucidated by means of the response of the system to continuous and single-pulse light irradiation. It is shown that self-oscillating states, excitable steady states and bistable systems can exhibit the same types of synchronization patterns when submitted to periodic external forces with appropriate amplitude and time scale conditions.