Bradyrhizobium japonicum delta-aminolevulinic acid dehydratase is essential for symbiosis with soybean and contains a novel metal-binding domain.

The Bradyrhizobium japonicum hemA gene product delta-aminolevulinic acid (ALA) synthase is not required for symbiosis of that bacterium with soybean. Hence, the essentiality of the subsequent heme synthesis enzyme, ALA dehydratase, was examined. The B. japonicum ALA dehydratase gene, termed hemB, was isolated and identified on the basis of its ability to confer hemin prototrophy and enzyme activity on an Escherichia coli hemB mutant, and it encoded a protein that was highly homologous to ALA dehydratases from diverse organisms. A novel metal-binding domain in the B. japonicum ALA dehydratase was identified that is a structural composite of the Mg(2+)-binding domain found in plant ALA dehydratases and the Zn(2+)-binding region of nonplant ALA dehydratases. Enzyme activity in dialyzed extracts of cells that overexpressed the hemB gene was reconstituted by the addition of Mg2+ but not by addition of Zn2+, indicating that the B. japonicum ALA dehydratase is similar to the plant enzymes with respect to its metal requirement. Unlike the B. japonicum hemA mutant, the hemB mutant strain KP32 elicited undeveloped nodules on soybean, indicated by the lack of nitrogen fixation activity and plant hemoglobin. We conclude that the hemB gene is required for nodule development and propose that B. japonicum ALA dehydratase is the first essential bacterial enzyme for B. japonicum heme synthesis in soybean root nodules. In addition, we postulate that ALA is the only heme intermediate that can be translocated from the plant to the endosymbiont to support bacterial heme synthesis in nodules.     

Succinylacetone, a potent inhibitor of heme biosynthesis: effect on cell growth, heme content and delta-aminolevulinic acid dehydratase activity of malignant murine erythroleukemia cells.

4,6-Dioxoheptanoic acid (succinylacetone, SA) was examined with regard to its ability to a) inhibit the second enzyme of the heme pathway, δ-aminolevulinic acid (ALA) dehydratase, b) lower the heme concentration, and c) inhibit cell growth of murine erythroleukemia (MEL) cells in culture. SA profoundly inhibited ALA dehydratase in broken cell preparations at concentrations as low as 10^?7 M. The stimulation of hemoglobin production by DMSO and butyrate in MEL cells was inhibited by the addition of SA to the cell medium. When 1 mM SA was added to the medium, there was a profound inhibition of ALA dehydratase activity, and the heme concentration of cells declined progressively with each cell division. Cell growth was markedly inhibited after two cell divisions.     

Inherited deficiency of delta-aminolevulinic acid dehydratase.

Delta-aminolevulinic acid dehydratase (ALA-D) is the second enzyme in the porphyrin-heme pathway and converts delta-aminolevulinc acid (ALA) to porphobilinogen (PBG). A family is reported with an inherited deficiency of red cell ALA-D activity occurring over three generations in an autosomal dominant pattern. Intial experiments support the hypothesis that the mutation in this family may affect a regulatory gene, but enzyme purification and further study are required. Although no clinical manifestations of deficient ALA-D activity have been found in affected persons, families such as this may be at increased risk for the serious consequences of lead poisoning, which produces marked inhibition of ALA-D activity.     

Automated determination of delta-aminolevulinic acid dehydratase activity in human erythrocytes

An automated assay for the estimation of δ-aminolevulinic acid dehydratase activity in human erythrocytes has been devised. The present design allows the performance of thirteen analyses per hour. Samples are hemolysed by saponin in the flow system. Lateral interaction between consecutive samples is negligible and repeatability of analysis is excellent. The analytical values of the automated and manual procedures correlate strongly. In randomly selected, hospitalized patients the mean value of δ-aminolevulinic acid dehydratase activity is significantly lower than that found in a normal population.     

Aerobic growth and respiration of a delta-aminolevulinic acid synthase (hemA) mutant of Bradyrhizobium japonicum.

Oxygen-dependent growth of the Bradyrhizobium japonicum hemA mutant MLG1 (M.L. Guerinot and B.K. Chelm, Proc. Natl. Acad. Sci. USA 83:1837-1841, 1986) was demonstrated in cultured cells in the absence of exogenous delta-aminolevulinic acid (ALA), but growth of analogous mutants of Rhizobium meliloti or of Escherichia coli was not observed unless ALA was added to the yeast extract-containing media. No heme could be detected in extracts of strain MLG1 cells as measured by the absorption or by the peroxidase activity of the heme moiety, but the rates of growth and endogenous respiration of the mutant were essentially identical to those found in the parent strain. A role for ALA in the viability of strain MLG1 could not be ruled out since the ALA analog levulinic acid inhibited growth, but neither ALA synthase nor glutamate-dependent ALA synthesis activity was found in the mutant. The data show that the cytochromes normally discerned in wild-type B. japonicum cultured cells by absorption spectroscopy are not essential for aerobic growth or respiration.     

Blood lead concentration and delta-aminolevulinic acid dehydratase activity in adult Bufo arenarum

The effects of sublethal doses of lead (as acetate) on blood parameters of adult male Bufo arenarum were studied. Toads received one single injection with 10, 25, 50 or 100 mg/kg of body weight, equivalent to approximately 1/90-1/10 of the 120 h-LD50; seven days after the injections, the hematocrit and the blood delta-aminolevulinic acid dehydratase (ALAD) activity were measured. Hematocrit of lead-injected animals did not exhibit significant changes respective to controls that received sodium acetate (range 29.8-38.8%). Blood lead concentrations were positively and significantly correlated with the injected metal doses. Blood ALAD activity declined proportionately to the doses of the metal as well as to its whole blood concentration. Because of its sensitivity and specificity, it was concluded that the activity of delta-ALAD may be adopted as a reliable biomarker of Bufo arenarum experimental lead intoxication.     

Polymorphism of delta-aminolevulinic acid dehydratase in Basque populations

Human red cell delta-aminolevulinic acid dehydratase (ALADH; EC 4.2.1.24) polymorphism was studied in three population samples of the Basque Country. The frequency of the ALADH2 was around 0.08 and similar to that in other European countries.     

Selenium increases hydrogenase expression in autotrophically cultured Bradyrhizobium japonicum and is a constituent of the purified enzyme.

We have investigated the effect of added selenite on autotrophic growth and the time course of hydrogen oxidation derepression in Bradyrhizobium japonicum 122DES cultured in a medium purified to remove selenium compounds. In addition, hydrogenase was purified to near homogeneity and examined for the specific incorporation of Se into the enzyme. The addition of Se at 0.1 microM significantly increased total cell protein and hydrogenase specific activity of harvested cells. Also, the addition of SeO3(2-) enhanced the time course of hydrogenase derepression by 133%, whereas VO3, AsO2(2-), SO2(2-), and TeO3(2-) failed to substantially affect hydrogenase derepression. During the final chromatographic purification of hydrogenase, a striking coincidence in peaks of protein content, Se radioactivity, and hydrogenase activity of fractions was obtained. The total Se content expressed per milligram of protein increased manyfold during the purification procedure. The mean Se content of the purified hydrogenase was 0.56 +/- 0.13 mol of Se per mol of enzyme. These results indicate that Se is an important element in the H2 metabolism of B. japonicum and that hydrogenase from B. japonicum is a seleno protein.     

Effect of endogenous heme generation on delta-aminolevulinic acid synthase activity in rat liver mitochondria.

This study examined the possibility that generation of heme within mitochondria may provide a local concentration sufficient to inhibit the activity of delta-aminolevulinic acid (ALA) synthase, the enzyme that catalyzes the rate-limiting step in hepatic heme biosynthesis. This was accomplished by simultaneously running ALA synthase and heme synthase activities in intact mitochondria isolated from rat liver. Radiochemical assays were used to measure the enzyme activities. ALA synthase activity did not decrease as the rate of heme formation was increased by varying the concentration of substrates for heme synthase. Even at a rate of heme generation estimated to be at least 75 times the rate occuring in vivo, ALA synthase activity was unchanged. We conclude that end product inhibition of ALA synthase activity by heme is not an important physiological mechanism for regulation of hepatic heme biosynthesis.