Activation of dopamine beta-monooxygenase by external and internal electron donors in resealed chromaffin granule ghosts

Membrane ghosts derived from chromaffin vesicles of bovine adrenal medullas have been used to examine the mechanism of reduction of dopamine beta-monooxygenase in its compartmentalized state. The rate of the dopamine beta-monooxygenase-catalyzed conversion of dopamine to norepinephrine is greatly stimulated by the presence of ATP, reflecting substrate hydroxylation on the ghost interior subsequent to the active transport of dopamine. We demonstrate a 2-3-fold increase in the turnover rate for ghosts resealed with 0.2-2 mM potassium ferrocyanide, conditions leading to a slight decrease in the rate of dopamine transport. These data provide the first evidence that an intravesicular pool of reductant can activate dopamine beta-monooxygenase, as required by models in which vesicular ascorbate behaves as enzyme reductant. Although there is sufficient catecholamine (endogenous plus substrate) to keep internal ferrocyanide reduced in these experiments, an additional 2-3-fold increase in turnover occurs in the presence of 0.2-2 mM ascorbate on the ghost exterior. The magnitude of this activation is found to be constant at all concentrations of internal ferrocyanide (both below and above saturation), implying that reductants on opposite sides of the membrane behave independently. Replacement of ascorbate by potassium ferrocyanide as external reductant leads to almost identical results, and we are able to rule out an inward transport of dehydroascorbate as the source of activation by external ascorbate. We conclude that external reductants are capable of reducing membrane-bound dopamine beta-monooxygenase from the exterior face of the vesicle, either by direct reduction or through a membrane-bound mediator. It appears that two viable modes for reduction of dopamine beta-monooxygenase may exist in vivo, involving the reduction of membrane-bound enzyme by cytosolic ascorbate as well as the reduction of soluble enzyme by the pool of intravesicular ascorbate present in chromaffin vesicles.     

The interaction of the xid and me genes

The murine "motheaten" (me) mutation has been bred onto the NFS background and combined with the X-linked immunodeficiency (xid) mutation to investigate the effect of the xid-induced B cell maturational block on the widespread immune dysfunction, high levels of autoantibodies, and early mortality found in the motheaten mice. The xid markedly reduced spontaneous IgM secretion by spleen cells, serum IgM, anti-ssDNA antibodies, anti-bromelain-treated-erythrocyte antibodies, and T cell binding (but not thymocytotoxic) antibodies; however, neither phenotype nor mortality was affected, suggesting that other factors are responsible for early death. Marked expansion of the Ly-1+ B cell pool was prevented by xid in the motheaten mouse leaving only a very small population of sIgM-positive B cells. This failure of non-Ly-1+ B cell development in me/me X xid mice suggests that me/me leads to inhibition of non-Ly-1+ B cells and preferential expansion of Ly-1+ B cells in motheaten mice, perhaps as a result of their high levels of maturation and activation factors.     

Evolution of the 28S ribosomal RNA gene in anurans: regions of variability and their phylogenetic implications

Fifteen restriction sites were mapped to the 28S ribosomal RNA gene of individuals representing 54 species of frogs, two species of salamanders, a caecilian, and a lungfish. Eight of these sites were present in all species examined, and two were found in all but one species. Alignment of these conserved restriction sites revealed, among anuran 28S rRNA genes, five regions of major length variation that correspond to four of 12 previously identified divergent domains of this gene. One of the divergent domains (DD8) consists of two regions of length variation separated by a short segment that is conserved at least throughout tetrapods. Most of the insertions, deletions, and restriction-site variations identified in the 28S gene will require sequence-level analysis for a detailed reconstruction of their history. However, an insertion in DD9 that is coextensive with frogs in the suborder Neobatrachia, a BstEII site that is limited to representatives of two leptodactylid subfamilies, and a deletion in DD10 that is found only in three ranoid genera are probably synapomorphies.      

Characterization of cross-bridge elasticity and kinetics of cross-bridge cycling during force development in single smooth muscle cells

Force development in smooth muscle, as in skeletal muscle, is believed to reflect recruitment of force-generating myosin cross-bridges. However, little is known about the events underlying cross-bridge recruitment as the muscle cell approaches peak isometric force and then enters a period of tension maintenance. In the present studies on single smooth muscle cells isolated from the toad (Bufo marinus) stomach muscularis, active muscle stiffness, calculated from the force response to small sinusoidal length changes (0.5% cell length, 250 Hz), was utilized to estimate the relative number of attached cross-bridges. By comparing stiffness during initial force development to stiffness during force redevelopment immediately after a quick release imposed at peak force, we propose that the instantaneous active stiffness of the cell reflects both a linearly elastic cross-bridge element having 1.5 times the compliance of the cross-bridge in frog skeletal muscle and a series elastic component having an exponential length-force relationship. At the onset of force development, the ratio of stiffness to force was 2.5 times greater than at peak isometric force. These data suggest that, upon activation, cross-bridges attach in at least two states (i.e., low-force-producing and high-force-producing) and redistribute to a steady state distribution at peak isometric force. The possibility that the cross-bridge cycling rate was modulated with time was also investigated by analyzing the time course of tension recovery to small, rapid step length changes (0.5% cell length in 2.5 ms) imposed during initial force development, at peak force, and after 15 s of tension maintenance. The rate of tension recovery slowed continuously throughout force development following activation and slowed further as force was maintained. Our results suggest that the kinetics of force production in smooth muscle may involve a redistribution of cross-bridge populations between two attached states and that the average cycling rate of these cross-bridges becomes slower with time during contraction.     

Studies on the influence of the internal environment on autoantibody production by B cells

Purified splenic B cells from autoimmune NZB and nonautoimmune DBA/2 mice were transferred to unmanipulated H-2 compatible xid recipients. The number of autoantibody-secreting clones present in recipient mice was quantitated at varying times after transfer using a splenic fragment assay. We found that NZB and DBA/2 B cells expanded equally well in equivalent xid environments. Cells from either donor expanded significantly better in autoimmune-prone NZB.xid as compared with DBA/2.xid recipients. Moreover, clones producing antibodies reactive with T cell surface antigens, bromelain-treated mouse red cells, or DNA expanded more rapidly than did cells producing antibodies to the nonautoantigen TNP-KLH. Serum autoantibody levels rose in concert with the increased numbers of autoantibody-producing lymphocytes. We conclude that factors present in the internal milieu of autoimmune-prone NZB.xid mice, rather than an intrinsic B cell defect, facilitate the expansion of (auto)antibody-secreting B cells.     

Stereochemical probes of bovine plasma amine oxidase: evidence for mirror image processing and a syn abstraction of hydrogens from C-1 and C-2 of dopamine

Bovine plasma amine oxidase (PAO) has previously been shown to catalyze a nonstereospecific loss of tritium from [2(R)-3H]- and [2(S)-3H]dopamines, attributed to multiple, catalytically active binding sites for substrate [Summers, M. C., Markovic, R., & Klinman, J. P. (1979) Biochemistry 18, 1969-1979]. Analysis of products formed from incubation of dopamine with PAO in tritiated water indicates a stereospecific, pro-R, incorporation of label at C-2. Thus, tritium washout (random) and washin (pro-R) are not the microscopic reverse of one another. We conclude that the (enamine) intermediates leading to tritium washin are nonequivalently bound. The observation of pro-R incorporation has provided a straightforward synthetic route to [1(R)-2H,2(R)-3H]- and [1(S)-2H,2(R)-3H]dopamines, which upon oxidation with PAO are expected to be processed preferentially by 1S and 1R cleavage, respectively. From previously measured isotope effects, we predict the loss of tritium from the 1(R)-2H and 1(S)-2H samples to be 74:8 for a syn relationship between cleavage at C-1 and C-2 vs. 21:90 for an anti relationship. The observation of a 68:18 ratio at 100% conversion provides strong evidence for a syn cleavage. The data support a mechanism in which a single base catalyzes a 1,3-prototrophic shift of hydrogen from C-1 of the substrate to cofactor, followed by exchange from C-2. Additionally, the results confirm the presence of alternate binding modes for dopamine at the active site of bovine plasma amine oxidase. This interaction of dopamine with plasma amine oxidase is a rare example of mirror-image catalysis in which a single substrate has two functional binding orientations on an enzyme surface.     

Mechanism-based inhibition of dopamine beta-monooxygenase by aldehydes and amides

A mechanism for beta-chlorophenethylamine inhibition of dopamine beta-monooxygenase has been postulated in which enzyme-bound alpha-aminoacetophenone is generated, followed by an intramolecular redox reaction to yield a ketone-derived radical cation as the enzyme inhibitory species (Mangold, J. B., and Klinman, J. P. (1984) J. Biol. Chem. 259, 7772-7779). If correct, additional compounds capable of producing enzyme-bound (formula; see text) reductant should inhibit dopamine beta-monooxygenase. Phenylacetaldehyde was chosen to test this model, since beta-hydroxyphenylacetaldehyde is expected to function as a reductant in a manner analogous to alpha-aminoacetophenone. Phenylacetaldehyde exhibits the properties of a mechanism-based inhibitor. Kinetic parameters are comparable to beta-chlorophenethylamine under both initial velocity and inactivation conditions. Since phenylacetaldehyde bears little resemblance to beta-chlorophenethylamine, its analogous inhibitory action provides support for an intramolecular redox reaction (via beta-hydroxyphenylacetaldehyde oxidation to a radical cation) in dopamine beta-monooxygenase inactivation. beta-Hydroxyphenylacetaldehyde was identified as the enzymatic product of phenylacetaldehyde turnover. As predicted, this product behaves both as a time-dependent inhibitor of dopamine beta-monooxygenase and as an electron donor in enzyme-catalyzed hydroxylation of tyramine to octopamine. Phenylacetamide and p-hydroxyphenylacetamide are also found to be mechanism-based inhibitors of dopamine beta-monooxygenase. In this case the product of hydroxylation (beta-hydroxyphenylacetamide) is redox inactive and, therefore, is unable to function as either a reductant or an inhibitor. Thus, mechanism-based inhibitors are divided into two types: type I, which undergoes hydroxylation prior to inactivation, and type II, which only requires hydrogen atom abstraction. A general mechanism for dopamine beta-monooxygenase inactivation is described, in which a common mechanistic radical intermediate is formed from both pathways.     

Modulation of c-myb transcription in autoimmune disease by cyclophosphamide

This study explores the relationship between autoimmunity and the myb proto-oncogene, a gene important for T cell development. The lpr/lpr mice had very large amounts of myb RNA in the lymph node (LN) cells; but unexpectedly, they had abnormally low levels of myb RNA in the thymus, an organ normally rich in myb RNA. Mice with the gld/gld genotype had high myb RNA levels in peripheral LN, similar to lpr/lpr mice, but had normal thymic myb RNA levels. Both lpr/lpr and gld/gld mice and an AILD patient with lymphadenopathy and high myb RNA in peripheral blood cells were treated with cyclophosphamide (CY). In all cases, the CY eliminated the lymphadenopathy and corrected the abnormal myb expression. However, there were significant differences in the clinical and cellular responses to this drug. A single large dose of CY led to marked regression of the lymphadenopathy of gld/gld mice and long-term amelioration of their autoimmune syndrome. In contrast, similar treatment of lpr/lpr mice failed to alter either the lymphadenopathy or the disease process. Consistent with these clinical findings, LN myb was normalized in gld/gld mice by a single injection of CY, whereas there was no effect on myb expression in lpr/lpr mice. The AILD patient reacted much like the gld/gld mice in that myb RNA levels in the peripheral blood, and bone marrow returned to normal after only three doses of CY. The lymphadenopathy and high levels of LN myb mRNA of the lpr/lpr mice could be normalized; this occurred only after long-term treatment with CY. These events were accompanied by an increase in thymic myb mRNA from low levels. These studies have combined a molecular probe with CY therapy to provide insights into the cellular bases for lymphoproliferative autoimmune diseases.     

Magnitude of intrinsic isotope effects in the dopamine beta-monooxygenase reaction

Intrinsic primary hydrogen isotope effects (kH/kD) have been obtained for the carbon-hydrogen bond cleavage step catalyzed by dopamine beta-monooxygenase. Irreversibility of this step is inferred from the failure to observe back-exchange of tritium from TOH into substrate under conditions of dopamine turnover; this result cannot be due to solvent inaccessibility at the enzyme active site, since we will demonstrate [Ahn, N., & Klinman, J. P. (1983) Biochemistry (following paper in this issue)] that a solvent-derived proton or triton must be at the enzyme active site prior to substrate activation. As shown by Northrop [Northrop, D. B. (1975) Biochemistry 14, 2644], for enzymatic reactions in which the carbon-hydrogen bond cleavage step is irreversible, comparison of D(V/K) to T(V/K) allows an explicit solution for kH/kD. Employing a double-label tracer method, we have been able to measure deuterium isotope effects on Vmax/Km with high precision, D(V/K) = 2.756 +/- 0.054 at pH 6.0. The magnitude of the tritium isotope effect under comparable experimental conditions is T(V/K) = 6.079 +/- 0.220, yielding kH/kD = 9.4 +/- 1.3. This result was obtained in the presence of saturating concentrations of the anion activator fumarate. Elimination of fumarate from the reaction mixture leads to high observed values for isotope effects on Vmax/Km, together with an essentially invariant value for kH/kD = 10.9 +/- 1.9. Thus, the large disparity between isotope effects, plus or minus fumarate, cannot be accounted for by a change in kH/kD, and we conclude a role for fumarate in the modulation of the partitioning of enzyme-substrate complex between catalysis and substrate dissociation. On the basis of literature correlations of primary hydrogen isotope effects and the thermodynamic properties of hydrogen transfer reactions, the very large magnitude of kH/kD = 9.4-10.9 for dopamine beta-monooxygenase suggests an equilibrium constant not very far from unity for the carbon-hydrogen bond cleavage step. This feature, together with the failure to observe re-formation of dopamine from enzyme-bound intermediate or product and overall rate limitation of enzyme turnover by product release, leads us to propose a stepwise mechanism for norepinephrine formation from dopamine in which carbon-hydrogen bond cleavage is uncoupled from the oxygen insertion step.     

Excess amino acid polymorphism in mitochondrial DNA: contrasts among genes from Drosophila, mice, and humans

Recent studies of mitochondrial DNA (mtDNA) variation in mammals and Drosophila have shown an excess of amino acid variation within species (replacement polymorphism) relative to the number of silent and replacement differences fixed between species. To examine further this pattern of nonneutral mtDNA evolution, we present sequence data for the ND3 and ND5 genes from 59 lines of Drosophila melanogaster and 29 lines of D. simulans. Of interest are the frequency spectra of silent and replacement polymorphisms, and potential variation among genes and taxa in the departures from neutral expectations. The Drosophila ND3 and ND5 data show no significant excess of replacement polymorphism using the McDonald-Kreitman test. These data are in contrast to significant departures from neutrality for the ND3 gene in mammals and other genes in Drosophila mtDNA (cytochrome b and ATPase 6). Pooled across genes, however, both Drosophila and human mtDNA show very significant excesses of amino acid polymorphism. Silent polymorphisms at ND5 show a significantly higher variance in frequency than replacement polymorphisms, and the latter show a significant skew toward low frequencies (Tajima's D = -1.954). These patterns are interpreted in light of the nearly neutral theory where mildly deleterious amino acid haplotypes are observed as ephemeral variants within species but do not contribute to divergence. The patterns of polymorphism and divergence at charge-altering amino acid sites are presented for the Drosophila ND5 gene to examine the evolution of functionally distinct mutations. Excess charge-altering polymorphism is observed at the carboxyl terminal and excess charge-altering divergence is detected at the amino terminal. While the mildly deleterious model fits as a net effect in the evolution of nonrecombining mitochondrial genomes, these data suggest that opposing evolutionary pressures may act on different regions of mitochondrial genes and genomes.