The GLI-Kruppel family of human genes.

Previous characterization of GLI, a gene found to be amplified and expressed in a subset of human brain tumors, revealed the presence of five tandem zinc fingers related to those of Krüppel (Kr), a Drosophila segmentation gene of the gap class. We have used the GLI cDNA as a molecular probe to isolate related sequences from the human genome. Partial characterization of six related loci, including sequence determination, expression studies, and chromosome localization, revealed that each locus could encode a separate finger protein. The predicted proteins all had similar H-C links, i.e., a conserved stretch of 9 amino acids connecting the C-terminal histidine of one finger to the N-terminal cysteine of the next. On the basis of amino acid sequence and intron-exon organization, the genes could be placed into one of two subgroups: the GLI subgroup (with the consensus finger amino acid sequence [Y/F]XCX3GCX3[F/Y]X5LX2HX3-4H[T/S]GEKP) or the Kr subgroup (with the consensus finger amino acid sequence [Y/F]XCX2CX3FX5LX2HXRXHTGEKP). Unlike GLI or Kr, most of the newly isolated genes were expressed in many adult tissues. The predicted proteins probably control the expression of other genes and, by analogy with Kr and GLI, may be important in human development, tissue-specific differentiation, or neoplasia.     

Complementation Mapping of Skeletal and Central Nervous System Abnormalities in Mice of the Piebald Deletion Complex

The s(15DttMb), s(36Pub), s(1Acrg) and s(24Pub) piebald deletion alleles belong to a set of overlapping deficiencies on the distal portion of chromosome 14. Molecular analysis was used to define the extent of the deletions. Mice homozygous for the smallest deletion, s(15DttMb), die shortly after delivery and display alterations in the central nervous system, including hydrocephalus and a dorsally restricted malformation of the spinal cord. These mice also display homeotic transformations of vertebrae in the midthoracic and lumbar regions. Homozygous s(27Pub) mice contain a point mutation in the piebald gene, survive to weaning, and display no central nervous system or skeletal defects, arguing that the s(15DttMb) phenotype results from the loss of genes in addition to piebald. A larger deletion, s(36Pub), exhibits additional cartilage malformations and defects in the anterior axial and cranial skeleton. The skeletal defects in both s(15DttMb) and s(36Pub) mice resemble transformations associated with the targeted disruption of Hox genes and genes encoding the retinoic acid receptors, which play a role in the specification of segmental identity along the anteroposterior axis. Complementation analysis of the s(15DttMb) and s(36Pub) phenotypes, using two additional deletions, localized the gene(s) associated with each phenotype to a defined chromosomal region.     

Evolution of eutherian cytochrome c oxidase subunit II: heterogeneous rates of protein evolution and altered interaction with cytochrome c

Cytochrome c oxidase subunit II (COII), encoded by the mitochondrial genome, exhibits one of the most heterogeneous rates of amino acid replacement among placental mammals. Moreover, it has been demonstrated that cytochrome c oxidase has undergone a structural change in higher primates which has altered its physical interaction with cytochrome c. We collected a large data set of COII sequences from several orders of mammals with emphasis on primates, rodents, and artiodactyls. Using phylogenetic hypotheses based on data independent of the COII gene, we demonstrated that an increased number of amino acid replacements are concentrated among higher primates. Incorporating approximate divergence dates derived from the fossil record, we find that most of the change occurred independently along the New World monkey lineage and in a rapid burst before apes and Old World monkeys diverged. There is some evidence that Old World monkeys have undergone a faster rate of nonsynonymous substitution than have apes. Rates of substitution at four-fold degenerate sites in primates are relatively homogeneous, indicating that the rate heterogeneity is restricted to nondegenerate sites. Excluding the rate acceleration mentioned above, primates, rodents, and artiodactyls have remarkably similar nonsynonymous replacement rates. A different pattern is observed for transversions at four-fold degenerate sites, for which rodents exhibit a higher rate of replacement than do primates and artiodactyls. Finally, we hypothesize specific amino acid replacements which may account for much of the structural difference in cytochrome c oxidase between higher primates and other mammals.      

Polyol-pathway enzymes of human brain. Partial purification and properties of aldose reductase and hexonate dehydrogenase.

Aldose reductase and hexonate dehydrogenase were isolated from human brain and partially purified. The two enzymes exhibited distinctive substrate-specificity profiles with a variety of aldoses,and aliphatic and aromatic aldehydes. Aldose reductase exhibited a high affinity for DL-glyceraldehyde (Km of 62 microM) and a low affinity (Km of 90 mM) for glucose, the physiological substrate of the polyol pathway. Hexonate dehydrogenase exhibited a relatively low affinity for D-glucuronate (Km of 4.6 mM) and a very low affinity for glucose (Km of 390 mM). Both enzymes exhibited a high specificity for NADPH, and both were inhibited competitively by NADP+. Hexonate dehydrogenase was inhibited by iodoacetate, iodoacetamide, N-ethylmaleimide and p-chloromercuribenzoate. Preincubation with 2-mercaptoethanol resulted in activation. Both enzymes were inhibited by a number of barbiturates (barbital, phenobarbital and pentobarbital) and by the central-nervous-system drugs diphenylhydantoin and ethosuccinimide. The substrate specificity and pattern of inhibition suggest that the two enzymes isolated correspond to two of four previously reported aldehyde reductases isolated from human brain.     

Periodate-induced lymphocyte transformation : II. Character of response and comparison with phytohemagglutinin and pokeweed mitogen stimulation

Sodium metaperiodate is mitogenic for human peripheral lymphocytes. Evidence of stimulation can be detected as increased thymidine incorporation at 72 h after only 10 sec of exposure to the IO₄⁻. The degree of response varies with lymphocytes from different donors, but maximum stimulation for the healthy donors studied was obtained at concentrations of IO₄⁻ between 10⁻³ M and 4 × 10⁻³ M. Concentrations of 8 × 10⁻³ M and above are non-stimulatory and toxic. Exposures to optimum concentrations for 1 h or longer result in essentially no stimulation and inincreased cell death. However, a significant response to phytohemagglutinin (PHA) and pokeweed mitogen (PWM) remains. The kinetics of response over a 4 day culture period are similar for IO₄⁻, PHA and PWM. The morphology of the blast cells and the degree of response suggest that the IO₄⁻ responsive lymphocyte population may be more closely related to the PWM stimulated cells than the PHA responsive lymphocytes.     

Inhibition of human brain aldose reductase and hexonate dehydrogenase by alrestatin and sorbinil

Abstract: Human brain aldose reductase and hexonate dehydrogenase are inhibited by alrestatin (AY 22,284) and sorbinil (CP 45,634). Inhibition by alrestatin is noncompetitive for both enzymes, and slightly stronger for hexonate dehydrogenase ( K _I values 52-250 μ M ) than for aldose reductase ( K _I values 170-320 μ M ). Sorbinil inhibits hexonate dehydrogenase far more potently than aldose reductase, K _I values being 5 μ M for hexonate dehydrogenase and 150 μ M for aldose reductase. The inhibition of hexonate dehydrogenase by sorbinil is noncompetitive with respect to both aldehyde and NADPH substrates, and is thus kinetically similar to the inhibition by alrestatin. However, sorbinil inhibition of aldose reductase is uncompetitive with respect to glyceraldehyde and noncompetitive with NADPH as the varied substrate. Inhibition of human brain aldose reductase by these two inhibitors is much less potent than that reported for the enzyme from other sources.