Uninduced Conditions Research Articles

Effect of administration of aroclor 1254 on the activities of hepatic drug metabolizing enzymes in zinc deficiency

In order to understand the mechanisms of carcinogenesis in zinc deficiency, a study was conducted in experimental animals to investigate the effect of administration of an inducer. After the production of zinc deficiency in NIN/Wistar strain of rats by feeding an egg albumin-starch based diet almost devoid of zinc, the animals were administered a potent inducer of mixed-function oxidases: Aroclor 1254 and various Phase I and Phase II enzymes of drug metabolism like benzo[a]pyrene hydroxylase, microsomal epoxide hydrolase, cytosolic epoxide hydrolase, and cytosolic glutathione-S-transferase studied in liver tissues. Control and pair-fed groups were also run alongside. The results showed that while the activities of various enzymes studied were low in the uninduced basal condition, these activities increased many-fold after induction. This induction was observed not only in the control group, but in the pair-fed and deficient groups as well. These results suggest that the ability to respond to a carcinogenic insult, though initially present in zinc deficiency, may not be adequate to counteract an excess or chronic exposure to carcinogen in the long run.

Stable multicopy vectors for high-level secretion of recombinant human serum albumin by Kluyveromyces yeasts.

We have designed stable pKD1 derivatives for efficient secretion of recombinant human serum albumin (rHSA) by industrial strains of Kluyveromyces yeasts. A comparison of this multi-copy expression system with isogenic cassettes integrated at chromosomal loci demonstrated that high level secretion of rHSA is a function of gene dosage in K. lactis. Various signal sequences could be used, and the secretion levels were independent of the presence of the native pro peptide. The mitotic stability of the pKD1-based expression vectors was found to be species and strain dependent and was influenced by promoter strength and culture conditions. Vector stability was drastically enhanced when the HSA gene was expressed from an inducible promoter: 90% of the transformed cells still harbored the vector after 100 generations of non-selective growth in uninduced culture conditions. Secretion levels in the range of several grams per liter of correctly folded and processed rHSA were obtained at the pilot scale, thus making the industrial production of pharmaceutical-grade, Kluyveromyces-derived rHSA economically feasible.

Functional analysis of the Pseudomonas putida regulatory protein CatR: transcriptional studies and determination of the CatR DNA-binding site by hydroxyl-radical footprinting.

CatR, a LysR family protein, positively regulates the Pseudomonas putida catBC operon, which is required for growth on benzoate as a sole carbon source. Transcriptional studies show that the catR and catBC promoters are divergent and overlapping by 2 bp. A beta-galactosidase promoter probe vector was constructed to analyze expression from the catR and catBC promoters under induced and uninduced conditions. As predicted, the catBC promoter is expressed only under induced conditions, while the catR promoter is constitutive. CatR has been shown to specifically bind the catRBC promoter region, and this property was used to devise a purification protocol for CatR. Linear M13 DNA containing the catRBC control region was covalently bound to cyanogen bromide-activated Sepharose in order to construct a DNA affinity column. Crude extracts containing hyperproduced CatR protein were then incubated with the affinity resin under binding conditions, and the CatR protein was eluted with 1 M NaCl. CatR was also purified by heparin-agarose chromatography. This highly purified protein was used for gel retardation and hydroxyl-radical footprinting studies. From this analysis, it was shown that CatR binds upstream of the catBC promoter within the transcribed region of catR.

Characterization of Chinese hamster ovary cells stably transformed by a plasmid with an inducible APRT gene

A plasmid was constructed by fusion of a selectable mammalian gene, hamster adenine phosphoribosyltransferase ( APRT), to the Zn 2+-inducible sheep metallothionein I (MT I) promoter. This plasmid was used to produce stable Chinese hamster ovary (CHO) cell transformants by electroporation to study the effects of induced gene expression on DNA-mediated transformation. The sheep MT Ia promoter was chosen for these experiments because it regulates gene expression differently than murine MT promoters, exhibiting low basal levels of gene expression in uninduced conditions. We have shown that in the absence of Zn 2+, there is very low expression of a sheep MT I- APRT fusion gene in stable CHO cells transformants; induction of APRT mRNA and enzyme activity by Zn 2+ produced a “threshold” response, from low basal levels to high induced levels, in Zn 2+ responsive stable transformant clones. In electroporation experiments, transformation frequencies were unaffected by Zn 2+ treatments during a preselection period, but the presence of Zn 2+ during selection increased the recovery of stable transformant clones 8- to 10-fold. All stable transformants analyzed displayed Zn 2+-inducible APRT enzyme activity. Our results indicate that stable mammalian cell transformants with inducible genes under regulation of the sheep MT I promoter should be useful, because of low basal and high induced expression, for studies in which modulation of transcriptional activity is required.

Autogenous regulation of the Saccharomyces cerevisiae regulatory gene GAL80.

We have suggested previously from Northern blot analysis that transcription of the negative regulatory gene GAL80 was controlled positively by another regulatory gene GAL4, and negatively by GAL80 itself, in similar way to GAL1, GAL7 and GAL10 genes encoding galactose-metabolizing enzymes in Saccharomyces cerevisiae. To study further the controlled expression of GAL80, we have exploited the gene fusion technique. We constructed gene fusions consisting of 5' fragments of GAL80 and a 5' truncated lacZ of Escherichia coli, and introduced the GAL80'-'lacZ fusions into wild-type yeast or various GAL4 or GAL80 mutants using multiple-copy or single-copy plasmid vectors. We then studied beta-galactosidase activity in the resultant transformants under uninduced, induced or glucose-repressed conditions. Expression of the GAL80'-'lacZ fusions was clearly under the control of Gal4/Gal80. Next we constructed GAL7'-'lacZ fusions, whose upstream activating sequence (UAS) from GAL7 was replaced with a GAL80 fragment containing a UAS-like sequence located in the 5' flanking region of GAL80. Synthesis of beta-galactosidase directed by the hybrid genes was inducible by galactose exactly like the original GAL7'-'lacZ fusion with a UAS from GAL7. Finally we constructed a GAL7-GAL80 hybrid gene, in which the entire 5' flanking region was derived from GAL7. When the chromosomal GAL80 gene in wild-type yeast was replaced with the hybrid gene, the uninduced level, but not the induced level, of the GAL10-encoded enzyme (uridine diphosphoglucose-4-epimerase) was significantly increased.

Purification and characterization of two isofunctional forms of NAD(P)H: quinone reductase from mouse liver.

NAD(P)H:(quinone-acceptor) oxidoreductase (EC 1.6.99.2) is a widely distributed enzyme which promotes two-electron reductions of quinones and thereby protects cells against damage by reactive oxygen species generated during oxidative cycling of quinones and semiquinone radicals. Quinone reductase activity represents a minor component (about 0.006%) of mouse liver cytosolic proteins under basal (uninduced) conditions. Two isofunctional forms of this quinone reductase have been purified to homogeneity (1700-fold) in 30% yield from the liver cytosols of female CD-1 mice in which the enzymes were induced by administration of 2(3)-tert-butyl-4-hydroxyanisole. The purification involved ion exchange, hydrophobic, and affinity chromatographies. The two enzyme forms have been designated "hydrophilic" and "hydrophobic" based on the order of elution from phenyl-Sepharose. The more abundant hydrophilic form has been crystallized in the presence of FAD in the form of macroscopic tetragonal crystals. The two forms have similar isoelectric points (pI 9.2) and subunit molecular weights (Mr = 30,000) and probably exist as dimers in the native state. Purified preparations of the enzymes are equiactive with NADH and NADPH and show almost complete dependence on added FAD for catalytic activity. The Km values for FAD of the hydrophilic and hydrophobic forms are 2.72 and 1.72 nM, respectively. Their catalytic activities are the same and are remarkably high for nicotinamide nucleotide-linked dehydrogenases; maximum velocities (expressed per mg of pure enzyme) approach 4000 units/mg of protein under appropriate assay conditions. When menadione is the electron acceptor, the Km value for this quinone is very low (Km congruent to 2 microM). Both enzyme forms are potently inhibited by dicoumarol. Rabbit antisera against the hydrophilic quinone reductase precipitate quantitatively the entire quinone reductase activity of mouse liver cytosols obtained from animals maintained on a standard diet or those induced with 3-tert-butyl-4-hydroxyanisole. The quinone reductase activity of rat liver cytosols is also quantitatively precipitated by this antiserum.

Cytochemistry of Acute Promyelocytic Leukemia (M3): Leukemic Promyelocytes Exhibit Heterogeneous Patterns in Cellular Differentiation

Cytochemical investigation of leukemic promyelocytes from 25 cases of acute promyelocytic leukemia (M3) disclosed two major cellular differentiation categories: (1) the pure neutrophilic (N) type (16 cases) with strong myeloperoxidase (MPO) and naphthol-ASD chloroacetate esterase (Es-chl), but lacking the monocytic enzyme NaF-sensitive alpha-naphthyl butyrate esterase (Es-b), and (2) the mixed neutrophilic/monocytoid (N/M) type (seven cases) with strong Es-b as well as strong MPO, all cases exhibiting Es-dual (Es-b + Es-chl) positive cells. Two more cases with unusual phenotypes were noted: one with intense lysozyme activity but without Es-b and the other with toluidine blue-methachromasia and negative MPO. Promyelocytes from the control group, consisting of nine cases of t(8;21) M2 AML and ten cases with normal bone marrow, lacked such cytochemical heterogeneity. HL-60, an M3 cell line that can be induced to differentiate toward monocytic lineage in vitro, was almost negative for Es-b in the uninduced condition. Cytogenetically, eight cases of N type and five of N/M type had the t(15;17) abnormality. Thus at least two differentiation patterns were observed in M3 leukemia with fidelity (N type) and infidelity (N/M type) for normal granulocytic differentiation. In this series, there was no statistically significant difference in clinical features (remission rate and survival) between the two types. Our study suggests that the development of M3 leukemia is not exclusively restricted to the neutrophilic pathway, but more heterogeneously related to myelomonocytic differentiation.

Cytochemistry of acute promyelocytic leukemia (M3): leukemic promyelocytes exhibit heterogeneous patterns in cellular differentiation

Cytochemical investigation of leukemic promyelocytes from 25 cases of acute promyelocytic leukemia (M3) disclosed two major cellular differentiation categories: (1) the pure neutrophilic (N) type (16 cases) with strong myeloperoxidase (MPO) and naphthol-ASD chloroacetate esterase (Es-chl), but lacking the monocytic enzyme NaF-sensitive alpha- naphthyl butyrate esterase (Es-b), and (2) the mixed neutrophilic/monocytoid (N/M) type (seven cases) with strong Es-b as well as strong MPO, all cases exhibiting Es-dual (Es-b + Es-chl) positive cells. Two more cases with unusual phenotypes were noted: one with intense lysozyme activity but without Es-b and the other with toluidine blue-methachromasia and negative MPO. Promyelocytes from the control group, consisting of nine cases of t(8;21) M2 AML and ten cases with normal bone marrow, lacked such cytochemical heterogeneity. HL-60, an M3 cell line that can be induced to differentiate toward monocytic lineage in vitro, was almost negative for Es-b in the uninduced condition. Cytogenetically, eight cases of N type and five of N/M type had the t(15;17) abnormality. Thus at least two differentiation patterns were observed in M3 leukemia with fidelity (N type) and infidelity (N/M type) for normal granulocytic differentiation. In this series, there was no statistically significant difference in clinical features (remission rate and survival) between the two types. Our study suggests that the development of M3 leukemia is not exclusively restricted to the neutrophilic pathway, but more heterogeneously related to myelomonocytic differentiation.

Genetic and biochemical characterization of the galactose gene cluster in Kluyveromyces lactis.

We isolated and identified mutant strains of Kluyveromyces lactis that are defective for the Leloir pathway enzymes galactokinase, transferase, and epimerase, and we termed these loci GAL1 , GAL7 , and GAL10 , respectively. Genetic data indicate that these three genes are tightly linked, having an apparent order of GAL7 - GAL10 - GAL1 . This same gene order has been observed in Saccharomyces cerevisiae. Strains harboring gal7 mutations have elevated levels of beta-galactosidase, coded by an unlinked gene, galactokinase, and epimerase activities under uninduced conditions. We investigated the genetic basis of this constitutive gene expression and found no recombinants between the constitutive and Gal- phenotypes among 76 tetrads, suggesting that either GAL7 or a tightly linked gene codes for a regulatory function. This is the second gene that has been shown to specifically coregulate expression of the genes coding for beta-galactosidase and the Leloir pathway enzymes.

Correlation of penicillinase production with phage type and susceptibility to antibiotics and heavy metals in Staphylococcus aureus.

One hundred and thirty-nine bacteraemia strains of Staphylococcus aureus, representing different combinations of phage type and susceptibility to antibiotics and to cadmium (Cd), arsenate (As) and mercury (Hg), were investigated for penicillinase production. The determination of enzyme activity in induced and uninduced conditions was performed by iodometric titration. The amount of penicillinase produced could be correlated with phage pattern. Epidemically occurring strains of the 94,96 and the 83A complexes produced the largest amount of penicillinase, whereas strains of the 52,52A,80,81 complex were weaker producers. Group-II and group-III strains produced the smallest amount. Susceptibility to antibiotics and to Cd, As and Hg could not be correlated with enzyme activity, but strains resistant to penicillin plus tetracyclines and strains resistant only to Cd did produce less enzyme than strains with other resistance patterns. The percentage mean values than strains with other resistance patterns. The percentage mean values of extracellularity of the enzyme was highest amongst strains of the 94,96 complex and of type 95. Four strains had constitutive production, one being macro-constitutive and three micro-constitutive. All four strains represented rare combinations of the above properties but were susceptible to fusidic acid. The importance of penicillinase production by epidemically occurring strains is discussed.