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Query: UNIPROT:P06889 (Mol)
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The metabolism of retinoic acid, retinol, and retinal has been investigated with eight purified rabbit cytochrome P-450 (P-450) isozymes, including the major forms in nasal and liver microsomes. Retinoids hydroxylated at the 4-position were found to be major metabolites with each of the isozymes examined. Only two of the isozymes, polycyclic aromatic hydrocarbon-inducible P-450 1A2 and antibiotic-inducible P-450 3A6, also catalyze the oxidation of retinal to retinoic acid, a reaction not previously attributed to P-450. P-450 1A2 showed high activities in both the 4-hydroxylation and aldehyde oxidation reactions. Phenobarbital-inducible P-450 2B4 also had high activity in the 4-hydroxylation reaction of retinoids, and cytochrome b5 was found to increase the activity of P-450 2B4 with each substrate but to increase the activity of P-450 1A2 only with retinoic acid. In microsomes, retinoic acid is converted in an NADPH-dependent manner to both 4-hydroxyretinoic acid and 4-oxoretinoic acid, but none of the isozymes investigated was found to convert the 4-hydroxy derivative to the 4-oxo derivative. Microsomes from animals treated with phenobarbital were more active than those from untreated animals in the 4-hydroxylation reaction and, consequently, showed an increase in the ratio of 4-hydroxy to 4-oxo derivatives produced. These results show that the individual forms of P-450 metabolize retinoic acid, retinol, and retinal to multiple products, and they indicate that the amounts formed may be dependent on the exposure of animals to various inducers of P-450.
Mol Pharmacol 1992 Feb
PMID:Role of isozymes of rabbit microsomal cytochrome P-450 in the metabolism of retinoic acid, retinol, and retinal. 153 19

Isolated alveolar type II epithelial cells (granular pneumocytes) from rat lung accumulate free choline against a concentration gradient by an energy-dependent saturable transport process with apparent Km approximately 18 microM. In order to evaluate the structural requirements for choline transport by these cells, the inhibition of the initial rate of cellular uptake of [3H]choline (5 microM) by its analogue was measured. There was no significant inhibition of substrate uptake by analogues lacking an amino group while the presence of a quaternary nitrogen was most effective. N,N'-dimethylethanolamine (apparent Ki, 7 microM) and n-decylcholine (apparent Ki, 0.5 microM) were potent competitive inhibitors of choline transport. Substitution of the hydroxyl group in choline greatly diminished the inhibitory effect; fluorocholine, thiocholine, betaine, and betaine aldehyde showed little or no inhibition. This requirement for a hydroxyl group raises the possibility of hydrogen bonding of choline with the transport protein. The choline transport system in granular pneumocytes appears to differ from that in synaptosomes by the lower affinity of the carrier for substrate and for hemicholinium-3 and from that in erythrocytes by the role of the hydroxyl in the substrate molecule. The availability of inhibitory analogues for choline transport will facilitate isolation and study of the granular pneumocyte choline transport protein.
Am J Respir Cell Mol Biol 1992 Apr
PMID:Inhibitors of choline transport in alveolar type II epithelial cells. 155 Jun 88

Primary cultured sensory neurons prepared from adult mice were maintained for 8 days in vitro. Such cultures were exposed to either a range of ethanol concentrations (50-300 mM) or acetaldehyde (0.5-2 mM) in serum-free medium for up to 24 h. Treated neuronal cultures, together with untreated controls in both the presence and absence of serum, were prepared for transmission electron microscopy. Nuclear morphology was not changed following treatment with either substance at the doses studied. A number of changes were observed, however, in the cytoplasm of neurons, and these were intensified by an increase in concentration and the length of exposure. Acetaldehyde induced effects at a much lower concentration than was required to induce a response with ethanol. Myelin lamellae loosely wound around dense granular core material appeared in multivesicular bodies at low doses. The prevalence of these increased with concentrations of 100 mM ethanol and 1 mM acetaldehyde; the numbers of lamellae in each myelin figure also increased but the core material was less prominent. Electron-dense bodies were also evident at higher dosages together with evidence of vacuolation of the endoplasmic reticulum and Golgi complexes. Mitochondrial profiles similar to those in untreated neurons persisted throughout the exposure periods. The generation of these inclusions may reflect a mechanism of membrane turnover, both of internal systems and cell membrane cycling, as a response to alcohol and aldehyde treatment.
Virchows Arch B Cell Pathol Incl Mol Pathol 1991
PMID:Cytoplasmic changes in primary cultured adult mouse sensory neurons induced by ethanol and acetaldehyde treatments. 168 82

Reduction of turgor in pea shoots caused the accumulation of several poly(A) RNAs. cDNA clones derived from three different poly(A) RNAs which accumulate in wilted pea shoots were isolated, sequenced and expression of the corresponding genes examined. Clone 7a encoded a 289 amino acid protein. The C-terminal 180 amino acids of this protein were homologous to soybean nodulin-26. RNA hybridizing to cDNA 7a was abundant in roots, and induced in shoots by dehydration, heat shock and to a small extent by ABA. Hydropathic plots indicate that the protein encoded by cDNA 7a contains six potential membrane spanning domains similar to proteins which form ion channels. Clone 15a encoded a 363 amino acid protein with high homology to cysteine proteases. RNA hybridizing to cDNA 15a was more abundant in roots than shoots of control plants. Dehydration of pea shoots induced cDNA 15a mRNA levels whereas heat shock or ABA treatment did not. Clone 26g encoded a 508 amino acid protein with 30% residue identity to several aldehyde dehydrogenases. RNA hybridizing to cDNA 26g was induced by dehydration of shoots but not roots and heat shock and ABA did not modulate RNA levels. Levels of the three poly(A) RNAs increased 4-6-fold by 4 h after wilting and this increase was not altered by pretreatment of shoots with cycloheximide. When wilted shoots were rehydrated, RNA hybridizing to cDNA 26g declined to pre-stress levels within 2 h. Run-on transcription experiments using nuclei from pea shoots showed that transcription of the genes which encode the three poly(A) RNAs was induced within 30 min following reduction of shoot turgor. One of the genes showed a further increase in transcription by 4 h after dehydration whereas transcription of the other 2 genes declined. These results indicate that plant cells respond to changes in cell turgor by rapidly increasing transcription of several genes. Furthermore, the expression of the turgor-responsive genes varies with respect to the time course of induction and reversibility of the wilting-induced changes.
Plant Mol Biol 1990 Jul
PMID:Turgor-responsive gene transcription and RNA levels increase rapidly when pea shoots are wilted. Sequence and expression of three inducible genes. 171 81

The meta operon of the Pseudomonas putida TOL plasmid (pWWO) encodes all enzymes of a meta-cleavage pathway for the metabolism of benzoic acids to Krebs-cycle intermediates. We have determined and analysed the nucleic acid sequence of a 3442 bp region of the meta operon containing the xyl-GFJ genes whose products are involved in the post meta-ring fission transformation of catechols. Homology analysis of the xylGFJ gene products revealed evidence of biochemical relatedness, suggested enzymatic mechanisms, and permitted us to propose evolutionary events which may have generated the current variety of aromatic degradative pathways. The xylG gene, which specifies 2-hydroxymuconic semialdehyde dehydrogenase (HMSD), was found to encode a protein of 51.7 kDa. The predicted protein sequence exhibits significant homology to eukaryotic aldehyde dehydrogenases (ADHs) and to the products of two other Pseudomonas catabolic genes, i.e. xylC and alkH. Expansion of the ADH superfamily to include these prokaryotic enzymes permitted a broader analysis of functionally critical ADH residues and phylogenetic relationships among superfamily members. The importance of three regions of these enzymes previously thought to be critical to ADH activity was reinforced by this analysis. However glutamine-487, also thought to be critical, is less well conserved. The revised ADH phylogeny proposed here suggests early catabolic ADH divergence with subsequent interkingdom gene exchange. The xylF gene, which specifies 2-hydroxymuconic semialdehyde hydrolase (HMSH), was delineated by N-terminal sequence analysis of the purified gene product and is shown to encode a protein of 30.6 kDa. Homology analysis revealed sequence similarity to a chromosomally encoded serine hydrolase, especially in the region of the previously identified active-site serine residue, suggesting that HMSH may also possess a serine hydrolytic enzymatic mechanism. Likewise, the xylJ gene, which specifies 2-hydroxy-pent-2,4-dienoate hydratase (HPH), was delineated by N-terminal sequence analysis of purified HPH, and was found to encode a 23.9 kDa protein. Sequence comparisons revealed that both HMSH and HPH have analogues in the tod gene cluster, which specifies a toluene/benzene degradative pathway. Although the newly identified todF and todJ genes had been at least partially sequenced (Zylstra and Gibson, 1989), the open reading frames had not been positively identified. The presence of todJ provides strong evidence that the reactions following ring fission in the tod pathway are identical to those of the TOL pathway.(ABSTRACT TRUNCATED AT 400 WORDS)
Mol Microbiol 1991 Oct
PMID:DNA sequence determination of the TOL plasmid (pWWO) xylGFJ genes of Pseudomonas putida: implications for the evolution of aromatic catabolism. 179 59

Hyperthyroid treatment produces rapid cardiac cell hypertrophy with all subcellular components increasing in an orderly manner. We compare normal and hyperthyroid tissue in order to relate changes in distribution of myosin mRNA during rapid assembly of myofibrils. At the light microscopic level, in situ hybridization of the ventricular cells shows myosin heavy chain mRNA to be distributed in a spoke-like pattern radiating from the nucleus. Electron microscopy provides the higher resolution necessary to determine mRNA distribution with respect to adjacent sarcomeric and cytoskeletal structures. Papillary muscles were removed from hyperthyroid and normal rabbits, aldehyde fixed, and embedded in LR white. Biotinated riboprobe transcribed from 0.5 kb in the coding region of terminal portion of the rod of alpha-myosin was hybridized and detected by immunocytochemical methods using 5 nm immunoglobulin G gold conjugates. Electron microscopy in situ hybridization runs with same-sense and anti-sense riboprobes were processed and ten micrographs randomly taken from each. Specific cytoplasmic densities of myosin mRNA were calculated by counting clusters of five or more gold particles over respective tissue components after subtraction of background counts. For both normal myocytes and hyperthyroid myocytes, the density of myosin mRNA was about 15 times higher in the cytoskeletal-rich inter-myofibrillar space than in the myofibrils. About half of the myosin mRNA in this inter-myofibrillar region is found within 10 nm of the peripheral filament, but no excess sarcomeric accumulation was seen beside the A-Band. It appears that most of the myosin is translated from mRNA within the inter-myofibrillar space along the entire length of the myofibril periphery. The emerging myosin heavy chain is not directly anchored to the thick filaments in either normal or rapidly growing cardiac cells.
J Mol Cell Cardiol 1991 Mar
PMID:Distribution of myosin heavy chain mRNA in normal and hyperthyroid heart. 188 Aug 13

Primary cultures of adult mouse sensory neurons maintained for 8 days in vitro (8 div), in both the presence of non-neuronal cell (NNC) outgrowth and in NNC-reduced cultures, were exposed to doses of ethanol, propanol, acetaldehyde and acrolein. The effects on cell viability were monitored: LD50's of 600 microM acrolein and 100 mM propanol were obtained after 24 h exposures and after 48 h with 1 mM acetaldehyde and 500 mM ethanol. Morphological effects were evident by scanning electron microscopy with sub-acute doses for each agent, using both lower concentrations and shorter exposures. Membrane pitting of the perikaryon and a reduction in the proportion of neurons bearing neurites were common signs of toxic insult. The neurites of treated cells were thicker and more irregular than those of untreated cells; this proved a good indicator of specific neurotoxicity rather than merely a cytotoxic response. Fetal calf serum in the medium lessened the response of neurons to ethanol treatments. Comparison with other in vitro studies suggests these primary cultures are a more sensitive system than established cell lines of neuronal origin for use in neurotoxicity testing.
Virchows Arch B Cell Pathol Incl Mol Pathol 1990
PMID:The response of primary cultured adult mouse sensory neurons to ethanol, propanol, acetaldehyde and acrolein treatments. 197 Nov 29

Expression of Photobacterium leiognathi bioluminescence genes under the control of lac, tac, tet promoters in Escherichia coli cells has been studied. The position of the genes for aliphatic aldehyde biosynthesis and for the synthesis of luciferase subunits was identified. The plasmid pBRPL1 has been constructed containing the system of bioluminescence genes devoid of promoter following the polylinker DNA fragment. The plasmid can be used for selection of promoter containing DNA sequences as well as for studying the promoters regulation in process of Escherichia coli cells growth.
Mol Gen Mikrobiol Virusol 1990 Feb
PMID:[Expression of Photobacterium leiognathi bioluminescence system genes in Escherichia coli]. 218 20

Acetaldehyde (Aa) induces chromosomal aberration and sister chromatid exchange in a variety of test systems, but has not previously been evaluated for its ability to induce gene mutation in mammalian cells. We have studied the mutagenic effect of Aa at the hypoxanthine-guanine phosphoribosyl transferase (hprt) locus in human lymphocytes in vitro by using the T-cell cloning technique and selection of mutant cell clones in medium containing thioguanine. Cells treated with 1.2-2.4 mM Aa for 24 hr or 0.2-0.6 mM Aa for 48 hr showed a dose-dependent decrease of cell survival and a 3- to 16-fold increase of the mutant frequency. The inverse relationship between cell survival and mutant frequency was linear down to a relative survival of 15%, and showed a similar slope in the 24-hr and 48-hr treatment experiments. Forty-one mutant T-cell clones derived from cultures treated with 1.2 or 2.4 mM Aa and 15 from untreated controls were expanded for DNA extraction and Southern blot analysis to study deletion mutation using a full length hprt cDNA probe, and clonal identity on the basis of T-cell receptor rearrangements. In the culture with a 16-fold increase of mutant frequency, 4 out of 10 independent mutants (40%) showed partial deletions extending beyond the 3' coding sequences of the hprt gene. Two of 22 independent mutants derived from the other treated cultures with at most a 6-fold increase of mutant frequency, and 1 of 11 independent control clones showed rearrangement of the hprt gene, none of which affected the 3'-end of the hprt gene. These results show that Aa is capable of inducing gene mutation at the hprt locus in human cells, and suggest that deletion mutation affecting the 3'-end of the gene may be a major type of Aa-induced mutation of this locus.
Environ Mol Mutagen 1990
PMID:Acetaldehyde-induced mutation at the hprt locus in human lymphocytes in vitro. 220 64

This study measured the possible cross-reactivity of hapten-specific IgG antibodies purified from the sera of rabbits sensitized to an albumin-acetaldehyde conjugate [N-ethyl-rabbit serum albumin (N-ethyl-RSA)] with acetaldehyde-phosphatidylethanolamine adducts. The N-ethyl-RSA was coupled to an Affigel-10 column to affinity purify the IgG (anti-N-ethyl-RSA IgG). Dioleoyl-phosphatidylethanolamine (DOPE) was reacted with acetaldehyde to form a Schiff base, which was reduced to N-ethyl-DOPE, purified by high pressure liquid chromatography, and analyzed with direct chemical ionization mass spectrometry. Lamellar liposomes containing either 5% by weight N-ethyl-DOPE and 95% egg phosphatidylcholine or a mixture of 5% N-ethyl-DOPE, 71% DOPE, and 24% dioleoylphosphatidylcholine, as well as hexagonal phase micelles containing 5% N-ethyl-DOPE and 95% DOPE, were prepared by sonication. Anti-N-ethyl-RSA IgG was then incubated with each of these lipid mixtures for 30 min, a fluorescein-conjugated goat anti-rabbit IgG was added for an additional 30 min, and then binding of anti-N-ethyl-RSA IgG to N-ethyl-DOPE in the liposomes or micelles was measured by flow cytometry. Anti-N-ethyl-RSA IgG bound to N-ethyl-DOPE in both vesicles and hexagonal phase micelles, but the affinity was 16 times greater for the hapten in the hexagonal phase. This result demonstrates that physical presentation of the hapten can affect antibody recognition and that antibodies raised against N-ethyl-RSA can cross-react with acetaldehyde-phospholipid adducts.
Mol Pharmacol 1990 Nov
PMID:Cross-reactivity of antibodies raised against acetaldehyde adducts of protein with acetaldehyde adducts of phosphatidyl-ethanolamine: possible role in alcoholic cirrhosis. 223 95


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