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Retinol (Vitamin A) has been found to inhibit the stimulation of lymphocytes by certain mitogens. The ultrastructural morphology of phytohaemagglutinin-stimulated lymphocytes exposed to retinol 10 microgram/ml and 20 microgram/ml show that disaggregation of polyribosomes and formation of autophagic vacuoles ensue in the majority of the cells. Some of the lymphocyte clumps are unaffected and continue to show normal mitosis. The changes in the affected cell are similar to those seen in a cell undergoing hormonal involution and it is postulated that the effects of the retinol may be mediated by a retinol binding protein in the susceptible cells.
Virchows Arch B Cell Pathol Incl Mol Pathol 1979 Oct
PMID:The effect of retinol (vitamin A) on human lymphocytes stimulated by phytohaemagglutinin. An ultrastructural study. 4 8

Three independent mutations of Phycomyces blakesleeanus resulting in overaccumulation of beta-carotene are recessive and belong to the same complementation group. The corresponding gene has been named carS. Evidence is presented that gene carS is not the same as gene carA, previously defined by mutations blocking carotene production. Vitamin A increases carotenogenesis in wild types and in carS mutants to about the same extent. Intersexual heterokaryosis increases carotenogenesis most prominently in carS genetic backgrounds (up to 300 times the production of the wild type in the same conditions). Vitamin A, intersexual heterokaryosis and carS mutations are thought to stimulate carotenogenesis through different mechanisms. It is suggested that the carS gene product participates in end-product regulation of the pathway.
Mol Gen Genet 1976 Oct 18
PMID:Regulation of carotene synthesis in Phycomyces. 99 22

Vitamins contain reactive functional groups necessary to their established roles as coenzymes and reducing agents. Their reactive potential may produce injury if vitamin concentration, distribution, or metabolism is altered. However, identification of vitamin toxicity has been difficult. The only well-established human vitamin neurotoxic effects are those due to hypervitaminosis A (pseudotumor cerebri) and pyridoxine (sensory neuropathy). In each case, the neurological effects of vitamin deficiency and vitamin excess are similar. Closely related to the neurological symptoms of hypervitaminosis A are symptoms including headache, pseudotumor cerebri, and embryotoxic effects reported in patients given vitamin A analogs or retinoids. Most tissues contain retinoic acid (RA) and vitamin D receptors, members of a steroid receptor superfamily known to regulate development and gene expression. Vitamin D3 effects on central nervous system (CNS) gene expression are predictable, in addition to the indirect effects owing to its influence on calcium and phosphorus homeostasis. Folates and thiamine cause seizures and excitation when administered in high dosage directly into the brain or cerebrospinal fluid (CSF) of experimental animals but have rarely been reported to cause human neurotoxicity, although fatal reactions to i.v. thiamine are well known. Ascorbic acid influences CNS function after peripheral administration and influences brain cell differentiation and 2-deoxyglucose accumulation by cultured glial cells. Biotin influences gene expression in animals that are not vitamin-deficient and alters astrocyte glucose utilization. The multiple enzymes and binding proteins involved in regeneration of retinal vitamin A illustrate the complexity of vitamin processing in the body. Vitamin A toxicity is also a good general model of vitamin neurotoxicity, because it shows the importance of the ratio of vitamin and vitamin-binding proteins in producing vitamin toxicity and of CNS permeability barriers. Because vitamin A and analogs enter the CNS better than most vitamins, and because retinoids have many effects on enzyme activity and gene expression, Vitamin A neurotoxicity is more likely than that of most, perhaps all other vitamins. Megadose vitamin therapy may cause injury that is confused with disease symptoms. High vitamin intake is more hazardous to peripheral organs than to the nervous system, because CNS vitamin entry is restricted. Vitamin administration into the brain or CSF, recommended in certain disease states, is hazardous and best avoided. The lack of controlled trials prevents us from defining the lowest human neurotoxic dose of any vitamin. Large differences in individual susceptibility to vitamin neurotoxicity probably exist, and ordinary vitamin doses may harm occasional patients with genetic disorders.(ABSTRACT TRUNCATED AT 400 WORDS)
Mol Neurobiol 1992
PMID:Vitamin neurotoxicity. 146 88

Retinol-binding protein (RBP) is a major secretory product of the porcine conceptus. Using an oligonucleotide probe corresponding to a highly conserved region of all known mammalian RBP, we have isolated an apparently full-length cDNA clone for porcine conceptus RBP from a cDNA library constructed from pig conceptuses collected between days 13-17 of pregnancy. The cDNA was 937 base-pairs in length and coded for a protein whose inferred amino-terminal sequence was identical to that reported for both porcine conceptus RBP and porcine serum RBP. Its length was consistent with the size (approximately 1 kilobase) of the RBP message in porcine conceptuses. Porcine conceptus RBP and human serum RBP share 91% amino acid sequence identity. The inferred differences in sequence were evenly distributed throughout the length of the polypeptide. RBP mRNA was detectable within the trophoblast of day 11 porcine conceptuses by in situ hybridization with a 618-basepair 35S-labeled probe corresponding to the 3' end of porcine RBP. Silver grain density was distributed relatively uniformly over the trophoblast and the inner cell mass. Western blot analysis of conceptus culture medium demonstrated that the conceptuses of cattle (on day 19) and sheep (on day 15) as well as pigs secrete RBP during early pregnancy. Secretion of large quantities of RBP by the trophoblast of preimplantation pig conceptuses suggests important roles for vitamin A and RBP near the time of conceptus elongation.
Mol Endocrinol 1991 Oct
PMID:The retinol-binding protein of the expanding pig blastocyst: molecular cloning and expression in trophectoderm and embryonic disc. 172 46

The effects of vitamin A deprivation on the tracheal epithelium of young hamsters were investigated. Colchicine was administered 6 h prior to death to induce metaphase arrest, thus making it possible to quantify the mitotic rates of basal cells and secretory (mucous) cells in the epithelium. Blood samples were taken from all hamsters, and liver samples from some, in order to measure serum and tissue levels of vitamin A. Age-matched controls were compared with the following groups of hamsters maintained on a vitamin A deficient diet: pre weight plateau animals (those gaining weight), weight plateau-early weight loss animals (those maintaining approximately the same weight for 3 or 4 days, followed in some cases by a loss of weight for 3 or 4 days), and prolonged weight loss animals (those showing a loss of weight for 5 or more days). Four week old hamsters in a pre weight plateau had undetectable amounts of vitamin A in their livers and declining levels in their serum, whereas 4 1/2 week old hamsters still gaining weight had barely detectable levels of vitamin A in their serum. Nevertheless, the tracheal epithelium of these animals was not different from controls in appearance, proportions of different cell types, mitotic rates of secretory and basal cells, or in the number of cells per millimeter of basement membrane (cell density). Vitamin A was undetectable in the serum and livers of hamsters in the weight plateau-early weight loss stage. At this time the tracheal epithelium showed minimal morphological change, with small focal areas of epidermoid metaplasia in some animals. The tracheas of animals in early weight loss were smaller than tracheas in the control group, and there was a trend towards an increase in the number of epithelial cells per millimeter basement membrane. Cell types in the minimally changed epithelium appeared nearly normal, but there was an increase in the proportion of basal cells, and an absence (or near absence) of division in both basal and secretory cells. Tracheal rings from hamsters in the prolonged weight loss stage were lined by a cornifying metaplastic epidermoid epithelium. Our findings demonstrate that barely detectable levels of vitamin A in the serum are sufficient to maintain normal growth and differentiation of hamster tracheal epithelium (late pre weight plateau stage). When vitamin A serum levels fall below detectable limits the animals enter the weight plateau-early weight loss stage. This stage is accompanied by an inhibition of tracheal epithelial cell growth, although nearly normal cellular differentiation is maintained.(ABSTRACT TRUNCATED AT 400 WORDS)
Virchows Arch B Cell Pathol Incl Mol Pathol 1985
PMID:Vitamin A deprivation in hamsters. Correlations between tracheal epithelial morphology and serum/tissue levels of vitamin A. 286 42

Vitamin A (retinoic acid, 10(-6) M) treatment of confluent mouse embryo cells for only 7 h resulted in optimal inhibition of Polyomavirus replication. Depending upon the input multiplicity of virus, one could wait until between 12 and 18 h postinfection to add vitamin A and still observe maximal inhibition of virus yields. Taken together, and assuming the same kinetics before and after virus infection, these results suggested that the inhibitory action of vitamin A occurred between 19 and 25 h into the Polyomavirus replication cycle. In this model system, such a time corresponded to the onset of T-antigen expression and virus-induced cellular DNA synthesis. Analysis of both viral and virus-induced cellular DNA synthesis by the method of Hirt (J. Mol. Biol., 26: 365-369, 1967) and by cesium chloride gradients suggested that vitamin A preferentially inhibited viral, more than virus-induced cellular, DNA synthesis in confluent cell monolayers. Vitamin A also concomitantly inhibited Polyomavirus T-antigen expression in such confluent cultures. In contrast, viral DNA synthesis and infectious virus yields were not significantly inhibited by vitamin A in subconfluent cell cultures. The antagonistic effect of vitamin A on Polyomavirus replication in confluent monolayers could be blocked with cycloheximide, a reversible protein synthesis inhibitor. This suggested that vitamin A inhibition of Polyomavirus replication was indirect and mediated by a newly synthesized protein. Taken together, these results suggest that vitamin A induced a protein in confluent, but not subconfluent, cells, which blocked the expression of Polyomavirus T-antigen. Decreased amounts of T-antigen most likely reduced Polyomavirus and cellular DNA synthesis and virus yield.
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PMID:Control of Polyomavirus T-antigen and DNA synthesis in mouse embryo fibroblast cells by vitamin A. 298 44

The effects of retinol and retinoic acid on unscheduled DNA synthesis (UDS) in primary Sprague-Dawley rat hepatocytes were studied in the presence and absence of known chemical and physical mutagens. Neither retinol nor retinoic acid caused a significant increase in UDS over solvent control at concentrations ranging from 1 microM to 50 microM. Retinol and retinoic acid did not significantly affect 200 micrograms/mL ethyl methanesulfonate(EMS)- or 32 J/m2 ultraviolet light(UV)-induced UDS at concentrations ranging from 1 microM to 50 microM. In contrast, retinol and retinoic acid significantly inhibited 2.5 micrograms/mL and 5.0 micrograms/mL 7,12-dimethyl-benz[a]anthracene(DMBA)-induced UDS at concentrations of 1 microM or greater. Retinol- and retinoic acid-induced hepatocytotoxicity was studied in vitro using lactate dehydrogenase (LDH) release as an indicator of cytoxicity. Neither retinol nor retinoic acid caused significant increases in LDH release over solvent control 3 hours after treatment, whereas retinol caused a biologically significant increase in LDH release 24 hours posttreatment at concentrations of 50 microM and 100 microM. These data suggest that nontoxic concentrations of retinol and retinoic acid do not inhibit the DNA excision repair process but apparently affect the effective DNA adduct load due to the ultimate species of DMBA metabolite responsible for hepatocellular DNA damage.
Environ Mol Mutagen 1987
PMID:Modulation of ultraviolet light-, ethyl methanesulfonate-, and 7,12-dimethylbenz[a]anthracene-induced unscheduled DNA synthesis by retinol and retinoic acid in the primary rat hepatocyte. 312 8

The effects of vitamin A-deprivation on the tracheal epithelium were studied in 35-day old hamsters that had been raised since birth on a vitamin A-deficient diet. Colchicine and 3HTdR were given 6 hours before death and the proliferative activities of basal cells and mucous cells were quantified separately by 3HTdR labeling indices and mitotic rates. Vitamin A-deprivation decreased replication of basal cells and mucous cells in tracheal epithelium which showed minimal morphologic change. The mitotic rates and labeling indices were reduced 3 to 4-fold in basal cells and 14-fold in mucous cells (analyzed as percent of total number of each cell type) compared with controls. Thus, replication of mucous cells was more inhibited by lack of vitamin A, than replication of basal cells. The disparate hypoplasia of basal cells and mucous cells in epithelium showing minimal change, resulted in a relative increase in the proportion of basal cells and a relative decrease in the proportion of mucous cells, which could be erroneously interpreted as "basal cell hyperplasia". Proportions of preciliated and ciliated cells were also decreased compared to controls. At foci of stratification and epidermoid metaplasia, cell replication rates were increased over controls and more than 70% of all mitotic activity was associated with "non-basal" cells. Genesis of these lesions was coincident with cell death and cell loss. The histogenesis of stratification and epidermoid metaplasia was characterized. Morphological evidence indicated that these lesions were closely related histogenetically and were composed, for the most part, of altered mucous cells which expressed dual phenotypes i.e. keratinization and mucus synthesis.
Virchows Arch B Cell Pathol Incl Mol Pathol 1984
PMID:Effects of vitamin A-deprivation on hamster tracheal epithelium. A quantitative morphologic study. 614 47

In order to learn more about the respective roles played by basal cells and mucous cells in the maintenance of tracheal mucociliary epithelium, cell kinetics and epithelial cell morphology were characterized over a 7-day period, during which dietary vitamin A was restored to previously deprived hamsters. Hamsters were reared from birth to 35 days of age on vitamin A-replete or deficient diets. Deprived hamsters were made replete by 5 mg vitamin A-acetate orally, plus a vitamin A-replete diet. Colchicine and 3HTdR were given 6 h before death. The numbers of basal cells, mucous cells, preciliated cells and ciliated cells, and mitotic rates (MR) and labeling indices (LI) of basal cells and mucous cells, were quantified in glycol methacrylate sections stained with PAS-lead hematoxylin. Vitamin A-deprivation decreased replication of basal cells and mucous cells in tracheal epithelium which showed minimal morphological change. The proportion of basal cells was increased and proportions of mucous, preciliated and ciliated cells were decreased. Following restoration of vitamin A to the diet, the basal cell MR remained below control level throughout the experimental period, but the mucous cell MR started to rise on day 2-replete, and on day 3-replete and thereafter the mucous cell MR was within the control range. Basal cell and mucous cell LI's showed similar trends. Preciliated cells were reduced or absent in vitamin A-deprived epithelium. Their number had risen by day 3-replete and thereafter they were generated within the control range. These cells matured into ciliated cells. By day 4-replete, the proportion of basal cells had decreased markedly and the proportions of mucous cells, and preciliated plus ciliated cells had increased, so that at this time cellular proportions were within or near control values. This trend continued so that by day 7-replete, a nearly normal mucociliary epithelium was restored. The results show that vitamin A-levels modulate replication rates of basal cells and mucous cells and indicate that mitotic division of mucous cells is a prerequisite for the genesis of preciliated cells and new mucous cells and for restoration of the mucociliary epithelium following deprivation of vitamin A in the diet.
Virchows Arch B Cell Pathol Incl Mol Pathol 1984
PMID:Restoration of mucociliary tracheal epithelium following deprivation of vitamin A. A quantitative morphologic study. 614 48

It was found that retinol at concentrations of 0.2-1.0 mg . ml-1 caused significant 51Cr release from schistosomula, while adult worms appeared unaffected. Retinol was shown, by spectrofluorimetry and fluorescence microscopy, to be absorbed into the membrane systems of both schistosomulum and adult worm, particularly when the parasites were incubated in retinol dissolved in non-ionic detergents (Tweens 20, 40 and 80). The retinol within the adult membrane could be induced to cause detectable 51Cr and 125I wheat germ agglutinin release if the adult was treated with retinol in combination with Tween 20. The effect of the combination of Tween 20 and retinol, was synergistic for the release of both isotopes. Their synergism was also observed when haemolysis of human erythrocytes was measured. Thus it is possible to greatly enhance the effect on the schistosome and the erythrocyte membrane of one membrane-active compound by presenting it in combination with another. This may have implications in chemotherapy when membrane active drugs are employed.
Mol Biochem Parasitol 1982 Mar
PMID:The effects of retinol (vitamin A alcohol) and various non-ionic detergents on he surfaces of schistosomula and adult Schistosoma mansoni. 708 34

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