Relationship between adaptation of the folic acid and the cAMP mediated cGMP response in Dictyostelium

Chemotactic stimulation of post-vegetative Dictyostelium cells with folic acid or aggregative cells with cAMP results in a fast transient cGMP response which peaks at 10 s; basal levels are recovered in about 30–40 s. Stimulation with folic acid or cAMP rapidly desensitizes the cells for equal or lower concentrated stimuli. However, cells remain responsive for stimuli with higher concentration, which indicates that desensitization is caused by an adaptation process. Removal of the stimulus induces deadaptation, which for both cAMP and folic acid has first order kinetics with a half-life of 1.5 min.Cells were prepared which are simultaneously sensitive to folic acid and to cAMP. The cGMP responses to saturated folic acid and cAMP stimuli are not additive, which suggests that the transduction pathways of these signals meet each other at or before the guanylate cyclase. Cells which are adapted to folic acid are not adapted to cAMP and vice versa. This demonstrates that adaptation of Dictyostelium cells to chemotactic stimuli is localized at a step in the transduction chain before the transduced folic acid and cAMP signals combine in one pathway.     

Effect of vitamin B12 and folate on biosynthesis of methionine from homocysteine in the nematode Caenorhabditis briggsae.

(i) Omission of L-methionine from the medium resulted in an 80% population reduction. Substitution of D,L-homocysteine corrected methionine deficiency in C. briggsae in the presence of supraoptimal vitamin B12 and folic acid. (ii) An absolute vitamin B12 requirement in C. briggsae developed in the medium containing homocysteine at the second subculture. Concentration of 6 ng/ml of vitamin B12 (at 100 ng/ml of folic acid) was sufficient to support maximum growth of C. briggsae in the medium containing homocysteine. (iii) It was found that either supraoptimal folic acid (2000 ng/ml) or supraoptimal vitamin B12 (3750 ng/ml), with homocysteine, supported very little population growth of C. briggsae. However, supraoptimal folic acid and supraoptimal vitamin B12 together supported a maximum population growth. Therefore, it was concluded that both vitamin B12 and folic acid were required for the biosynthesis of methionine from homocysteine. Studies also showed that the two vitamins spared each other for population growth in the medium containing homocysteine.     

Changes in lysosomal enzyme activity in the mitotic cycle of L cells

Activities of lysosomal enzymes (acid phosphatase, N-acetyl-beta-D-glucosaminidase, acid lipase and cathepsin D) have been examined in a synchronized culture of mouse L-fibroblasts. Cell synchronization was achieved by the double thymidine block with a subsequent mitotic selection after colcemid treatment. Specific activities of the enzymes studied were found to be higher in S-G2 that in G1. There is a linear increase (approximate doubling) in enzyme activities per cell from G1 to M. Activity of galactosyltransferase, a marker of the Golgi apparatus, declined in mitotic cells in comparison with the interphase cells. Ultrastructural examination of L-cells revealed a reduction of the intracellular membrane system including the Golgi apparatus during mitosis. Changes in the Golgi apparatus activity have been considered as a possible regulatory point of lysosome formation. The data presented are compared with the results of morphological studies of lysosomal system in L-cells.     

An intervention study to increase knowledge and use of folic acid among relatives in neural tube defect-affected families in Washington, D.C

BACKGROUND: Little is known about the level of knowledge and use of folic acid among near relatives in U.S. families of a child with spina bifida. We hypothesized that relatives would be more knowledgeable than the general population and more likely to take folic acid. Further, we hypothesized that relatives would be more motivated by an intervention to increase their use of folic acid. METHODS: We conducted an intervention study among females in families attending a hospital spina bifida clinic in Washington, DC. RESULTS: The 231 subjects consisted of the affected individuals, mothers, sisters, and aunts. The average age was 34 years. At baseline, most (87.4%) reported that they had heard of folic acid; 37.6% were currently taking multivitamins with folic acid and 6.9% were taking folic acid tablets. The intervention significantly increased both knowledge (to 99%) and intake of folic acid from 41.9 to 48.5%. Folic acid intake increased significantly among African-American women and women with less education, women who were older, married, with children, and nonsmokers. CONCLUSIONS: This intervention was successful in increasing folic acid intake among female relatives in spina bifida-affected families. By the end of the study, almost all women had heard of folic acid and folic acid use had increased by 16%. Among these women at higher than expected risk for having an affected child, this rate of intake, while more than the general population, still falls short of optimum. Fortification of food with folic acid may be the only way to ensure increased folic acid intake.     

Awareness of folic acid for prevention of neural tube defects in a community with high prevalence of consanguineous marriages

Neural tube defects (NTDs) are severe congenital malformations and can be fatal. Intake of 0.4 mg folic in the periconceptional period reduces the risk of NTD by 50-70%. Consanguinity in the Arab population in Israel is a prevalent custom. The aim of this study was to assess the level of awareness regarding folic acid and its effect in the prevention of NTD among Arab Israeli women of childbearing age. We conducted a cross-sectional study. Of the 653 women (18-45 years) who were randomly selected for interview while visiting their family physician or well-baby clinic, 624 women completed the questionnaire. Fifty-three percent (n = 333) of the respondents had heard of folic acid; 14% (n = 89) were familiar with the protective effect of NTD and 3% (n = 18) had taken folic acid in the first months of pregnancy whereas none of them had used it in the preconception period. Highly educated women, women with one or two children, paramedics, and women of high socioeconomic status were more knowledgeable about the protective effects of folic acid (P < 0.001). Age and religion had no significant effect. An urgent need exists to improve the awareness of this population to the protective effect of folic acid. Daily supplementation and fertification of food with folic acid should be considered as the best way to improve the balance of folic acid in women of childbearing age of this special population (high prevalence of consanguinity).     

Activity of acid phosphatase and succinate and dehydroorotate dehydrogenases during the interaction of allogeneic lymphocytes and target cells in tissue culture]

A study was made of the activity of acid phosphatase in interaction of lymphocytes and target cells; it was shown that in the lymphocytes its greatest increase occurred in the 1- and sometimes in the 3-hour cultures; sometimes the activity of the enzyme in the L-cells increased by the 3rd-6th hour. The initial activity of acid phosphatase was greater in the immune lymphocytes; later, on their addition to the L-cell culture, there was no significant difference in the changes in the activity of the enzyme in the immune and normal lymphocytes. In the L-cells the activity of acid phosphatase was lower on addition of normal lymphocytes in comparison with the immune ones. The activity of dehydrogenases in the lymphocytes increased by the 3rd hour of the incubation period and was greater in the immune lymphocytes than in the normal ones. The activity of the succininc- and dehydroorotic dehydrogenases altered practically at the same periods in the L-cells as in the lymphocytes. The intensification of the activity of the redox enzymes and of the acid phosphatase during the first hours of contact pointed to the rapid activation of the effector lymphocytes.     

Folic acid and pterin deaminases in Dictyostelium discoideum: kinetic properties and regulation by folic acid, pterin, and adenosine 3'',5''-phosphate.

Kinetic data obtained for deamination of pterin by the extracellular fraction from Dictyostelium discoideum yielded apparently linear Lineweaver-Burk plots for pterin. The Michaelis constant for pterin was 30 microM. The data for folic acid deamination yielded convex Lineweaver-Burk plots. Convex Lineweaver-Burk plots could result from the presence of two types of enzymes with different affinities. The data for folic acid deamination were analyzed mathematically for two types of enzymes. This analysis produced Michaelis constants for folic acid of 1.8 and 23 microM competition studies suggested that an enzyme with low affinity nonspecifically catalyzed the deamination of folic acid and pterin, whereas an enzyme with high affinity was a specific folic acid deaminase. A specific folic acid deaminase with high affinity appeared to be present on the surface of D. discoideum cells. The Michaelis constant for this enzyme was 2.6 microM. Cells growing in nutrient broth and cells starved in phosphate buffer released folic acid and pterin deaminases. The quantity of deaminase activities released by the cells appeared to be controlled by chemoattractants. Starving cells that were supplied with folic acid, pterin, or adenosine 3',5'-phosphate increased their extracellular folic acid and pterin deaminase activities to a larger extent than did cell suspensions to which no chemoattractants were added. Administration of folic acid or pterin to starving cells caused increases of the activity of extracellular adenosine 3',5'-phosphate phosphodiesterase and repressed increases of the activity of phosphodiesterase inhibitor.     

Serum factors alter the extent of dephosphorylation of ligands endocytosed via the mannose 6-phosphate/insulin-like growth factor II receptor

Mouse L-cells that contain the cation-independent (CI) mannose 6-phosphate (Man 6-P)/insulin-like growth factor (IGF) II receptor endocytose acid hydrolases and deliver these enzymes to lysosomes. The postendocytic loss of the Man 6-P recognition marker from the cell-associated acid hydrolases was assessed by CI-Man 6-P receptor affinity chromatography. 125I-labeled acid hydrolases internalized by L-cells grown at high density were delivered to lysosomes but were not dephosphorylated. In contrast, the same 125I-labeled hydrolases internalized by L-cells maintained at low density were delivered to lysosomes and were extensively dephosphorylated. The dephosphorylation at low density required 5 h for completion suggesting that the phosphatase responsible for the dephosphorylation is located within the lysosomal compartment. Transition from the high to low density state was rapid and was not inhibited by cycloheximide. Medium substitution experiments indicated that serum factors were necessary to maintain the L-cells in the dephosphorylation-competent (low density) state, and that serum-free conditions led to a dephosphorylation-incompetent (high density) state. Addition of IGF II to cells in serum-free medium allowed acid hydrolases subsequently introduced by endocytosis to be dephosphorylated. The results indicate that the removal of the Man 6-P recognition marker from endocytosed acid hydrolases is regulated by serum factors in the growth medium, including IGF II.     

The toxicity of sanguinarine compared to a number of other DNA-tropic compounds for ethidium bromide-sensitive and -resistant transformed murine fibroblasts in culture

A natural DNA-intercalator plant benzo-c-phenanthridine alkaloid sanguinarine is more toxic for mouse transformed fibroblast L-cells in culture than synthetic DNA-intercalator ethidium bromide (EtB) and alkaloid berberine. Dimidium bromide is also an inhibitor of the L-cell growth. In assay conditions, growth of L-cells is stopped by 1.5 x 10(-5) M of sanguinarine. Lebr-625 cells, resistant to 25 micrograms/ml of EtB, have sanguinarine sensitivity close to that of L-cells, but Lebr-625 cells are resistant to dimidium bromide. Sanguinarine is more toxic for L-cells in culture than the anticancer drug cis-PtNH3)2Cl2. Trans-Pt(NH3)2Cl2 is less toxic for these cells. The strong toxicity of sanguinarine for L- and Lebr-625 cells in culture, as compared to other DNA-complexing drugs, seems to be associated with the wide range of potential cell targets for sanguinarine influence. Besides the inhibition of nucleic acid metabolism reactions, characteristic of DNA-intercalators, and disruption the mitochondrial ATP synthesis, also characteristic of organic heterocyclic cationic molecules of DNA-intercalators, sanguinarine can modify the thiol groups of enzymes including SH-sensitive membrane-bound Na+, K(+)-ATPase of cerebral cortex and Ca2(+)-ATPase of skeletal muscle sarcoplasmic reticulum fragments.     

Clustering of mutations in the first transmembrane domain of the human reduced folate carrier in GW1843U89-resistant leukemia cells with impaired antifolate transport and augmented folate uptake

We have studied the molecular basis for the resistance of human CEM leukemia cells to GW1843, a thymidylate synthase inhibitor. GW1843-resistant cells displayed a approximately 100-fold resistance to GW1843 and methotrexate but were collaterally sensitive to the lipophilic antifolates trimetrexate and AG337, which enter cells by diffusion. These cells exhibited a 12-fold decreased methotrexate influx but surprisingly had a 2-fold decreased folic acid growth requirement. This was associated with a 4-fold increased influx of folic acid, a 3.5-fold increased steady-state level of folic acid, and a 2.3-fold expansion of the cellular folate pool. Characterization of the transport kinetic properties revealed that GW1843-resistant cells had the following alterations: (a) 11-fold decreased transport K(m) for folic acid; (b) 6-fold increased transport K(m) for GW1843; and (c) a slightly increased transport V(max) for folic acid. Sequence analysis showed that GW1843-resistant cells contained the mutations Val-29 --> Leu, Glu-45 --> Lys, and Ser-46 --> Ile in the first transmembrane domain of the reduced folate carrier. Transfection of the mutant-reduced folate carrier cDNA into methotrexate transport null cells conferred resistance to GW1843. This is the first demonstration of multiple mutations in a confined region of the human reduced folate carrier in an antifolate-resistant mutant. We conclude that certain amino acid residues in the first transmembrane domain play a key role in (anti)folate binding and in the conferring of drug resistance.     

Quantitative aspects of the selective killing of transformed cells by methotrexate in the presence of leucovorin

Summary A quantitative study was made of the cytotoxicity of methotrexate (MTX) for nontransformed and transformed NIH 3T3 cells in the presence and absence of leucovorin. The study was preceded by an analysis of the growth rates of the cells at low and high population density combined with low and high concentrations of calf serum (CS). The reduced maximal growth rates of the transformed cells at low population densities relative to the nontransformed cells reinforced earlier evidence that heritable damage involving chromosome aberrations drives the process of transformation. When small numbers of transformed cells are cocultured with a large excess of nontransformed cells in the assay for transformed foci, the transformed cells were more readily killed by MTX than the nontransformed cells. The selectivity was increased when leucovorin (folinic acid) was present in the medium. The selective killing of the transformed cells actively multiplying in foci was most pronounced when the background of nontransformed cells had become confluent and their growth was inhibited. However, selectivity has also been demonstrated when transformed and nontransformed cells are growing at their maximum rates at low density despite the lower growth rate of the transformed cells under these conditions. The sensitivity of transformed cells in pure culture to MTX was lower during the first 3 d of subculture than in the following 6 d but decreased to zero a few d after net growth had ceased. The nontransformed cells were more susceptible to killing by MTX in Dulbecco’s modified Eagle’s medium (DMEM) than in MCDB 402, but the transformed cells were sensitive to MTX in both media. The high selectivity of MTX for transformed over nontransformed cells in MCDB 402 results from the presence of 1.0 μM leucovorin (5-formyltetrahydrofolate), a reduced form of the folic acid present in most other culture media. When leucovorin was added to DMEM with its high concentration of folic acid, the resistance to MTX of both nontransformed and transformed cells was greatly increased, but the selectivity of MTX for transformed cells was almost entirely lost. The results indicate that leucovorin protects nontransformed cells against concentrations of MTX that kill transformed cells, but the protection is dependent on the relative amounts of leucovorin to folic acid in the medium. The relative sensitivities of transformed and nontransformed cells in our system to MTX when both cell types are exhibiting their characteristic differential in growth behavior is similar to that described for tumor and normal cells in vivo. Since the unregulated growth behavior of the transformed, tumor-producing cells is efficiently and quantitatively measured in this system, it can be used to develop general principles of treatment and resolve questions of cytotoxic mechanism.     

Population-dependent requirements of vitamin B12 and metabolically related substances of several mouse cell types in serum-free, albumin-fortified medium

Mouse FM3A cells propagated well in serum-free medium containing 0.5% serum albumin and 1 microgram of insulin/ml. The vitamin B12 (B12) requirement of the cells depended on the population density. This requirement disappeared when a sufficiently large cell population was present. A combination of 1-100 ng of B12/ml and 4 micrograms of hypoxanthine/ml resulted in a synergistic increase in cell growth at low cell densities. A similar growth response was obtained when the B12 plus hypoxanthine was replaced by 4 micrograms of hypoxanthine/ml in combination with 100 ng of thymidine/ml, 1 microgram of folic acid/ml or 1 microgram of folinic acid/ml, even though 1 microgram of folic acid/ml already was present in the medium. Experiments on single cell inoculation showed that colony size and the yield of cells grown in B12-supplemented medium were much larger than those for cells grown in B12-free medium. A more critical population-dependent B12 requirement was demonstrated in mouse Ehrlich and L cells and their hybrids. At less than 100 cells there was no propagation in serum-free medium lacking B12, folinic acid and thymidine; whereas, a satisfactory growth response was obtained in medium supplemented with these substances.     

Folate metabolism in ageing

Important histochemical observations on the nervous system, obtained in the last years, showed characteristic changes in folic acid and in its main enzyme--dihydrofolate reductase--in the old nerve cells. In neurons, the enzymic activity gradually decreased and folic acid accumulated in ageing. Glial cells preserved or slightly increased the same folate enzyme, but folic acid markedly increased in senescence. Opinions and suggestions bound to these observations are presented.     

Cyclic GMP and cyclic AMP changes in response to folic acid pulses during cell development of Dictyostelium discoideum.

Folic acid pulses induced developmental processes in agip 71, a morphogenetic mutant of Dictyostelium discoideum, strain Ax-2. Cells that had received folic acid pulses were able to form EDTA-stable cell aggregates and to complete full differentiation to fruiting bodies. In these cells no autonomous periodic activities were observed by light scattering. Folic acid pulses elicited increases in the concentrations of cyclic GMP and cyclic AMP. In undifferentiated cells, folic acid caused a rapid increase in the level of cyclic GMP without a significant change in the level of cyclic AMP. In an advanced developmental state folic acid caused an increase in cyclic AMP in addition to two successsive peaks of cyclic GMP. Experiments performed with the parent strain, Ax-2, also showed that during the development towards aggregation competence, cells acquired the ability to produce a cyclic AMP peak in response to folic acid.     

Enhancement of the therapeutic effectiveness of methotrexate and protection of normal proliferating tissues with purines and pyrimidines.

Mice can be protected against the toxicity arising from lethal doses of methotrexate with purine and pyrimidine combinations, but not with pyrimidine alone. Furthermore, methotrexate treatment of tumour-bearing mice, conjunction with purine/pyrimidine protection, can be more effective than conventional metotrexate/folinic acid treatment.     

Density distribution of free fatty acid receptor 2 (FFA2)-expressing and GLP-1-producing enteroendocrine L cells in human and rat lower intestine,and increased cell numbers after ingestion of fructo-oligosaccharide

Glucagon-like peptide 1 (GLP-1) is a multifunctional hormone in glucose metabolism and intestinal function released by enteroendocrine L-cells. The plasma concentration of GLP-1 is increased by indigestible carbohydrates and luminal infusion of short-chain fatty acids (SCFAs). However, the triggers and modulators of the GLP-1 release remain unclear. We hypothesized that SCFAs produced by bacterial fermentation are involved in enteroendocrine cell proliferation and hormone release through free fatty acid receptor 2 (FFA2, also known as FFAR2 or GPR43) in the large intestine. Fructo-oligosaccharide (Fructo-OS), fermentable indigestible carbohydrate, was used as a source of SCFAs. Rats were fed an indigestible-carbohydrate-free diet (control) or a 5% Fructo-OS-containing diet for 28 days. FFA2-, GLP-1-, and 5-hydroxytryptamine (5-HT)-positive enteroendocrine cells were quantified immunohistochemically in the colon, cecum, and terminal ileum. The same analysis was performed in surgical specimens from human lower intestine. The coexpression of FFA2 with GLP-1 was investigated both in rats and humans. Fructo-OS supplementation in rats increased the densities of FFA2-positive enteroendocrine cells in rat proximal colon, by over two-fold, relative to control, in parallel with GLP-1-containing L-cells. The segmental distributions of these cells in human were similar to rats fed the control diet. The FFA2-positive enteroendocrine cells were GLP-1-containing L-cells, but not 5-HT-containing EC cells, in both human and rat colon and terminal ileum. Fermentable indigestible carbohydrate increases the number of FFA2-positive L-cells in the proximal colon. FFA2 activation by SCFAs might be an important trigger for produce and release GLP-1 by enteroendocrine L-cells in the lower intestine.     

A 2x folic acid treatment affects epigenetics and dendritic spine densities in SHSY5Y cells

Many diseases are now associated with aberrant epigenetics and gene expression changes. Epigenetics can be modified by factors like diet. One dietary factor, folic acid, is consumed in various forms including supplements, energy drinks, and fortified grains. It was hypothesized high levels of folic acid would affect gene expression and enzyme activity of chromatin modifying enzymes as well as dendritic spine densities in a commonly utilized neuron model, the SHSY5Y cell. Decreased MBD2 and MECP2 were discovered upon treatment of SHSY5Y cells with a 2x folic acid dose. Corresponding decreases in dendritic spines were apparent in the 2x folic acid treated cells as well. Activity of DNMTs and H3K4 HMTs was altered. Further, H3K4me1, H3K4me3, H3K9Ac, and global DNA methylation were decreased in the 2x folic acid treated cells. Further studies are warranted to determine if the effects of excess folic acid are detrimental to organismal physiology.     

Folic Acid Acts Through DNA Methyltransferases to Induce the Differentiation of Neural Stem Cells into Neurons

The present study investigated the roles of folic acid and DNA methyltransferases (DNMTs) in the differentiation of neural stem cells (NSCs). Neonatal rat NSCs were grown in suspended neurosphere cultures and identified by their expression of SOX2 protein and capacity for self-renewal. Then NSCs were assigned to five treatment groups for cell differentiation: control (folic acid-free differentiation medium), low folic acid (8 μg/mL), high folic acid (32 μg/mL), low folic acid and DNMT inhibitor zebularine (8 μg/mL folic acid and 150 nmol/mL zebularine), and high folic acid and zebularine (32 μg/mL folic acid and 150 nmol/mL zebularine). After 6 days of cell differentiation, immunocytochemistry and western blot analyses were performed to identify neurons by β-tubulin III protein expression and astrocytes by GFAP expression. We observed that folic acid increased DNMT activity which may be regulated by the cellular S-adenosylmethionine (SAM) and S-adenosylhomocysteine (SAH), and the abundance of neurons but decreased the number of astrocytes. Zebularine blocked these effects of folic acid. In conclusion, folic acid acts through elevation of DNMT activity to increase neuronal differentiation and decrease astrocytic differentiation in NSCs.     

Synthesis of a compound with folic acid activity by Lactobacillus arabinosus 17-5

Summary A compound with folic acid activity is synthesized by growing as well as respiring cells of Lactobacillus arabinosus in the presence of p-aminobenzoic acid. The essentiality of glutamic acid is seen in studies with respiring cells.The free folic acid activity elaborated by Lactobacillus arabinosus reaches its maximum in about 48 hrs. and is present mainly in the culture filtrate.Additions of Tween 80, or biotin and of xanthine show marked stimulation of the synthesis of folic acid activity.With the organisms Streptococcus faecalis R and Lactobacillus casei, requiring exogenous folic acid for growth, it is seen that the entire folic acid activity resides in the cells and as citrovorum factor.Sulphanilamide inhibits the synthesis of folic acid activity by Lactobacillus arabinosus.     

Low proportions of folic acid deficiency after introduction of mandatory folic acid fortification in remote areas of northern Queensland,Australia: a secondary health data analysis

Abstract

Background: Australia implemented mandatory folic acid fortification of bread-making flour in 2009.

Objective: To assess the impact of folic acid fortification in remote vs. regional urban areas and Indigenous vs. non-Indigenous populations in northern Queensland.

Methods: Routinely collected data on folic acid measurements in remote areas and two regional urban centres in northern Queensland between 2004 and 2015 were analysed (n?=?13,929) dichotomously (folic deficient vs. non-deficient).

Results: Overall prevalence of folic acid deficiency was 3.2% (235/7282) in urban centres compared with 7.2% (480/6647) in remote areas (p?<?0.001), and 9.3% (393/4240) in the Indigenous population compared with 3.2% (273/8451) in the non-Indigenous population (p?<?0.001). Prevalence of folic acid deficiency dropped from 12.2% (n?=?481) in 2004–2008 to 1.5% (n?=?126) in 2010–2015 (p?<?0.001). This translates into a relative risk reduction (RRR) of 88%. RRR was 79% (7.2% vs. 1.5%) in urban centres, 91% (17.3% vs. 1.5%) in remote areas, 92% (20.5% vs. 1.6%) in the Indigenous population and 80% (7.4% vs. 1.5%) in the non-Indigenous population (p?<?0.001 for all).

Conclusions: Substantial declines of folic acid deficiency to low and comparable proportions in former high-risk populations indicate that mandatory folic acid fortification of flour has had a population-wide benefit in northern Queensland.