Chemically Defined Minimal Medium for Growth of the Anaerobic Cellulolytic Thermophile Clostridium thermocellum

A minimal chemically defined medium has been developed for Clostridium thermocellum. The growth factors required are biotin, pyridoxamine, vitamin B₁₂, and p-aminobenzoic acid.     

Nutritional interdependence betweenThermoanaerobacter thermohydrosulfuricus andClostridium thermocellum

Thermoanaerobacter thermohydrosulfuricus strain YM3 and Clostridium thermocellum strain YM4, obtained originally as a stable coculture, required yeast extract to grow separately. Cell-free broths of T. thermohydrosulfuricus strain YM3 and C. thermocellum strain YM4 monocultures replaced yeast extract in supporting the growth of strains YM4 and YM3, respectively. T. thermohydrosulfuricus strain YM3 produced vitamin B₆, B₁₂ analog(s), p-aminobenzoic acid and folic acid, which were required by C. thermocellum strain YM4. Likewise, strain YM4 produced niacin-active compound(s), thiamine, and methionine required by strain YM3. Received: 17 March 1995 / Accepted: 27 March 1995     

Megaloblastic Anemia Associated with Surgically Produced Gastrointestinal Abnormalities

Two of the mechanisms for vitamin B₁₂ deficiency, leading to megaloblastic anemia, are the result of surgically produced abnormalities of the gastrointestinal tract. The basic mechanism is different for each lesion.Total gastrectomy results in complete lack of intrinsic factor which is necessary for vitamin B₁₂ absorption. It is believed that if patients survive long enough and are not given prophylactic vitamin B₁₂ therapy, all would develop megaloblastic anemia.Intestinal anastomosis leading to stasis of intestinal contents, with overgrowth of bacteria may cause vitamin B₁₂ deficiency through bacterial interference with the utilization of vitamin B₁₂.Use of radioactive vitamin B₁₂ (cobalt⁶⁰-labeled B₁₂) has led to a better understanding of the pathogenesis of both types of megaloblastic anemia. The radioactive vitamin provides a useful tool for study of its absorption from the gastrointestinal tract.     

Characterization of vitamin B12 compounds in the fruiting bodies of shiitake mushroom (Lentinula edodes) and bed logs after fruiting of the mushroom

This study determined the vitamin B₁₂ content in commercially available dried fruiting bodies of shiitake mushroom, Lentinula edodes. The vitamin B₁₂ contents in dried donko-type fruiting bodies with closed caps (5.61 ± 3.90 μg/100 g dry weight), did not significantly differ from those of dried koushin-type fruiting bodies with open caps (4.23 ± 2.42 μg/100 g dry weight). The bed logs after fruiting of the mushroom also contained the vitamin B₁₂ levels similar to that in the dried shiitake fruiting bodies. To determine whether the dried shiitake fruiting bodies and their bed logs contained vitamin B₁₂ or other corrinoid compounds that are inactive in humans, we purified corrinoid compounds using an immunoaffinity column and identified vitamin B₁₂ using vitamin B₁₂-dependent Escherichia coli 215 bioautograms and liquid chromatography-electrospray ionization tandem mass spectrometry (LC/ESI-MS/MS) chromatograms. Dried shiitake fruiting bodies rarely contained an unnatural corrinoid vitamin B₁₂[c-lactone] that is inactive in humans. Given that shiitake mushroom lacks the ability to synthesize vitamin B₁₂ de novo, the vitamin B₁₂ found in dried shiitake fruiting bodies must have been derived from the bed logs.     

STUDIES ON CHLOROPLAST DEVELOPMENT AND REPLICATION IN EUGLENA : I. Vitamin B12 and Chloroplast Replication

When Euglena gracilis is grown under vitamin B₁₂ deficiency conditions, the amount of protein and of chlorophyll per cell increase with decrease of B₁₂ in the medium and consequently in the cell. The increase in cell protein is proportional to and precedes an increase in the number of chloroplasts per cell. This replication of the chloroplasts under deficiency conditions is not accompanied by nuclear or cell division. It is concluded that chloroplast replication in Euglena gracilis is independent of nuclear and cellular replication, at least under B₁₂ deficiency conditions. We established a graph of the growth of Euglena under different concentrations of vitamin B₁₂ added to the growth medium, which permitted us to calculate that at least 22,000 molecules of vitamin B₁₂ per cell are required to give normal growth.     

Common variant in FUT2 gene is associated with levels of vitamin B12 in Indian population

Vitamin B₁₂ is an essential micronutrient synthesized by microorganisms. Mammals including humans have evolved ways for transport and absorption of this vitamin. Deficiency of vitamin B₁₂ (either due to low intake or polymorphism in genes involved in absorption and intracellular transport of this vitamin) has been associated with various complex diseases. Genome-wide association studies have recently identified several common single nucleotide polymorphisms (SNPs) in fucosyl transferase 2 gene (FUT2) to be associated with levels of vitamin B₁₂—the strongest association was with a non-synonymous SNP rs602662 in this gene. In the present study, we attempted to replicate the association of this SNP (rs602662) in an Indian population since a significant proportion has been reported to have low levels of vitamin B₁₂ in this population. A total of 1146 individuals were genotyped for this SNP using a single base extension method and association with levels of vitamin B₁₂ was assessed in these individuals. Regression analysis was performed to analyze the association considering various confounding factors like for age, sex, diet, hypertension, diabetes mellitus and coronary artery disease status. We found that the SNP rs602662 was significantly associated with the levels of vitamin B₁₂ (p value < 0.0001). We also found that individuals adhering to a vegetarian diet with GG (homozygous major genotype) have significantly lower levels of vitamin B₁₂ in these individuals. Thus, our study reveals that vegetarian diet along with polymorphism in the FUT2 gene may contribute significantly to the high prevalence of vitamin B₁₂ deficiency in India.     

Vitamin analysis of five planktonic microalgae and one macroalga

Vitamin analysis was carried out on five microalgae used in aquaculture:Tetraselmis suecica, Isochrysis galbana, Pavlova lutheri, Skeletonema costatum andChaetoceros calcitrans and one macroalga,Sargassum muticum, which is invasive on the Atlantic shores of France. Both liposoluble (provitamin A, E, K) and hydrosoluble (B₁, B₂, B₆, B₁₂, C, PP) vitamins were quantified. For most of them, greater amounts were obtained in the algal products than in the usual sources. On a dry weight basis,Tetraselmis suecica contained 4280 μg g^?1 provitamin A and 6323 μg g^?1 vitamin E,Pavlova lutheri 1162 μg g^?1 vitamin B₁₂ and 837 μg g^?1 vitamin C,Isochrysis galbana 2690 μg g^?1 vitamin PP and 183 μg g^?1 vitamin B₆, andSkeletonema costatum 710 μg g^?1 vitamin B₁.     

Isolation of a novel Pseudomonas species SP2 producing vitamin B12 under aerobic condition

Vitamin B₁₂ is a complex biomolecule that acts as a cofactor for a variety of enzymes in microbial metabolism. Pseudomonas denitrificans is exclusively used as an industrial strain for the production of vitamin B₁₂ under aerobic conditions. However, only a few strains of Pseudomonas have been reported to possess the capability of producing this vitamin and they are strongly patent-protected. To improve the applicability of the vitamin B₁₂-producing microorganisms, a new isolate was obtained from municipal waste samples and characterized for its biological properties. The new isolate, designated as SP2, was identified to be a Pseudomonas species based on the sequence homology of its 16S rDNA. Pseudomonas species SP2 had essential genes for vitamin B₁₂ synthesis such as cobB and cobQ and produced a similar amount of vitamin B₁₂ (10.6 ± 0.05 μg/mL) as P. denitrificans ATCC 13867 in 24 h flask culture. SP2 grew well under aerobic condition with the maximum specific growth rate (µ _max ) of 0.91 ± 0.03/h, but showed a poor growth under micro-aerobic conditions. SP2 was resistant to antibiotics like streptomycin, carbenicillin, ampicillin, cefpodoxime, colistin, nalidixic acid and sparfloxacin. The ability of SP2 to grow faster and produce vitamin B₁₂ under aerobic conditions makes it a promising host for the production of some biochemicals requiring a coenzyme B₁₂-dependent enzyme, such as glycerol dehydratase.     

Oxidation of compounds metabolized through folate coenzyme pathways in vitamin B12-deficient rats

The effects of vitamin B₁₂ deficiency in rats and dietary supplementation with vitamin B₁₂ and/or l-methionine plus folate on the oxidation of compounds metabolized through folate coenzyme pathways were investigated. Rats fed a vitamin B₁₂-deficient diet oxidized significantly lower amounts in 60 min of l-histidine, glycine, sarcosine, formate, and l-serine to CO₂ than vitamin B₁₂-supplemented controls. Supplementation of the deficient diet with l-methionine plus folate restored the ability to oxidize the ring-2-carbon of l-histidine, the methyl group of sarcosine, and formate to the same level as that observed in animals receiving vitamin B₁₂. In contrast, oxidation of the 1-carbon of glycine and the 3-carbon of l-serine was not restored to control levels by addition of methionine plus folate to the vitamin B₁₂-deficient diet. Inhibition of the metabolism of the 2-carbon of glycine to CO₂ was partially overcome by additional dietary methionine and folate. Glycine synthase activity in homogenates paralleled the in vivo pattern of oxidation of the 1-carbon of glycine to CO₂, whereas sarcosine dehydrogenase activity appeared to increase 2-fold in vitamin B₁₂ deficiency.     

Impact of diet management and composition on vitamin B12 concentration in milk of Holstein cows

As vitamin B₁₂ is only synthesized by bacteria, ruminant products, especially dairy products, are excellent sources of this vitamin. This study aims to identify if diet and cow characteristics could affect vitamin B₁₂ concentration in milk of dairy cows. Information on 1484 first, 1093 second and 1763 third and greater parity Holstein cows in 100 herds was collected during three consecutive milkings. During the first morning milking, all dietary ingredients given to cows were sampled and quantities offered were recorded throughout the day. Nutrient composition of ingredients was obtained by wet chemistry to reconstitute nutrient composition of the ration. Milk samples were taken with in-line milk meters during the evening milking of the 1^st day and the morning milking of the 2nd day and were analyzed for vitamin B₁₂ concentration. Milk yields were recorded and milk components were separately analyzed for each milking. Daily vitamin B₁₂ concentration in milk was obtained using morning and evening vitamin B₁₂ concentrations weighted with respective milk yield, then divided by daily yield. To decrease the number of interdependent variables to include in the multivariable model, a principal component analysis was carried out. Daily milk concentration of vitamin B₁₂ averaged 3809±80 pg/ml, 4178±79 pg/ml and 4399±77 pg/ml for first, second and third, and greater lactation cows. Out of 11 principal components, six were significantly related to daily milk concentration of vitamin B₁₂ when entered in the multivariable model. Results suggested that vitamin B₁₂ concentration in milk was positively related to percentage of fiber and negatively related to starch as well as energy of the diet. Negative relationships were noted between vitamin B₁₂ concentration in milk and milk yield as well as milk lactose concentration and positive relationships were observed between vitamin B₁₂ concentration in milk and milk fat as well as protein concentrations. The percentages of chopped mixed silage and commercial energy supplement in the diet as well as cow BW were positively related to vitamin B₁₂ in milk and percentages of baled mixed silage, corn and commercial protein supplement in the ration were negatively related to vitamin B₁₂ concentration in milk. The pseudo-R² of the model was low (52%) suggesting that diet and cow characteristics have moderate impact on vitamin B₁₂ concentration in milk. Moreover, when entering solely the principal component related to milk production in the model, the pseudo-R² was 46%. In conclusion, it suggests that studied diet characteristics have a marginal impact on vitamin B₁₂ concentration in milk variation.     

Impact of Vitamin B12 on Formation of the Tetrachloroethene Reductive Dehalogenase in Desulfitobacterium hafniense Strain Y51

Corrinoids are essential cofactors of reductive dehalogenases in anaerobic bacteria. Microorganisms mediating reductive dechlorination as part of their energy metabolism are either capable of de novo corrinoid biosynthesis (e.g., Desulfitobacterium spp.) or dependent on exogenous vitamin B₁₂ (e.g., Dehalococcoides spp.). In this study, the impact of exogenous vitamin B₁₂ (cyanocobalamin) and of tetrachloroethene (PCE) on the synthesis and the subcellular localization of the reductive PCE dehalogenase was investigated in the Gram-positive Desulfitobacterium hafniense strain Y51, a bacterium able to synthesize corrinoids de novo. PCE-depleted cells grown for several subcultivation steps on fumarate as an alternative electron acceptor lost the tetrachloroethene-reductive dehalogenase (PceA) activity by the transposition of the pce gene cluster. In the absence of vitamin B₁₂, a gradual decrease of the PceA activity and protein amount was observed; after 5 subcultivation steps with 10% inoculum, more than 90% of the enzyme activity and of the PceA protein was lost. In the presence of vitamin B₁₂, a significant delay in the decrease of the PceA activity with an ∼90% loss after 20 subcultivation steps was observed. This corresponded to the decrease in the pceA gene level, indicating that exogenous vitamin B₁₂ hampered the transposition of the pce gene cluster. In the absence or presence of exogenous vitamin B₁₂, the intracellular corrinoid level decreased in fumarate-grown cells and the PceA precursor formed catalytically inactive, corrinoid-free multiprotein aggregates. The data indicate that exogenous vitamin B₁₂ is not incorporated into the PceA precursor, even though it affects the transposition of the pce gene cluster.     

Effect of methionine and vitamin B-12 on the activities of methionine biosynthetic enzymes in metJ mutants of Escherichia coli K12

The effects of supplementation of growth medium with high concentrations of methionine (5 mm) and/or vitamin B₁₂ (10 nm) on the activities of five enzymes of the methionine regulon were measured in wild-type Escherichia coli K12, a metJ prototrophic and three metJ methionine auxotrophic derivatives. Growth on vitamin B₁₂ causes lowering of the activities of the non-B₁₂ methyltransferase while growth on methionine causes elevation of its activity in all four metJ mutants. The previous observation that this enzyme is not repressed by vitamin B₁₂ addition in metH mutants together with our observation that vitamin B₁₂ causes repression in mutants (metF) unable to synthesize the donor for homocysteine methylation supports the model of Kung et al. (10) that the holo-B₁₂-methyltransferase functions as a repressor of synthesis of the non-B₁₂-methyltransferase. Growth on methionine causes lowering of cystathionase activity, and growth on vitamin B₁₂ results in elevation of cystathionase activity in a metJ prototroph and one metJ auxotroph. The metJmetA strain (RG326) has a higher than normal level of cystathionase while the metJmetF strain (RG191) has lower than normal cystathionase activity. These results indicate the existence of a metJ independent system that modulates the activity of cystathionase possibly in response to changes in concentration of unidentified metabolite(s).     

A comparison between different concentrations and sources of cobalt in goat kid nutrition

There have been extensive studies in sheep and cattle considering cobalt (Co) supplementation and its effects on vitamin B₁₂ concentrations in the body. However, there are limited studies on goats. The aim of this study was to compare two different sources of Co (sulfate v. glucoheptonate) at two different concentrations (0.25 and 0.5 mg/kg dry matter) in goat kid nutrition, and to evaluate the effects of these supplements on performance, serum vitamin B₁₂, blood biochemistry and rumen volatile fatty acids. For this purpose, 30 weaned male goat kids were randomly allotted to five treatments. Serum vitamin B₁₂ increased during the trial in the Co-supplemented groups. Co supplementation increased serum glucose concentrations. On day 35, Co-supplemented groups had greater glucose concentrations compared with control. Propionic+iso-butyric acid concentrations increased only in the 0.5 mg Co glucoheptonate treatment (P<0.05). Our results suggest that, despite the two sources of Co proving mostly similar, the main advantage of Co glucoheptonate compared with Co sulfate was in the ruminal synthesis of vitamin B₁₂. However, although providing Co at National Research Council recommendation levels maintained vitamin B₁₂ above or at normal concentrations, Co supplementation of the Co sufficient basal diet increased vitamin B₁₂ and glucose concentrations.     

Microbial production of vitamin B12 antimetabolites: II. 2-Amino-4-keto-3-methylpentanoic acids from bacillus cereus 439

2-Amino-4-keto-3-methylpentanoic acids were isolated as a diastereomeric mixture from Bacillus cereus 439 fermentations and found to be vitamin B₁₂ antimetabolites in a bioassay system based on the vitamin B₁₂-requiring Escherichia coli (Davis 113-3). A similar diastereomeric mixture with bioactivity was synthesized by condensation of 2-bromo-3-butanone with sodio diethyl acetamidomalonate followed by hydrolysis with 6 N HCl and purification by ion-exchange chromatography. The growth inhibitory effects of the antimetabolite were reversed by vitamin B₁₂, l-methionine, l-isoleucine, l-leucine, l-valine, and d-alanine.     

Enhancement of chemiluminescence for vitamin B12 analysis

In the current article, chemiluminescence (CL) from the vitamin B₁₂ and luminol reaction was studied under alkaline conditions to develop a sensitive analytical method for vitamin B₁₂ using the carbonate enhancement effect. The method was successfully applied to the determination of vitamin B₁₂ in vitamin B₁₂ tablets, multivitamin capsules, and vitamin B₁₂ injections. Experimental parameters were optimized, including luminol concentration, urea-hydrogen peroxide (urea-H₂O₂) concentration, effect of pH, and sequence of addition of reactants for obtaining maximum CL, which was not explored previously. The limit of detection was 5 pg/ml, and the linear range was 10 pg/ml to 1 μg/ml with a regression coefficient of R² = 0.9998. The importance of these experimental parameters and the carbonate enhancement effect is discussed based on the knowledge of the mechanism of oxidation of luminol and decomposition of urea-H₂O₂ in the presence of vitamin B₁₂. Extraction of vitamin B₁₂ was carried out, and the observed recovery was 97-99.2% with a relative standard deviation in the range of 0.30-1.09%. The results obtained were compared with those of the flame atomic absorption spectrometry method.     

Vitamin B12-peptide nucleic acids use the BtuB receptor to pass through the Escherichia coli outer membrane

Short modified oligonucleotides that bind in a sequence-specific way to messenger RNA essential for bacterial growth could be useful to fight bacterial infections. One such promising oligonucleotide is peptide nucleic acid (PNA), a synthetic DNA analog with a peptide-like backbone. However, the limitation precluding the use of oligonucleotides, including PNA, is that bacteria do not import them from the environment. We have shown that vitamin B₁₂, which most bacteria need to take up for growth, delivers PNAs to Escherichia coli cells when covalently linked with PNAs. Vitamin B₁₂ enters E. coli via a TonB-dependent transport system and is recognized by the outer-membrane vitamin B₁₂-specific BtuB receptor. We engineered the E. coli ΔbtuB mutant and found that transport of the vitamin B₁₂-PNA conjugate requires BtuB. Thus, the conjugate follows the same route through the outer membrane as taken by free vitamin B₁₂. From enhanced sampling all-atom molecular dynamics simulations, we determined the mechanism of conjugate permeation through BtuB. BtuB is a β-barrel occluded by its luminal domain. The potential of mean force shows that conjugate passage is unidirectional and its movement into the BtuB β-barrel is energetically favorable upon luminal domain unfolding. Inside BtuB, PNA extends making its permeation mechanically feasible. BtuB extracellular loops are actively involved in transport through an induced-fit mechanism. We prove that the vitamin B₁₂ transport system can be hijacked to enable PNA delivery to E. coli cells.     

Systemic lupus erythematosus

Imerslund-Gräsbeck syndrome (IGS) or selective vitamin B₁₂ (cobalamin) malabsorption with proteinuria is a rare autosomal recessive disorder characterized by vitamin B₁₂ deficiency commonly resulting in megaloblastic anemia, which is responsive to parenteral vitamin B₁₂ therapy and appears in childhood. Other manifestations include failure to thrive and grow, infections and neurological damage. Mild proteinuria (with no signs of kidney disease) is present in about half of the patients. Anatomical anomalies in the urinary tract were observed in some Norwegian patients. Vitamin B₁₂ absorption tests show low absorption, not corrected by administration of intrinsic factor. The symptoms appear from 4 months (not immediately after birth as in transcobalamin deficiency) up to several years after birth. The syndrome was first described in Finland and Norway where the prevalence is about 1:200,000. The cause is a defect in the receptor of the vitamin B₁₂-intrinsic factor complex of the ileal enterocyte. In most cases, the molecular basis of the selective malabsorption and proteinuria involves a mutation in one of two genes, cubilin (CUBN) on chromosome 10 or amnionless (AMN) on chromosome 14. Both proteins are components of the intestinal receptor for the vitamin B₁₂-intrinsic factor complex and the receptor mediating the tubular reabsorption of protein from the primary urine. Management includes life-long vitamin B₁₂ injections, and with this regimen, the patients stay healthy for decades. However, the proteinuria persists. In diagnosing this disease, it is important to be aware that cobalamin deficiency affects enterocyte function; therefore, all tests suggesting general and cobalamin malabsorption should be repeated after abolishment of the deficiency.     

Relationships between biotin and vitamin B12. Effects of biotin and vitamin B12 on folic acid metabolism

1. The effects of dietary biotin compared with vitamin B₁₂ on the total content and on the distribution of the various folate derivatives in the liver of rats given a biotin-free diet have been studied. The effect of both vitamins on the conversion in vitro of folic acid into citrovorum factor in the same experimental conditions was also examined. 2. In biotin-treated rats as well as in vitamin B₁₂-treated rats the total content of folic acid-active substances measured microbiologically by Pediococcus cerevisiae, Streptococcus faecalis and Lactobacillus casei is significantly higher than that in biotin-deficient rats. The liver distribution of various folate derivatives in the three groups of animals is also markedly modified. 3. The amount of citrovorum factor formed in systems with liver homogenate of rats receiving biotin or vitamin B₁₂ is higher than that with liver homogenates of deficient rats. 4. The results obtained demonstrate the influence of biotin in the metabolism of folic acid, and the similar actions at this level of both biotin and vitamin B₁₂. These results are discussed in relation to the participation of the two vitamins in the metabolism of C₁ units, as a biochemical interpretation of the relationships between vitamin B₁₂ and biotin.     

Reactions of vitamin B12r with polyhalogenated hydrocarbon pesticides

The reaction of vitamin B_12r, generated by photolysis of methylcobalamin under a nitrogen atmosphere, with 1,1,1-trichloro-2,2-bis(p-chlorophenyl)ethane (DDT), results in extensive dechlorination and formation of 1,1-dichloro-2,2-bis(p-chlorophenyl)ethane (DDD) and 1,1-dichloro-2,2-bis(p-chlorophenyl)ethylene (DDE) as the major products. Minor quantities of 1,1-bis(p-chlorophenyl)-2-chloroethane (DDMS), 1,1-bis(p-chlorophenyl)-2-chloroethylene (DDMU), 1,1-bis(p-chlorophenyl)ethane (DDO), and 1,1-bis(p-chlorophenyl)ethylene (DDNU) were also formed. Reaction of vitamin B_12r with DDD results in the production of DDMU and DDMS, the latter of which can react to produce DDNU and DDO. DDE and DDMU do not react with vitamin B_12r. The results obtained are suggestive of a vitamin B_12r-mediated dechlorination pathway for polyhalogenated hydrocarbon pesticides.