Vitamin B6 deficiency and the lymphoid system: I. Effects on cellular immunity and in vitro incorporation of 3H-uridine by small lymphocytes

Thoracic duct lymphocytes from vitamin B₆-deficient rats were found to have a reduced capacity to respond to foreign lymphoid cells in the mixed lymphocyte reaction (MLR), to produce normal lymphocyte transfer reactions, and to incorporate ³H-uridine in vitro. These findings indicate that specific nutritional deficiencies may impair cellular immunity and that this impairment can be monitored by the MLR. It is suggested that the reduction in MLR activity and in ³H-uridine uptake by TDL cells reflected either a shift in the proportions of T and B cells in the TDL and/or an impairment in the capacity of such cells to function in the MLR and in the in vitro test for ³H-uridine incorporation.     

Effects of vitamin B6 supplementation in rats during lactation on vitamin B6 concentration and transaminase activities in the offspring

The aim of the present investigation was to study the effect of a varying maternal vitamin B₆ supplementation during lactation period on vitamin B₆ levels in blood, liver and total body, and on the activity of two transaminase enzymes in the offspring. Therefore, eighty female Sprague‐Dawley rats were fed a semi‐synthetic diet (0.2 mg vitamin B₆ per kg) which was supplemented during gravidity with 5 mg vitamin B₆ per kg diet. During the following lactation period the rats were assigned to one of 10 vitamin B₆ treatment groups (supplementation of 0, 3, 6, 9, 12, 15, 18, 36, 360, 3600 mg vitamin B₆ per kg diet). At day 14 of lactation the pubs of all dams were decapitated and blood, liver, and carcass were used for analysis of vitamin B₆ concentration, activities of two transaminases, aspartate aminotransferase (AST) and alanine aminotransferase (ALT) in plasma, erythrocytes, and liver, and of haematological parameters.

While the liver and total body wet weights as well as the haematological parameters (red blood cells, haemoglobin concentration, hematocrit, middle corpuscular cell volume, middle corpuscular haemoglobin, middle corpuscular haemoglobin concentration) did not differ within the experimental groups, the present data clearly show that in blood, liver and total body of the offspring exists a slight dose‐response relationship between the maternal dietary vitamin B₆ supplementation and the vitamin B₆ concentration. Concerning the activities of the transaminases a dietary supplementation above 3mg vitamin B₆ per kg diet had no influence on the AST and ALT activities in offspring plasma. In the erythrocytes no statistical significant influence of the vitamin B₆ supplementation during lactation on the activities of AST and ALT was found. The activities of ALT and AST in liver were not consistently altered by the vitamin B₆ supplementation of the dams during lactation. In conclusion these results indicate that a minimal maternal dietary vitamin B₆ supply of 3.1 mg per kg diet is necessary with regard to health and development of their offspring. But not all of the analysed parameters as the liver and total body weights, the activities of AST and ALT in the erythrocytes, and the haematological parameters were influenced by a deficient maternal dietary vitamin B₆ supply.     

Polyamine biosynthesis and vitamin B6 deficiency Evidence for pyridoxal phosphate as coenzyme for S-adenosylmethionine decarboxylase

Extracts of liver from vitamin B₆-deficient rats had only 50% of the S-adenosylmethionine decarboxylase activity of extracts of liver from control rats when assayed with no exogenous pyridoxal phosphate. When pyridoxal phosphate was included in the reaction mixture, both extracts exhibited the same activity, indicating that pyridoxal phosphate is the coenzyme for S-adenosylmethionine decarboxylase. There was no similar decreased activity in extracts of brain from vitamin B₆-deficient rats.The activity of the pyridoxal phosphate-dependent enzyme, ornithine decarboxylase, was increased in extracts of liver from vitamin B₆-deficient rats: 1.6-fold when assayed with no pyridoxal phosphate and 4-fold when assayed with pyridoxal phosphate.The concentrations of putrescine and spermidine were decreased 50% in liver of vitamin B₆-deficient animals, but only putrescine was decreased in brain. Putreanine was barely detectable in liver of vitamin B₆-deficient animals, but was unchanged in brain.     

Choline and betaine ameliorate liver lipid accumulation induced by vitamin B6 deficiency in rats

We investigated the efficacy of supplementing the diet with choline or betaine in ameliorating lipid accumulation induced by vitamin B₆ (B₆) deficiency in rat liver. Male Wistar rats were fed a control, B₆-deficient, choline-supplemented (2, 4, or 6 g choline bitartrate/kg diet) B₆-deficient diet or betaine-supplemented (1, 2, or 4 g betaine anhydrous/kg diet) B₆-deficient diet for 35 d; all diets contained 9 g L-methionine (Met)/kg diet. Choline or betaine supplementation attenuated liver lipid deposition and restored plasma lipid profiles to control levels. These treatments restored the disruptions in Met metabolism and the phosphatidylcholine (PC)/phosphatidylethanolamine (PE) ratio induced by B₆ deficiency in liver microsomes. These results suggest that choline and betaine ameliorated liver lipid accumulation induced by B₆ deficiency via recovery of Met metabolism and very low-density lipoprotein secretion by restoring the supply of PC derived from PE.     

Cysteine sulfinic acid decarboxylase in rat brain: Effect of vitamin B6 deficiency on soluble and particulate components

Cysteine sulfinic acid decarboxylase activity is not affected when measured $\text{in vitro}$ in the presence of pyridoxal phosphate in the brains of vitamin B₆-deficient rats. Activity of this enzyme was not detectable in the brains of vitamin B₆-deficient animals when assayed in the absence of pyridoxal phosphate. The activity of cysteine sulfinic acid decarboxylase in crude particulate and soluble fractions of rat brain reflects the distribution of the enzyme $\text{in vivo}$ and the distribution of endogenous B₆ vitamers when assayed in the presence and absence of vitamin B₆. This study indicates that virtually no taurine is synthesized by any component of brain when the animal is subjected to a deficiency of vitamin B₆.     

Enhancement of vitamin B6 levels in rice expressing Arabidopsis vitamin B6 biosynthesis de novo genes

Vitamin B₆ (pyridoxine) is vital for key metabolic reactions and reported to have antioxidant properties in planta. Therefore, enhancement of vitamin B₆ content has been hypothesized to be a route to improve resistance to biotic and abiotic stresses. Most of the current studies on vitamin B₆ in plants are on eudicot species, with monocots remaining largely unexplored. In this study, we investigated vitamin B₆ biosynthesis in rice, with a view to examining the feasibility and impact of enhancing vitamin B₆ levels. Constitutive expression in rice of two Arabidopsis thaliana genes from the vitamin B₆ biosynthesis de novo pathway, AtPDX1.1 and AtPDX2, resulted in a considerable increase in vitamin B₆ in leaves (up to 28.3‐fold) and roots (up to 12‐fold), with minimal impact on general growth. Rice lines accumulating high levels of vitamin B₆ did not display enhanced tolerance to abiotic stress (salt) or biotic stress (resistance to Xanthomonas oryzae infection). While a significant increase in vitamin B₆ content could also be achieved in rice seeds (up to 3.1‐fold), the increase was largely due to its accumulation in seed coat and embryo tissues, with little enhancement observed in the endosperm. However, seed yield was affected in some vitamin B₆‐enhanced lines. Notably, expression of the transgenes did not affect the expression of the endogenous rice PDX genes. Intriguingly, despite transgene expression in leaves and seeds, the corresponding proteins were only detectable in leaves and could not be observed in seeds, possibly pointing to a mode of regulation in this organ.     

Effect of restricted feed intake and addition of vitamins B2 and B6 and folic acid on the liver concentration of zinc and copper in rats

The aim of the present study was to investigate the influence of nutritional deficiency and dietary addition of vitamins (B₂, B₆, and folate) on hepatic concentration of zinc and copper in rats. The experiment was performed on 260 growing male Wistar rats divided into 13 groups. Animals of 11 groups were fed isocaloric diets (14.7 MJ/kg) in which the 20% of energy was derived from protein. Another two groups of rats were offered diets with 9% or 4.5% of energy originating from protein. Animals of both mentioned groups and of the control group (20% of energy from protein) were offered diets ad libitum. The other 10 groups were offered 50% and 30% of the amount consumed in the control group. Eight groups, from those 10 restricted ones, were differentiated by dietary addition of vitamins B₂ and B₆ and folate (300% addition). Restricted feed intake did not affect the liver zinc concentration but significantly increased the copper concentration. The addition of vitamin B₆ decreased the liver Zn concentration. The highest liver Cu concentration was noted in rats offered restricted diets to only 30% of intake in the control group and high in vitamin B₂ and in rats supplemented with all of studied vitamins together. It suggests that vitamin B₂ had the strongest impact on liver Cu concentration in rats fed restricted diets.     

The effect of vitamin B12 and biotin on the metabolism of vitamin B12 in biotin-deficient rats

1. The effect of the administration of vitamin B₁₂ and biotin on the metabolic pattern of vitamin B₁₂ in biotin-deficient rats was studied. 2. No significant changes in the absorption and excretion of orally administered [⁵⁸Co]vitamin B₁₂ were noted either in vitamin B₁₂-treated and or in biotin-fed rats. A significant decrease of the uptake of orally given [⁵⁸Co]vitamin B₁₂ was observed in the liver and kidneys of biotin-treated rats, whereas an increase of uptake in the kidneys of vitamin B₁₂-treated rats was noted as compared with biotin-deficient animals. 3. No significant difference in the excretion of radioactivity was noted between biotin deficient and biotin-fed rats when [⁵⁸Co]vitamin B₁₂ was administered by injection. A small decrease was observed in vitamin B₁₂-treated rats. The retention of injected [⁵⁸Co]vitamin B₁₂ by major organs of biotin-treated rats was lower than that of biotin-deficient rats. A lower content of [⁵⁸Co]vitamin B₁₂ was also detected in the organs, with the exception of the kidneys, of vitamin B₁₂-treated rats. 4. These results are discussed in terms of an interrelationship between biotin and vitamin B₁₂.     

Effect of vitamin B6 deficiency on pancreatic acpinar cell function

The present study was designed to determine the effect of vitamin B₆ deficiency on pancreatic acinar cell function. Rats were either fed $\text{ad}$$\text{lib}$ or rendered B₆-deficient by a purified B₆-deficient diet; half of the latter being replenished with IP pyridoxine before sacrifice. Body weight, pancreatic weight, RNA and DNA content were decreased in B₆-deficient animals. These changes were considered to be due to inanition resulting from decreased food intake. Amylase content of pancreas in B₆-deficient animals was less compared with B₆-replenished animals. Although slightly higher in B₆-deficient animals, the incorporation of L-phenylalanine¹⁴C into total tissue proteins was not significantly different in the three groups of animals. On B₆-replenishment, incorporation of L-phenylalanine¹⁴C into nascent proteins was diminished in spite of higher tissue amylase and protein content. Vitamin B₆ deficiency decreased total RNA content and adenine-8-¹⁴C incorporation into RNA. DNA content was diminished but incorporation of thymidine-2-¹⁴C into DNA was increased. On replenishment with B₆, thymidine-2-¹⁴C incorporation decreased significantly compared to control animals. Secretion of amylase was diminished commensurate with decreased content. It is concluded from these studies that B₆-deficiency induced DNA injury, decreased RNA turnover and increased protein turnover resulting in diminished amylase content. These data indicate that B₆-deficiency so frequently encountered in alcoholism may contribute to the pancreatic injury in this clinical condition.     

Effects of Vitamin B12 Analogues with Alternations in the Side Chains of the Corrin Ring on Urinary Methylmalonate Excretion in Vitamin B12-Deficient Rats

To study how much the side chains of the corrin ring of vitamin B₁₂ are involved in the physiological roles of the vitamin, five vitamin B₁₂ analogues (cyanocobalamin-b-monocarboxylate, cyanocobalamin-d-monocarboxylate, cyanocobalamin-e-monocarboxylate, cyano-13-epicobalamin, and cyanocobalamin(c-lactam)) with alternations in the side chains were synthesized chemically and then administered orally and intravenously to vitamin B₁₂-deficient rats. Male rats fed a vitamin B₁₂-deficient diet for 11 wk developed a severe vitamin B₁₂ deficiency with a high urinary methylmalonate excretion (223.8 ± 136.2 μmol/d) and ~97% (1.2±0.7ng/g tissue) lower hepatic vitamin B₁₂ content. Oral and intravenous administration of cyanocobalamin-b-,-d-, and -e-monocarboxylates and cyano-13-epicobalamin could not improve the severe vitamin B₁₂-deficient status of the rats, indicating that the b-, d-, and e-propionamide side chains of the corrin ring of vitamin B₁₂ are important in the absorption, transport, and function of the vitamin in rats. Urinary methylmalonate excretion of the rats that were intravenously administered cyanocobalamin(c-lactam) increased twice as much as those of the other analogue-supplemented rats, suggesting that cyanocobalamin(c-lactam) act as a powerful Cbl-antagonist. The results also indicate that mammalian cells do not contain a system for synthesizing complete vitamin B₁₂ from these analogues.     

Effect of casein and soy protein isolate on vitamin B6 nutritional status in rats

Two experiments were conducted to test the effect of casein and soy protein isolate (SPI) on the nutritional status of vitamin B₆ in rats. Adult Long-Evans rats were fed with a casein or SPI diet at a 40% protein level with (control) or without (B₆-deficient) 7 mg of pyridoxine/kg diet. Vitamin-B₆-deficient rats were depleted of B₆ with (experiment 1) or without (experiment 2) deoxypyridoxine. In experiment 1, each rat was loaded with 150 mg ofDL-tryptophan after 5 weeks of pair feeding. The rats on the vitamin-B₆-deficient SPI diet (SPI-B₆) excreted twice the amount of urine xanthurenic acid in 24 h than did the rats on the vitamin-B₆-deficient casein (casein-B₆) diet (p<0.05). In experiment 2,L-tryptophan was loaded in a 20-mg dose at the end of each week. The excretion of xanthurenic acid was higher in the SPI-B₆ group than in the casein-B₆ group over the 5-week period of the experiment (p<0.05). Erythrocyte transaminase (EGOT and EGPT) activities were lower, while EGOT and EGPT indexes were higher in the SPI-B₆ group than in the casein-B₆ group (p<0.05). The results suggest that the source of dietary protein significantly influenced the status of B₆ nutrition in these rats.     

Fate of H2-activated T lymphocytes in syngeneic hosts. III. Differentiation into long-lived recirculating memory cells.

Memory to H2 determinants was studied with an adoptive transfer system using a population of H2-activated blast T cells (T.TDL) obtained from thoracic duct lymph of irradiated F₁ hybrid mice injected with parental strain T cells. CBA T.TDL activated either to DBA/2 or C57BL determinants were transferred to syngeneic “B” mice. Thoracic duct lymphocytes (TDL) were obtained from the recipients 4–6 weeks later and tested for their capacity to produce (a) a graft-versus-host (GVH) reaction, (b) a mixed lymphocyte reaction (MLR) (measured by an in vivo technique) and (c) allograft rejection (suppression of the growth of allogeneic tumour cells in vivo). Control experiments involved testing the function of TDL obtained from “B” mice preinjected with TDL or no cells.TDL from “B” mice injected with TDL (passaged TDL) gave strong MLR and GVH reactions to both DBA/2 and C57BL determinants. Passaged T.TDL activated to C57BL antigens gave intermediate MLR and GVH reactions to the specific (C57BL) determinants but only very low responses to third-party (DBA/2) determinants; reciprocal results were obtained with passaged T.TDL activated to DBA/2 determinants. TDL from “B” mice given no cells failed to respond to either set of determinants.Since the responses by the passaged T.TDL did not exceed those by passaged TDL there was no evidence that adoptive transfer of T.TDL had conferred to the recipients a state of memory to either MLR or GVH determinants. Adoptive transfer did, however, lead to qualitative changes in the properties of T.TDL since, before transfer, they were unable to evoke GVH reactions or produce an MLR of normal kinetics.Passaged T.TDL were far superior to passaged TDL at suppressing the growth of allogeneic tumour cells. The protection was specific since protection against DBA/2 tumour cells was, cell for cell, 5–10 fold more effective with passaged T.TDL activated to DBA/2 determinants than with cells activated to C57BL determinants. No protection was observed with cells treated with anti-θ serum. The protective cells appeared to be precursors of effector cells rather than effector cells per se since they failed to lyse the tumour cells in vitro. These data suggest therefore that the descendants of T.TDL which survived after transfer to “B” mice were highly enriched in long-lived recirculating T lymphocytes reactive to determinants expressed by specific tumour allografts.     

Increased target tissue uptake of,and sensitivity to,testosterone in the vitamin B6 deficient rat

Six-week old male rats were maintained for 4 weeks on a vitamin B₆-free diet to cause a moderately severe degree of vitamin b₆ depletion. This led to a significant reduction in the circulating concentration of testosterone in plasma (control = 8.36 ± 1.68, deficient = 2.13 ± 0.54 nmol/1), but had no effect on circulating concentrations of luteinizing hormone, or, in intact males, on the weight of the prostate relative to body weight. In both intact and 24-h castrated animals vitamin b₆ deficiency resulted in a significant increase in the uptake of [³H]testosterone into the prostate, and both increased and prolonged the specific nuclear retention of the steroid, as assessed by the ratio of radioactivity in the nuclear pellet: the high speed supernatant fraction. The results suggest that vitamin b₆ has a function in the action of testosterone (and other steroid hormones), possibly in the recycling of receptors from the nucleus back into the cytosol after initial translocation. Vitamin b₆ deficient animals have either a reduced rate of synthesis of testosterone or an increased rate of metabolic clearance compared with vitamin b₆ supplemented controls, and this appears to be associated with enhanced target organ response to the hormone.     

Studies on the Biosynthesis of Vitamin B6

The production of vitamin B₆ (B₆) compounds with a cell-suspension of Achromobacter cycloclastes A.M.S. 6201 under various conditions were examined. An obvious accumulation of B₆ compounds in the incubation medium with a cell-suspension of the organism harvested at the middle to later part of exponential phase of growth was observed. γ-Aminobutyric acid or β-alanine was found to stimulate the B₆ production markedly, when they were added to the incubation mixture together with glycerol. Some discussion on the implication of these compounds as precursors of B₆ was presented.     

Vitamin B6 Generated by Obligate Symbionts Is Critical for Maintaining Proline Homeostasis and Fecundity in Tsetse Flies

The viviparous tsetse fly utilizes proline as a hemolymph-borne energy source. In tsetse, biosynthesis of proline from alanine involves the enzyme alanine-glyoxylate aminotransferase (AGAT), which requires pyridoxal phosphate (vitamin B₆) as a cofactor. This vitamin can be synthesized by tsetse''s obligate symbiont, Wigglesworthia glossinidia. In this study, we examined the role of Wigglesworthia-produced vitamin B₆ for maintenance of proline homeostasis, specifically during the energetically expensive lactation period of the tsetse''s reproductive cycle. We found that expression of agat, as well as genes involved in vitamin B₆ metabolism in both host and symbiont, increases in lactating flies. Removal of symbionts via antibiotic treatment of flies (aposymbiotic) led to hypoprolinemia, reduced levels of vitamin B₆ in lactating females, and decreased fecundity. Proline homeostasis and fecundity recovered partially when aposymbiotic tsetse were fed a diet supplemented with either yeast or Wigglesworthia extracts. RNA interference-mediated knockdown of agat in wild-type flies reduced hemolymph proline levels to that of aposymbiotic females. Aposymbiotic flies treated with agat short interfering RNA (siRNA) remained hypoprolinemic even upon dietary supplementation with microbial extracts or B vitamins. Flies infected with parasitic African trypanosomes display lower hemolymph proline levels, suggesting that the reduced fecundity observed in parasitized flies could result from parasite interference with proline homeostasis. This interference could be manifested by competition between tsetse and trypanosomes for vitamins, proline, or other factors involved in their synthesis. Collectively, these results indicate that the presence of Wigglesworthia in tsetse is critical for the maintenance of proline homeostasis through vitamin B₆ production.     

Effects of vitamin B6 deficiency on thymic epithelial cells and T lymphocyte differentiation.

Dietary vitamin B6 (pyridoxine) deficiency in young Lewis rats results in a reduction of T lymphocyte numbers and defects of cellular immunocompetence. In vitro studies of thymic epithelial (TE) cells, responsible for inducing T lymphocyte differentiation, revealed that maintenance on a vitamin B6 deficient diet for 2 weeks resulted in a severe defect in TE cell function. When the deficient animals were returned to a normal diet, TE cell function was restored. Exposure of lymphoid precursors from neonatally thymectomized or vitamin B6-deficient donors to normal TE monolayers resulted in their conversion to functional T lymphocytes, as measured by their response in MLR and to mitogens. However, TE monolayers from vitamin B6-deficient animals were unable to effect such a maturation of T lymphocytes. Therefore, it is suggested that the defect in cellular immunocompetence following this dietary deficiency is due, at least in part, to the inability of TE cells to effect the differentiation of T lymphocyte precursors to functional T lymphocytes. The dietary deficiency does not, however, impair lymphoid precursors, which can be stimulated to further differentiation by exposure to normal TE cell monolayers.     

The effect of dietary vitamin B6 on tissue fat contents and lipid composition in livers and gills of Atlantic salmon (Salmo salar)

Atlantic salmon (9 g) were fed a basal experimental diet supplemented with vitamin B₆ at 0, 5 and 10 mg/kg for 10 weeks. Vitamin b₆ unsupplemented fish showed reduced lipid contents in muscle, and reduced levels of 22:6n-3 and sum n-3 fatty acids in the hepatic phospholipids PE and PS. In gills, the fatty acid pattern was not influenced by the dietary vitamin B₆ contents. Desaturation and elongation of [1-¹⁴C]18:3n-3 in liver following intraperitoneal injection was not affected by dietary vitamin b₆. Liver weights, the hepatosomatic index and the activity of aspartate aminotransferase and concentration of vitamin B₆ in white muscle increased with increasing dietary vitamin B₆ levels, and were significantly highest in the highest supplemented fish.     

The influence of tyrosine, phenylpyruvate and vitamin B 6 upon seizure thresholds

Abstract— Thresholds to the first appearance of a myoclonic jerk and to the appearance of tonic-clonic seizures induced by the convulsant, hexafiuorodiethyl ether, were examined in immature rats at sequential time intervals following the administration of L-tyrosine, L-phenylalanine, Na-phenylpyruvate and several forms of vitamin B₆. l -Tyrosine failed to lower either seizure threshold even though plasma and brain levels of tyrosine exceeded those obtained with a dose of phenylalanine that was effective in lowering threshold. Na-phenylpyruvate lowered both seizure thresholds at a time that correlated with elevation of brain phenylalanine. Pyridoxine hydrochloride, pyridoxal-5′-phosphate and pyridoxamine phosphate all lowered both seizure thresholds. The time course and dose dependency of the effects of B₆ vitamers were examined; the effect of phenylalanine on seizure threshold was unrelated to derived tyrosine or phenylpyruvate and vitamin B₆ was not involved. The enhanced cerebral excitability following administration of B₆ vitamers is discussed.     

Interaction of thymus lymphocytes with histoincompatible cells. IV. Mixed lymphocyte reactions of activated thymus lymphocytes

CS7BL-activated CBA T cells (T.TDL) were obtained by thoracic duct cannulation of (CBA × C57BL)F₁ mice 4 days after heavy irradiation and injection of CBA thymus cells. T.TDL behaved differently from the TDL of normal CBA mice in unidirectional mixed lymphocyte culture in a number of respects: (a) the response of T.TDL was directed specifically against C57BL antigens, whereas normal TDL responded to both C57BL and BALB/c antigens; (b) the response of T.TDL was rapid but transient compared to that of TDL; (c) whereas only approximately 3% of TDL synthesized DNA specifically in response to C57BL antigens, as many as 25% of C57BL-activated T.TDL responded to these antigens. Evidence is presented which suggests that the T.TDL have a very limited capacity to proliferate. Most of the cells which responded to antigen synthesized DNA without subsequently entering mitosis.     

The nature of the requirement of Saccharomyces carlsbergensis for vitamin B6

Saccharomyces carlsbergensis 4228, an organism widely used for determination of vitamin B₆, grows well without this vitamin if thiamine is also omitted from the basal medium, and an inoculum grown in a thiamine-low medium is used. Thiamine inhibits growth when added to such a medium. The thiazole moiety of thiamine, but not the pyrimidine, is also inhibitory, but less so than thiamine itself.Growth inhibition by thiamine is prevented by vitamin B₆. At low concentrations of thiamine, the amount of vitamin B₆ required for growth increases with the thiamine concentration; at concentrations of thiamine above 1 μg./10 ml. the vitamin B₆ requirement for growth remains essentially constant. Since these higher concentrations of thiamine have been used in methods that utilize this organism for determination of vitamin B₆ (1,2), the validity of these methods is confirmed.In the presence of thiamine, growth was also permitted by additions of the thiamine antagonist, neopyrithiamine. In this case, however, the relationship was fully competitive; i.e., the amount of neopyrithiamine required for growth increased regularly with the thiamine concentration. At concentrations considerably higher than those required for growth, neopyrithiamine again inhibited growth, and this inhibition was prevented by an increase in the thiamine concentration. Thus neopyrithiamine acts by lowering the effective thiamine concentration to subinhibitory levels; if excessive amounts are used, it prevents essential metabolic functions of thiamine and itself becomes toxic. The mechanism by which vitamin B₆ prevents thiamine toxicity is not known.The appearance of a requirement for certain growth factors because of inhibitory effects of other metabolically important compounds, rather than because of an intrinsic inability of the organism to synthesize the growth factor, may be much more common than the few recorded instances of this phenomenon indicate.