Memantine Improves Memory and Neurochemical Damage in a Model of Maple Syrup Urine Disease

Maple Syrup Urine Disease (MSUD) is a metabolic disease characterized by the accumulation of branched-chain amino acids (BCAA) in different tissues due to a deficit in the branched-chain alpha-ketoacid dehydrogenase complex. The most common symptoms are poor feeding, psychomotor delay, and neurological damage. However, dietary therapy is not effective. Studies have demonstrated that memantine improves neurological damage in neurodegenerative diseases, such as Alzheimer's and Parkinson's diseases. Therefore, we hypothesize that memantine, an NMDA receptor antagonist can ameliorate the effects elicited by BCAA in an MSUD animal model. For this, we organized the rats into four groups: control group (1), MSUD group (2), memantine group (3), and MSUD + memantine group (4). Animals were exposed to the MSUD model by the administration of BCAA (15.8 µL/g) (groups 2 and 4) or saline solution (0.9%) (groups 1 and 3) and treated with water or memantine (5 mg/kg) (groups 3 and 4). Our results showed that BCAA administration induced memory alterations, and changes in the levels of acetylcholine in the cerebral cortex. Furthermore, induction of oxidative damage and alterations in antioxidant enzyme activities along with an increase in pro-inflammatory cytokines were verified in the cerebral cortex. Thus, memantine treatment prevented the alterations in memory, acetylcholinesterase activity, 2',7'-Dichlorofluorescein oxidation, thiobarbituric acid reactive substances levels, sulfhydryl content, and inflammation. These findings suggest that memantine can improve the pathomechanisms observed in the MSUD model, and may improve oxidative stress, inflammation, and behavior alterations.

Loss of the Drosophila branched-chain α-ketoacid dehydrogenase complex results in neuronal dysfunction

Maple syrup urine disease (MSUD) is an inherited error in the metabolism of branched-chain amino acids (BCAAs) caused by a severe deficiency of the branched-chain α-ketoacid dehydrogenase (BCKDH) complex, which ultimately leads to neurological disorders. The limited therapies, including protein-restricted diets and liver transplants, are not as effective as they could be for the treatment of MSUD due to the current lack of molecular insights into the disease pathogenesis. To address this issue, we developed a Drosophila model of MSUD by knocking out the dDBT gene, an ortholog of the human gene encoding the dihydrolipoamide branched chain transacylase (DBT) subunit of BCKDH. The homozygous dDBT mutant larvae recapitulate an array of MSUD phenotypes, including aberrant BCAA accumulation, developmental defects, poor mobile behavior and disrupted L-glutamate homeostasis. Moreover, the dDBT mutation causes neuronal apoptosis during the developmental progression of larval brains. The genetic and functional evidence generated by in vivo depletion of dDBT expression in the eye indicates severe impairment of retinal rhabdomeres. Further, the dDBT mutant shows elevated oxidative stress and higher lipid peroxidation accumulation in the larval brain. Therefore, we conclude from in vivo evidence that the loss of dDBT results in oxidative brain damage that may lead to neuronal cell death and contribute to aspects of MSUD pathology. Importantly, when the dDBT mutants were administrated with Metformin, the aberrances in BCAA levels and motor behavior were ameliorated. This intriguing outcome strongly merits the use of the dDBT mutant as a platform for developing MSUD therapies.This article has an associated First Person interview with the joint first authors of the paper.

Melatonin ameliorates oxidative stress and DNA damage of rats subjected to a chemically induced chronic model of Maple Syrup Urine Disease

Maple Syrup Urine Disease (MSUD) is an inborn error of metabolism caused by a deficiency of branched α-ketoacid dehydrogenase complex (BCKDC) activity. Branched-chain amino acids (BCAA) accumulation is, at least in part, responsible for neurological disturbances characteristic of this metabolic disorder. Experimental studies demonstrated that high levels of BCAA induce brain oxidative stress. Considering that many antioxidants are obtained from the diet, the dietary restriction in MSUD patients probably produce deficiency of vitamins and micronutrients involved in antioxidant defenses. Supplementation with synthetic melatonin has been used to prevention and treatment of pathological conditions, including brain diseases. In this study, we aimed at investigating the potential neuroprotective effect of melatonin treatment in a MSUD experimental model. Infant rats (7 day old) received twice daily subcutaneous injections of a BCAA pool (0.21472 g/kg, 190 mmol/L leucine, 59 mmol/L isoleucine and 69 mmol/L valine in saline solution (15.8 µL/g per weight/injection) or saline alone, and supplemented with melatonin (10 mg/kg, intraperitoneal) for 21 days. Oxidative stress parameters, i.e. antioxidant enzyme activity, reactive species production and damage to lipids and proteins, were assessed in the cerebral cortex, hippocampus and striatum at twenty-eight days of age. In addition, the damage to blood cell DNA was evaluated. The chronic administration of BCAA pool in infant rats induced significant oxidative stress (p < 0.05) - such as oxidation of lipids and proteins, imbalance in antioxidant enzymes activities - damages in DNA (p < 0.05) and in brain structures (cerebral cortex, hippocampus and striatum). Notably, melatonin supplementation was able to ameliorate the oxidative (p < 0.05) and antioxidant (p < 0.05) parameters in the brain and blood of the rat model of MSUD. Our results show that melatonin could be a promising therapeutic agent for MSUD.

Investigation of inflammatory profile in MSUD patients: benefit of L-carnitine supplementation

Maple Syrup Urine Disease (MSUD) is a metabolic disorder caused by a severe deficiency of the branched-chain α-keto acid dehydrogenase complex activity which leads to the accumulation of branched-chain amino acids (BCAA) leucine (Leu), isoleucine and valine and their respective α-keto-acids in body fluids. The main symptomatology presented by MSUD patients includes ketoacidosis, failure to thrive, poor feeding, apnea, ataxia, seizures, coma, psychomotor delay and mental retardation, but, the neurological pathophysiologic mechanisms are poorly understood. The treatment consists of a low protein diet and a semi-synthetic formula restricted in BCAA and supplemented with essential amino acids. It was verified that MSUD patients present L-carnitine (L-car) deficiency and this compound has demonstrated an antioxidant and anti-inflammatory role in metabolic diseases. Since there are no studies in the literature reporting the inflammatory profile of MSUD patients and the L-car role on the inflammatory response in this disorder, the present study evaluates the effect of L-car supplementation on plasma inflammatory cytokines interleukin-1β (IL-1β), interleukin-6 (IL-6), interferon-gamma (INF-ɣ), and a correlation with malondialdehyde (MDA), as a marker of oxidative damage, and with free L-car plasma levels in treated MSUD patients. Significant increases of IL-1β, IL-6, and INF-ɣ were observed before the treatment with L-car. Moreover, there is a negative correlation between all cytokines tested and L-car concentrations and a positive correlation among the MDA content and IL-1β and IL-6 values. Our data show that L-car supplementation can improve cellular defense against inflammation and oxidative stress in MSUD patients and may represent an additional therapeutic approach to the patients affected by this disease.

DNA damage in an animal model of maple syrup urine disease

Maple syrup urine disease is an inborn error of metabolism caused by a severe deficiency of the branched chain alpha-ketoacid dehydrogenase complex. Neurological dysfunction is a common finding in patients with maple syrup urine disease. However, the mechanisms underlying the neuropathology of brain damage in this disorder are poorly understood. In this study, we investigated whether acute or chronic administration of a branched chain amino acid pool (leucine, isoleucine and valine) causes transient DNA damage, as determined by the alkaline comet assay, in the brain and blood of rats during development and whether antioxidant treatment prevented the alterations induced by branched chain amino acids. Our results showed that the acute administration of branched chain amino acids increased the DNA damage frequency and damage index in the hippocampus. However, the chronic administration of branched chain amino acids increased the DNA damage frequency and damage index in both the hippocampus and the striatum, and the antioxidant treatment was able to prevent DNA damage in the hippocampus and striatum. The present study demonstrated that metabolite accumulation in MSUD induces DNA damage in the hippocampus and striatum and that it may be implicated in the neuropathology observed in the affected patients. We demonstrated that the effect of antioxidant treatment (N-acetylcysteine plus deferoxamine) prevented DNA damage, suggesting the involvement of oxidative stress in DNA damage.

Dihydrolipoamide dehydrogenase (DLD) deficiency in a Spanish patient with myopathic presentation due to a new mutation in the interface domain

We present a 32-year-old patient who, from age 7 months, developed photophobia, left-eye ptosis and progressive muscular weakness. At age 7 years, she showed normal psychomotor development, bilateral ptosis and exercise-induced weakness with severe acidosis. Basal blood and urine lactate were normal, increasing dramatically after effort. PDHc deficiency was demonstrated in muscle and fibroblasts without detectable PDHA1 mutations. Ketogenic diet was ineffective, however thiamine gave good response although bilateral ptosis and weakness with acidosis on exercise persisted. Recently, DLD gene analysis revealed a homozygous missense mutation, c.1440 A>G (p.I480M), in the interface domain. Both parents are heterozygous and DLD activity in the patient's fibroblasts is undetectable. The five patients that have been reported with DLD-interface mutations suffered fatal deteriorations. Our patient's disease is milder, only myopathic, more similar to that due to mutation p.G229C in the NAD(+)-binding domain. Two of the five patients presented mutations (p.D479V and p.R482G) very close to the present case (p.I480M). Despite differing degrees of clinical severity, all three had minimal clues to DLD deficiency, with occasional minor increases in α-ketoglutarate and branched-chain amino acids. In the two other patients, hypertrophic cardiomyopathy was a significant feature that has been attributed to moonlighting proteolytic activity of monomeric DLD, which can degrade other mitochondrial proteins, such as frataxin. Our patient does not have cardiomyopathy, suggesting that p.I480M may not affect the DLD ability to dimerize to the same extent as p.D479V and p.R482G. Our patient, with a novel mutation in the DLD interface and mild clinical symptoms, further broadens the spectrum of this enzyme defect.

The first use of N-carbamylglutamate in a patient with decompensated maple syrup urine disease

Maple syrup urine disease (MSUD) is a defect in the catabolism of the branched-chain amino acids; leucine, isoleucine, and valine. Affected patients may also develop hyperammonaemia of unknown etiology. This report describes a four-year-old girl with MSUD, who presented with decompensated hyperleucinaemia with hyperammonaemia. The oral administration of the N-acetylglutamate analogue, N-carbamylglutamate (NCG), 200 mg/kg/day as a loading dose, and 100 mg/kg/day as a maintenance dose, in combination with standard therapy resulted in a significant decrease of plasma ammonia levels. This observation suggests that NCG may be an important adjunct to standard therapy in the management of decompensated MSUD patients with high leucine and ammonia levels. Supportive evidence from either randomized controlled trials or a large prospective cohort study is needed to confirm this interesting finding.

Sensory-motor polyneuropathy occurring in variant maple syrup urine disease

Maple syrup urine disease (MSUD; OMIM 248600) results from an inherited deficiency of the branched-chain ketoacid dehydrogenase (BCKD) complex. Approximately 20% of patients with BCKD deficiency are non-classic variants of MSUD with differing clinical severity. Outcomes for this cohort are generally favourable; episodes of metabolic decompensation do not appear to correlate with adverse events if acute management is promptly provided. A case of predominantly axonal sensory-motor neuropathy following metabolic decompensation which persisted for a number of months is presented in an adolescent girl with variant (intermediate type) MSUD. EMG and nerve conduction studies suggested a pre-existent asymptomatic chronic neuropathy, exacerbated by the acute decompensation. Peak leucine concentration at decompensation was 1083 μmol/L. The patient had laboratory signs of secondary mitochondrial respiratory chain dysfunction at presentation. She had been on a moderate dose of thiamine prior to decompensation; thiamine and pyridoxine blood concentrations were normal. This, to our knowledge, is the first report of a neuropathy presenting in a patient with a decompensation of variant MSUD. We propose that this presentation resembles the intermittent neuropathy observed in pyruvate dehydrogenase deficiency and may reflect secondary inhibition of pyruvate dehydrogenase activity by MSUD metabolites.

Maple syrup urine disease: diffusion MRI, and proton MR spectroscopy findings

A 7-month-old boy is reported with acute metabolic crisis of maple syrup urine disease. A reversible intramyelinic type of edema was noted by diffusion MRI which completely resolved in 3 months in accordance with good clinical outcome. Proton MR spectroscopy revealed decreased NAA, and presence of methyl resonances of branched chain amino acids at 0.9 ppm, and lactic acid in the initial examination. After 3 months, NAA returned to normal, and lactic acid disappeared. The methyl resonance of branched chain amino acids, however, remained.

Lessons from genetic disorders of branched-chain amino acid metabolism

Genetic disorders of BCAA metabolism produce amino acidopathies and various forms of organic aciduria with severe clinical consequences. A metabolic block in the oxidative decarboxylation of BCAA caused by mutations in the mitochondrial branched-chain alpha-keto acid dehydrogenase complex (BCKDC) results in Maple Syrup Urine Disease (MSUD) or branched-chain ketoaciduria. There are presently five known clinical phenotypes for MSUD, i.e., classic, intermediate, intermittent, thiamin-responsive, and dihydrolipoamide dehydrogenase (E3)-deficient, based on severity of the disease, response to thiamin therapy, and the gene locus affected. Reduced glutamate, glutamine, and gamma-aminobutyrate concentrations induced by the accumulation of branched-chain alpha-ketoacids in the brain cortex of affected children and neonatal polled Hereford calves are considered the cause of MSUD encephalopathies. The long-term restriction of BCAA intake in diets and orthotopic liver transplantation have proven effective in controlling plasma BCAA levels and mitigating some of the above neurological manifestations. To date, approximately 100 mutations have been identified in four (branched-chain alpha-ketoacid decarboxylase/dehydrogenasealpha [E1alpha], E1beta, dihydrolipoyl transacylase [E2], and E3) of the six genes that encode the human BCKDC catalytic machine. We have documented a strong correlation between the presence of mutant E2 proteins and the thiamin-responsive MSUD phenotype. We show that the normal E1 component possesses residual decarboxylase activity, which is augmented by the binding to a mutant E2 protein in the presence of the E1 cofactor thiamin diphosphate. Our results provide a biochemical model for the effectiveness of thiamin therapy to thiamin-responsive MSUD patients.

A new protein substitute for adolescents and adults with maple syrup urine disease (MSUD)

AIM

The aim was to study the efficacy and acceptability of MSUD Express in adolescent and adult patients with maple syrup urine disease (MSUD).

BACKGROUND

There are difficulties associated with current protein substitutes designed for adolescents and adults with MSUD. This can affect their metabolic control. MSUD Express is a new low-volume, nutritionally complete protein substitute, free from leucine, isoleucine and valine and designed specifically for older patients with MSUD.

METHODS

Four patients with MSUD were included in the trial (aged 16-41 years). Product dosage was 4 x 25 g sachets per day, providing 1264 kJ and 72 g amino acids: more than adequately meeting requirements for all micronutrients.

RESULTS

At the start of the study, the mean (range) of the previous eight leucine concentrations (on MSUD Aid III) was 564 micromol/L (430-817 micromol/L) and during the study (on MSUD Express) was 382 micromol/L (181-603 micromol/L). The average percentage fall in mean leucine concentrations was 32%. In patients 2, 3 and 4, low leucine levels resulted in an increase in the natural protein allowance per day. MSUD Express was rated as 'excellent' or 'good' by all patients on the basis of appearance, taste, smell and texture. All patients found the product 'very easy' to prepare and found it 'easy' or 'very easy' to take outside the home.

CONCLUSION

All patients thought the preparation of MSUD Express was 'very easy'. Metabolic control (mean leucine concentrations) improved in all of the patients. In three patients this meant that an increase in the amount of natural protein in the diet was possible. All patients elected to stay on MSUD Express after the trial period. MSUD Express appears to be an effective and acceptable product, offering an alternative to current protein substitutes available for older people with MSUD.

Treatment of the acute crisis in maple syrup urine disease

BACKGROUND

The acute crisis of metabolic decompensation in maple syrup urine disease is a potentially lethal medical emergency that requires reduction in concentrations of leucine and other branched-chain amino acids in plasma. Experience with intravenous mixtures of amino acids indicates that this can be accomplished by the synthetic forces of protein synthesis. However, these intravenous mixtures are not generally available.

OBJECTIVE

To develop enteral mixtures suitable for administration by nasogastric drip in minimal volume.

DESIGN

Mixtures of amino acids were designed containing no leucine, isoleucine, or valine for administration by nasogastric drip. Needs for water and calories were to be met intravenously. They were designed to be used in the management of the acute crisis.

SETTING

Inpatient pediatric service.

PATIENTS

Two patients with maple syrup urine disease. Data were collected during the management of 3 episodes of metabolic imbalance.

INTERVENTION

Studies were carried out for 4 to 11 days, during which there was no intake of leucine. Four different mixtures were used and a fifth was designed on the basis of this experience.

MAIN OUTCOME MEASURES

Effects on the concentrations of leucine and the other branched-chain amino acids. Clinical status closely mirrored the concentration of leucine.

RESULTS

In each instance, a progressive fall in leucine concentration was obtained. Rates of fall were comparable to those obtained with intravenous therapy. Concentrations of isoleucine fell to levels that made this amino acid limiting for protein synthesis and hence therapeutic effect. This led to greater and earlier supplementation with isoleucine. Valine supplementation was also useful.

CONCLUSIONS

The acute crisis of metabolic imbalance in maple syrup urine disease may be effectively treated by the continuous intragastric drip of solutions of amino acids devoid of leucine along with provision of water and calories intravenously.

Clinical consequences of disorders in the intermediate metabolism of branched chain amino acids (valine, leucine and isoleucine)

Assays of the amino acid levels in 5,888 newborns and 20 subjects ranging in age from 1 to 20 years, suspected of metabolic diseases, revealed a case of "maple syrup urine disease" caused by disorders in the intermediate metabolism of valine, whose serum and urinary concentrations were followed up from the first days of life. This patient also showed frequent episodes of hypoglycemia. An early treatment with polyvitamins, minerals and trace elements for 18 months resulted in the partial reactivation of the deficient enzymatic systems and the return to normal of the serum and urinary valine and glucose values. Administration of the same treatment to patients over one year of age, showing clinical and biochemical data characteristic to the same disease, was much less effective, thus supporting the conclusion that the vitamins and minerals could be useful in the "maple syrup urine disease" only if they were administered immediately after the disease onset. The correlation index between the serum and urinary valine levels before and after therapy was +0.976 and +0.994, respectively.

Thiamin-responsive maple syrup urine disease in a patient antigenically missing dihydrolipoamide acyltransferase

Maple syrup urine disease results from inherited defects in human nuclear genes for branched chain alpha-ketoacid dehydrogenase, a mitochondrial multienzyme complex. Thiamin pyrophosphate is necessary for complex activity and a thiamin-responsive form of maple syrup urine disease is known. Here we demonstrate the use of [1-13C]leucine oxidation to [13C]O2 quantified in breath samples as a means of assessing whole body leucine oxidation. Analysis of cultured cells from this patient shows the antigenic lack of the E2 subunit, yet she gained branched chain alpha-ketoacid dehydrogenase activity in response to diet supplementation with pharmacologic doses of thiamin. These cultured cells were used to seek a molecular basis for the observed thiamin response. Despite normal thiamin transport in these cells, medium supplementation of up to 1000 thiamin/liter failed to increase complex activity or cause the antigenic appearance of the missing protein. This lack of response in cultured cells suggests that the observed whole body response to thiamin must be a tissue-specific effect in liver, muscle, or kidney. In addition, allele-specific detection of paternal and maternal mutations was used to genotype family members in this pedigree.

Case reports of successful pregnancy in women with maple syrup urine disease and propionic acidemia

We report on 2 women with organic acidemias, one with classical maple syrup urine disease and another with mild propionic acidemia in which protein restricted diets and carnitine supplementation were successfully employed to manage pregnancies. Healthy infants were delivered without maternal metabolic decompensation.

A 17-bp insertion and a Phe215----Cys missense mutation in the dihydrolipoyl transacylase (E2) mRNA from a thiamine-responsive maple syrup urine disease patient WG-34

We have amplified the cDNA for the transacylase (E2) subunit of the branched-chain alpha-ketoacid dehydrogenase (BCKAD) complex from a thiamine-responsive MSUD cell line (WG-34) by the polymerase chain reaction. Sequencing of the amplified WG-34 cDNA showed a 17-bp insertion (AAATACCTTGTTACCAG) apparently resulting from an aberrant splicing of the E2 gene, and a missense (T----G) mutation that changes Phe215 to Cys in the E2 subunit. The existence of these two mutations was confirmed by probing the amplified E2 cDNA or genomic DNA with allele-specific oligonucleotides. The above results support the thesis that the thiamine-responsive MSUD patient (WG-34) is a compound heterozygote at the E2 locus. The implication of the E2 mutations for the thiamine-responsiveness observed in this patient is discussed.

Thiamine response in maple syrup urine disease

We measured the biochemical response for four patients with maple syrup disease to pharmacologic doses of thiamine, and correlated their response to their branched chain alpha-ketoacid dehydrogenase activity. We observed a linear correlation between the concentrations of each plasma branched-chain amino acid and its corresponding ketoacid analogue. In addition, the renal tubular reabsorption of branched-chain amino and ketoacids was nearly complete within these physiologic concentrations. Three children responded to thiamine therapy with a reduction in concentration of plasma and urinary branched-chain amino and ketoacids. Each responder had at least 5% activity for branched chain alpha-ketoacid dehydrogenase in their mononuclear blood cells and in whole cell fibroblasts from cultured skin when compared to the activity in normal control cells. We propose that each child with maple syrup urine disease be assessed for their response to thiamine by quantifying the concentration of branched-chain amino acids in plasma before and after vitamin supplementation.

Thiamine-responsive inborn errors of metabolism

Three different inherited disorders are known in which thiamine may exert a beneficial effect: maple syrup urine disease (MSUD), lactic acidaemia and the syndrome of megaloblastic anaemia with sensorineural deafness and diabetes mellitus. The amounts of thiamine which were used for long-term treatment varied from 20 to 2400 mg day-1. Additional treatment, such as the reduction of dietary branched chain amino acids in MSUD, could not be omitted in some cases. It has been shown that the vitamin improves the stability of the branched chain ketoacid decarboxylase, although some weeks may be needed to observe the in vivo effect of treatment. A prolonged trial with high doses of thiamine should always be given.

[3 patients with maple syrup urine disease]

Clinical manifestations, biochemistry and treatment of three patients with the inherited alteration of the so called maple syrup urine disease are presented. Diagnosis was based upon both detection of high concentrations of leucine, isoleucine, valine and their corresponding alpha-ketoacids in plasma and urine, and existence of a peculiar odor as well as an intense, progressive, neurological alteration. Considering the early onset of clinical symptoms, low protein tolerance and very reduced rate of leucine decarboxylation in cultured fibroblasts, the three patients exhibited grade I, classical type of this disease. None of them responded favorably to suprapharmacological doses of thiamine. Treatment of the patients is discussed and compared with that recommended in the literature.

Maple syrup urine disease--therapeutic use of insulin in catabolic states

High and neurotoxic blood levels of leucine and its ketoanalogue develop in catabolic patients with maple syrup urine disease. The use of relatively high doses of insulin and additional glucose had a more pronounced effect on lowering leucine (and alpha-ketoisocaproate) blood levels than dietary elimination of leucine alone. This is demonstrated in 2 neonates after blood exchange transfusion and in one 4-months old patient suffering from febrile diarrhea.

Selenium supplementation: plasma glutathione peroxidase an indicator of selenium intake

Plasma glutathione peroxidase activity is markedly reduced in dietetically treated patients with PKU or MSUD in comparison to health children of the same age. This is due to the low selenium content of their diet. During supplementation with yeast rich in selenium (200 micrograms selenium per day) for 3 months 2 healthy adults did not show any significant change of their plasma GSHPx activity. 5 dietetically treated patients with PKU or MSUD and a reduced selenium state showed a rapid increase of the plasma GSHPx activity after selenium supplementation were started with 120 micrograms Se/m2 x d. The values doubled within the first two days and reached a plateau after 1--3 weeks. The patients showed no clinical anomalities before or during the selenium supplementation besides the inherited defect of amino acid metabolism. Plasma GSHPx activity seems to be a good indicator of short-term changes of selenium intake in patients with reduced selenium state.

Thiamin-responsive maple-syrup-urine disease: decreased affinity of the mutant branched-chain alpha-keto acid dehydrogenase for alpha-ketoisovalerate and thiamin pyrophosphate

The biochemical basis for the therapeutic effects of thiamin in thiamin-responsive maple-syrup-urine disease (MSUD) was investigated in intact and disrupted fibroblast cultures from normals and patients with various forms of MSUD. Decarboxylation of alpha-keto[1-14C]isovalerate (KIV) by intact cells from a thiamin-responsive MSUD patient was at 30-40% of the normal rate with or without thiamin in the incubation medium. Under similar conditions, intact classical MSUD fibroblasts failed to decarboxylate KIV. Branched-chain alpha-keto acid (BCKA) dehydrogenase activity measured in disrupted cells from the thiamin-responsive subject showed sigmoidal kinetics in the absence of thiamin pyrophosphate (TPP), with an increased concentration of substrate needed for half-maximal velocity (K0.5 for KIV = 7 mM vs. 0.05 mM in normal cells). When assayed with 0.2 mM TPP present, the mutant enzyme showed (i) a shift in kinetics to near Michaelis-Menten type as observed with the normal BCKA dehydrogenase and (ii) a lower K0.5 value of 4 mM for KIV, suggesting a TPP-mediated increase in the mutant enzyme's affinity for substrate. By contrast, TPP increased only the Vmax and was without effect on the apparent Km for KIV of the BCKA dehydrogenase from cells of normals and patients with classical MSUD and variant thiamin-responsive MSUD (grade 3). Measurement of the apparent Km for TPP of the BCKA dehydrogenase from thiamin-responsive mutant MSUd cells showed a 16-fold increase in the constant to 25 microM compared to enzymes from normal or classical MSUD cells. These findings demonstrate that the primary defect in the thiamin-responsive MSUD patient is a reduced affinity of the mutant BCKA dehydrogenase for TPP that results in impaired oxidative decarboxylation of BCKA.

Biochemical basis of thiamin-responsive maple syrup urine disease

The biochemical basis for the therapeutic effects of thiamin in thiamin-responsive MSUD was investigated in intact and disrupted fibroblast cultures from normal subjects and patients with various forms of MSUD. Decarboxylation of [1-14C]KIV by intact cells from thiamin-responsive MSUD was at 30-40% of the normal rate with or without thiamin in the incubation medium. Under similar conditions, intact classical MSUD fibroblasts failed to decarboxylate KIV. BCKA dehydrogenase activity measured in disrupted cells from the thiamin-responsive subject exhibited sigmoidal kinetics in the absence of TPP with an elevated Km value of 7 mM for KIV. When assayed with 0.2 mM TPP present, the mutant enzyme showed a shift in kinetics to near Michaelis-Menten type as observed with the normal BCKA dehydrogenase, and a lower Km value of 4 mM for KIV, suggesting a TPP-mediated increase in the affinity of the mutant enzyme for substrate. By contrast, TPP increased only Vmax and was without effect on the apparent Km for KIV of BCKA dehydrogenase from normal subjects, classical MSUD, and a thiamin-non-responsive MSUD variant (Grade 3). Measurement of apparent Km for TPP of the BCKA dehydrogenase showed a 16-fold increase in the constant to 25 microM for the thiamin-responsive mutant compared to normal or classical MSUD enzymes. These findings demonstrate that the primary defect in the thiamin-responsive MSUD patient is a reduced affinity of the mutant BCKA dehydrogenase for TPP that results in impaired oxidative decarboxylation of BCKA.

Selenium requirements in patients with inborn errors of amino acid metabolism and selenium deficiency

The diets of 5 patients with phenylketonuria of maple-syrup-urine disease were supplemented with yeast which was rich in selenium. For 120 days the patients received 45 micrograms Se/day to increase the Se content of their diets to 10--12 ng Se/Kjoule. Before supplementation the selenium content of serum (5--15 ng/ml) and whole blood (10--27 ng/ml), and the activity of the erythrocyte glutathione peroxidase (0.19--2.69 U37/g Hb), amounted to only 10--20% of normal. The serum selenium content reached normal values within 4 weeks of supplementation, followed by normalisation of the selenium content of whole blood within 4--8 weeks. Restoration of the activity of erythrocyte glutathione peroxidase took 9 to 15 weeks--the red cell life span. There was a significant positive correlation between the selenium content of the erythrocytes and the activity of erythrocyte glutathione peroxidase.

Effects of thiamine in a patient with a variant form of branched-chian ketoaciduria

A boy with the intermediate variant of branched-chain ketoaciduria was studied. Treatment with an amino acid mixture was discontinued at the age of 7.5 years. Reintroduction of normal protein-containing foods precipitated the biochemical abnormalities, characteristic of MSUD, which were relieved by 10 mg thiamine/day. Adaptation to this regiment developed and thiamine intake was increased to 100 mg/day, later to 1 000 mg/day. The patient developed well and had no attacks of ketoacidosis. 1-14C-leucine degradation in intact fibroblasts was 15% of controls and did not increase upon addition of thiamine to the incubation medium.