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Enzyme
Compound
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Query: UMLS:C0026827 (
hypotonia
)
5,860
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Congenital methylmalonic aciduria (MMA) is a metabolic disorder inherited by an autosomal recessive trait. The metabolic block is located in the catabolic pathway of propionyl-CoA to succinyl-CoA. Biochemically, four enzymatic defects have been recognized, i.e.: 1. Methylmalonyl-CoA racemase. 2. Methylmalonyl-CoA mutase apoenzyme. 3. Synthesis of desoxyadenosyl-cobalamine. 4. Disturbance at an earlier level of cobalamine metabolism which causes defective synthesis of both vitamin B12-coenzymes. These four enzymatic defects express themselves in three ways: non-vitamin B12-dependent MMA (defects 1 and 2); vitamin B12-dependent MMA (defect 3); MMA associated with homocystinuria (defect 4). The various forms of MMA cannot be distinguished clinically from one another. The disorder manifests itself during the first few days to weeks of life. Principal symptoms and signs are: anorexia, vomiting, muscular
hypotonia
and metabolic acidosis. The diagnosis is established by determination of methylmalonic acid in plasma, cerebrospinal fluid and urine, as well as by assay of enzyme activities in leukocytes, liver tissue or cultured fibroblasts (from biopsied skin). A prenatal diagnosis is feasible by the examination of cultured amnion cells, amniotic fluid and maternal urine. Therapy of non vitamin B12-dependent MMA calls for reduction of protein intake, particularly that of precursors of methylmalonic acid, such as methionine, threonine,
isoleucine
and valine. The treatment of vitamin B12-dependent forms is accomplished by i.m. injection of high doses of vitamin B12. No definite statement can be made as yet with regard to long-term prognosis and normalcy of mental development in treated children.
...
PMID:[Methylmalonic aciduria. Classification, diagnosis and therapy (author's transl)]. 31 93
Bejar et al. described increased concentrations of valine, leucine and
isoleucine
in the plasma of 2 patients with cerebral gigantism (Sotos-syndrome). We have recently investigated a group of 14 children with Sotos-syndrome. The data of the plasma amino-acid determinations were compared with those of aged-matched healthy controls, 9 children with benign muscular
hypotonia
, 10 children with Down's syndrome and finally with those of 13 children with familial tall stature. The mean concentration of serine, glutamic acid, valine,
isoleucine
, leucine and phenylalanine was lower in the patients with Sotos-syndrome when compared to the healthy control group. However, all patients with benign muscular
hypotonia
and Down's syndrome showed increased concentrations of proline, glycine, alanine, ornithine and lysine in the plasma whereas the mean values of the children with familial tall stature differed only slightly from those of the controls. The levels of the plasma-aminoacids in patients with Sotos-syndrome were only slightly different from those in patients with muscular
hypotonia
, but generally lower than in tall children. We conclude that the determination of plasma-aminoacids is of no value in the diagnosis of Sotos-syndrome.
...
PMID:[Amino acids in plasma of patients with cerebral gigantism (Sotos syndrome) (author's transl)]. 645 99
Maple Syrup Urine Disease (branched-chain alpha-ketoacid dehydrogenase deficiency) in a neonate who was too ill to feed was successfully treated with total parenteral nutrition which promoted protein synthesis thereby allowing accumulated branched-chain amino acids to be incorporated into body protein. Total parenteral nutrition was initiated after the patient was unable to continue nasogastric feeding and peritoneal dialysis had failed due to the patient's
hypotonia
. A special total parenteral nutrition mixture lacking leucine,
isoleucine
, and valine was supplemented with Intralipid to provide an average of 125 kcal/kg/day. Nitrogen balance documented a normal nitrogen retention rate of 185 mg N/kg/day. The various branched-chain amino acids were added individually to the intravenous solution as the plasma concentration of each decreased. The intake of the branched-chain amino acids (
isoleucine
65 mg/kg/day, valine 78 mg/kg/day, and leucine 159 mg/kg/day) was approximately two-thirds of that of the normal breast-fed infant, equivalent to the normal rate of incorporation of these essential amino acids into protein. Total parenteral nutrition achieves and sustains branched-chain amino acids removal efficiently with fewer risks than multiple exchange transfusions or peritoneal dialysis. A combination of total parenteral nutrition with one of these alternative modes of therapy may be most useful in the acutely toxic patient
...
PMID:Total parenteral nutrition therapy of toxic maple syrup urine disease. 680 24
A boy, aged 7 months, of consanguineous parents presented with an acute onset of vomiting, fever, nonketotic hypoglycemia and acidosis and died from cardiac arrest after ventricular fibrillation. He had hepatomegaly and echocardiographically a non-obstructive cardiomyopathy. Autopsy was not allowed. After birth the child had suffered from a severe respiratory distress syndrome, transient metabolic acidosis and had a sweaty feet odour. Later on, development was retarded with a severe muscular
hypotonia
. Post mortem, numerous unusual organic acids were found in high concentrations in urine, e.g. dicarbonic acids, 2-hydroxyisobutyric, isovaleric, 3-hydroxyisovaleric acid, N-acyl glycines, isovalerylglutamic acid and sarcosine. This pattern indicated deficiencies of several acyl-Co A dehydrogenases in the metabolism of leucine,
isoleucine
, valine, lysine, short-chain fatty acids and sarcosine. This could be confirmed using cultured skin fibroblasts which were shown to degrade the corresponding labeled substrates insufficiently to 14CO2. It is assumed that the functional multiple acyl-Co A dehydrogenation deficiency is caused by a deficiency of a common link in the electron transfer system of these dehydrogenases which is inherited autosomal recessively in this family. Among the 12 patients reported, 7 died within the first 5 days of age.
...
PMID:Multiple acyl-Co A dehydrogenation deficiency (MADD) in a boy with nonketotic hypoglycemia, hepatomegaly, muscle hypotonia and cardiomyopathy. Detection of N-isovalerylglutamic acid and its monoamide. 686 97
A 15-month-old girl with propionic acidemia presented a failure to thrive and muscular
hypotonia
, who had been treated with diets low in leucine, valine,
isoleucine
, threonine and methionine. Supplementation with leucine gave her a catch up growth and brought about an improvement in muscular
hypotonia
in parallel with restoration of plasma leucine which had been below normal range during the treatment with the above diets. Oral loading test of leucine produced no ketoacidosis. These findings indicate that the restriction of leucine is not necessary in the dietary management of propionic acidemia.
...
PMID:Dietary therapy in a girl with propionic acidemia: supplement with leucine resulted in catch up growth. 686 77
Ethylmalonic encephalopathy (EE), an organic aciduria of unknown etiology characterized by developmental delay,
hypotonia
, and vascular instability associated with lactic acidemia and urinary excretion of ethylmalonic acid (EMA) and methylsuccinic acid (MSA), has been described in 11 patients. To test the possibility that the underlying biochemical defect involves
isoleucine
catabolism, we determined the response to oral L-
isoleucine
(IIe) load (150 mg/kg) in a 5-year-old girl with EE and in three healthy, age- and sex-matched controls. Following IIe load in the patient, there was accumulation of 2-methylbutyrylglycine (2-MBG) and a delayed and lower peak urinary excretion of tiglylglycine (TGL), suggesting a partial defect in 2-methyl-branched chain acylcoenzyme A dehydrogenase (2M-BCAD). In vitro measurements 2M-BCAD activity in cultured skin fibroblasts from patients with EE have been reported to be normal. Our results show that
isoleucine
is a source for the elevated EMA and MSA in patients with EE, and suggest a functional, possibly secondary, deficiency of activity of 2M-BCAD in vivo.
...
PMID:Ethylmalonic and methylsuccinic aciduria in ethylmalonic encephalopathy arise from abnormal isoleucine metabolism. 966 31
The clinical phenotype and the molecular defect of a patient with a new subtype of congenital disorders of glycosylation (CDG-Ic, formerly designated as CDGS type V) characterized by a deficiency of Dol-P-Glc: Man9GlcNAc2-PP-Dol glucosyltransferase is described. The clinical picture presents with several features similar to CDG-Ia (phosphomannomutase 2 deficiency) such as
hypotonia
and atactic-dystonic movements. In contrast to CDG-Ia, the course of the disease appears milder. The head growth, the functioning of the peripheral nerves and the initial cerebellar development were normal. Sequencing of the patient's Dol-P-Glc: Man9GlcNAc2-PP-Dol glucosyltransferase cDNA revealed an in-frame deletion of three nucleotides leading to the loss of
isoleucine
299.
...
PMID:Congenital disorder of glycosylation-Ic: case report and genetic defect. 1083 77
We report a novel inborn error of metabolism identified in a child with an unusual neurodegenerative disease. The male patient was born at term and recovered well from a postnatal episode of metabolic decompensation and lactic acidosis. Psychomotor development in the first year of life was only moderately delayed. After 14 mo of age, there was progressive loss of mental and motor skills; at 2 years of age, he was severely retarded with marked restlessness, choreoathetoid movements, absence of directed hand movements, marked
hypotonia
and little reaction to external stimuli. Notable laboratory findings included marked elevations of urinary 2-methyl-3-hydroxybutyrate and tiglylglycine without elevation of 2-methylacetoacetate, mild elevations of lactate in CSF and blood, and a slightly abnormal acylcarnitine profile. These abnormalities became more apparent after
isoleucine
challenge. Enzyme studies showed absent activity of 2-methyl-3-hydroxybutyryl-CoA dehydrogenase (MHBD) in the mitochondrial oxidation of 2-methyl branched-chain fatty acids and
isoleucine
. Under dietary
isoleucine
restriction, neurologic symptoms stabilized over the next 7 months.
...
PMID:Progressive infantile neurodegeneration caused by 2-methyl-3-hydroxybutyryl-CoA dehydrogenase deficiency: a novel inborn error of branched-chain fatty acid and isoleucine metabolism. 1110 58
A 12-month-old boy diagnosed with propionic acidemia underwent gastrostomy. The patient's general state was good and he was alert, but with reduced muscular tone (unstable when seated with support, floppy head) and with dystonic movements in all extremities. An electroencephalogram showed slightly slowed brain activity. The patient was being treated with a low protein diet, phenobarbital, L-carnitine, L-
isoleucine
, and biotin. Surgery was carried out in satisfactory conditions with general anesthesia without opioids combined with infiltration of the surgical wound with local anesthetic. Recovery from anesthesia was rapid and free of complications. Propionic acidemia is caused by mitochondrial propionyl coenzyme carboxylase deficiency. Most patients have episodes of severe metabolic ketoacidosis as a result of excessive protein intake, delayed development, vomiting, gastroesophageal reflux, lethargy,
hypotonia
, and convulsions. The anesthetic approach involves avoiding triggers of metabolic acidosis (such as fasting, dehydration, hypoxemia, and hypotension) and preventing airway complications. Agents that metabolize propionic acid (such as succinylcholine, benzylisoquinoline neuromuscular blocking agents, and propofol) are not used, as they can exacerbate acidemia. We also believe that using local or regional anesthesia in combination with general anesthesia without opiates is safe and effective for controlling pain during surgery and postoperative recovery, as that combination avoids respiratory depression in these patients, who are highly sensitive to opiates.
...
PMID:[Infant boy with propionic acidemia: anesthetic implications]. 1620 Sep 24
N-terminal acetylation of proteins is a widespread and highly conserved process. Aminoacylase 1 (ACY1; EC 3.5.14) is the most abundant of the aminoacylases, a class of enzymes involved in hydrolysis of N-acetylated proteins. Here, we present four children with genetic deficiency of ACY1. They were identified through organic acid analyses using gas chromatography-mass spectrometry, revealing increased urinary excretion of several N-acetylated amino acids, including the derivatives of methionine, glutamic acid, alanine, leucine, glycine, valine, and
isoleucine
. Nuclear magnetic resonance spectroscopy analysis of urine samples detected a distinct pattern of N-acetylated metabolites, consistent with ACY1 dysfunction. Functional analyses of patients' lymphoblasts demonstrated ACY1 deficiency. Mutation analysis uncovered recessive loss-of-function or missense ACY1 mutations in all four individuals affected. We conclude that ACY1 mutations in these children led to functional ACY1 deficiency and excretion of N-acetylated amino acids. Questions remain, however, as to the clinical significance of ACY1 deficiency. The ACY1-deficient individuals were ascertained through urine metabolic screening because of unspecific psychomotor delay (one subject), psychomotor delay with atrophy of the vermis and syringomyelia (one subject), marked muscular
hypotonia
(one subject), and follow-up for early treated biotinidase deficiency and normal clinical findings (one subject). Because ACY1 is evolutionarily conserved in fish, frog, mouse, and human and is expressed in the central nervous system (CNS) in human, a role in CNS function or development is conceivable but has yet to be demonstrated. Thus, at this point, we cannot state whether ACY1 deficiency has pathogenic significance with pleiotropic clinical expression or is simply a biochemical variant. Awareness of this new genetic entity may help both in delineating its clinical significance and in avoiding erroneous diagnoses.
...
PMID:Mutations in ACY1, the gene encoding aminoacylase 1, cause a novel inborn error of metabolism. 1646 18
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