Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: EC:3.5.4.17 (
adenosine deaminase
)
5,206
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Adenylate deaminase activity was determined in cultured muscle cells of different maturation grades and muscle biopsies from normal subjects and four patients with a primary
myoadenylate deaminase
(
MAD
) deficiency. Adenylate deaminase activity was much lower in cultured human muscle cells than in normal muscle. The activity increased with maturation. The ratio of activities measured at 5 and 2 mM AMP decreased in the order: immature muscle cells greater than more mature muscle cells greater than muscle. Adenylate deaminase activity was detectable in muscle cell cultures of
MAD
-deficient patients. However, both at 2 and 5 mM AMP this activity was significantly lower than in cultured cells with the same high maturation grade obtained from control subjects, whereas the ratio between the activities at 5 and 2 mM AMP was higher. The observations indicate that transition from a fetal to an adult muscle isoenzyme of
adenylate deaminase
takes place in human cultured muscle cells during maturation. In cultures obtained from
MAD
-deficient patients this transition does not occur and only the fetal isoenzyme is present.
...
PMID:Expression of different isoenzymes of adenylate deaminase in cultured human muscle cells. Relation to myoadenylate deaminase deficiency. 161 Sep 23
Myoadenylate deaminase deficiency, the most common of the known enzyme deficits of muscle, appears to occur in two forms. The primary type seems to be inherited as a complete gene block in an autosomal recessive pattern. Although occasionally diagnosed in infancy, when muscle biopsy is performed on a hypotonic but normoreflexic child, the deficiency is usually not symptomatic until adult or middle age, when muscle cramping and exercise intolerance develop. The skeletal muscle isozyme is immunologically, and presumably genetically, unique, and these patients have normal levels of
adenylate deaminase
in their other cells and tissues. A presumptive diagnosis can usually be made by an ischemic forearm exercise test, which shows a negligible increase in blood ammonia, despite a normal rise in lactate. Despite the absence of more than 99% of normal
adenylate deaminase
activity, the muscle biopsy shows no anatomic pathology, and other enzymes are at normal levels. These patients do not suffer progressive disease, and should be reassured and encouraged to maintain physical activity. The heterozygous state is probably asymptomatic, except, perhaps, on extreme exercise, but may be associated with an increased incidence of malignant hyperthermia susceptibility. Since the gene defect is not rare, it is not surprising that some cases of the deficiency will be coincidentally associated with other neuromuscular disease. However, there is also a secondary form of
myoadenylate deaminase
deficiency, consequent to muscle damage from other disease. In this form, the residual activity is higher (1-10% of normal), may present rare foci of positive stain in the section, and reacts normally with antibody to the muscle isozyme. Other muscle enzymes are also depleted, although not as severely, and the prognosis in such cases is dictated by the primary disease. Since the heterozygous state is common, these patients might have been carriers whose
adenylate deaminase
levels have been lowered to the deficient category by the advent of other neuromuscular disease.
...
PMID:Myoadenylate deaminase deficiency: primary and secondary types. 378 46
Myoadenylate deaminase deficiency, the most common of the known enzyme deficits of muscle, appears to occur in two forms. The primary type seems to be inherited as a complete gene block in an autosomal recessive pattern. Although occasionally diagnosed in infancy, when muscle biopsy is performed on a hypotonic but normoreflexic child, the deficiency is usually not symptomatic until adult or middle age, when muscle cramping and exercise intolerance develop. The skeletal muscle isozyme is immunologically, and presumably genetically, unique, and these patients have normal levels of
adenylate deaminase
in their other cells and tissues. A presumptive diagnosis can usually be made by an ischemic forearm exercise test, which shows a negligible increase in blood ammonia, despite a normal rise in lactate. Despite the absence of more than 99% of normal
adenylate deaminase
activity, the muscle biopsy shows no anatomic pathology, and other enzymes are at normal levels. These patients do not suffer progressive disease, and should be reassured, and encouraged to maintain physical activity. The heterozygous state is probably asymptomatic, except, perhaps, on extreme exercise, but may be associated with an increased incidence of malignant hyperthermia susceptibility. Since the gene defect is not rare, it is not surprising that some cases of the deficiency will be coincidentally associated with other neuromuscular disease. However, there is also a secondary form of
myoadenylate deaminase
deficiency, consequent to muscle damage from other disease. In this form, the residual activity is higher (1-10% of normal), may present rare foci of positive stain in the section, and reacts normally with antibody to the muscle isozyme. Other muscle enzymes are also depleted, although not as severely, and the prognosis in such cases is dictated by the primary disease. Since the heterozygous state is common, these patients might have been carriers, whose
adenylate deaminase
levels have been lowered for the deficient category by the advent of other neuromuscular disease.
...
PMID:Myoadenylate deaminase deficiency: inherited and acquired forms. 400 19
Muscle biopsies from 35 patients referred for possible malignant hyperthermia were subjected to contracture testing with halothane, caffeine, and the combined agents, histopathological and fiber-type-distribution analysis, and quantitative assay of three major muscle enzymes:
adenylate deaminase
, adenylate kinase, and creatine kinase. Adenylate kinase and creatine kinase were in the normal range in all biopsies and each averaged 92% of expected normal value when corrected for their fiber-type distribution. Of the 14 cases with a positive halothane test, 2 had primary
myoadenylate deaminase
deficiency, and 5 others had low levels of this enzyme (less than one-third normal). In contrast, only 3 of 21 cases negative to halothane testing had low
adenylate deaminase
levels, and none were deficient. This association was significant by several statistical tests, although it would not be highly predictive for an individual case. A positive halothane test also correlated with a high type 2 fiber contribution, but this was probably secondary, since cases with low enzyme levels had significantly higher type 2 fiber areas. Caffeine contractures did not correlate with either low enzyme levels or with fiber-type distribution. Sixty percent of the biopsies were entirely normal histologically, and showed a significant correlation with a negative combined contracture test. Data on the one family included in this study suggest separate inheritance of the trait for
myoadenylate deaminase
deficiency and the trait for positive contracture tests. The present findings suggest that patients with
myoadenylate deaminase
deficiency (and the carrier state as well) may be at increased risk of malignant hyperthermia when subjected to anesthesia.
...
PMID:Myoadenylate deaminase deficiency and malignant hyperthermia susceptibility: is there a relationship? 409 21
Procedures for staining frozen sections of human muscle biopsy specimens for
adenylate deaminase
are outlined. The preeminent role of this procedure is as a survey stain for
myoadenylate deaminase
deficiency, a new and common muscle enzyme deficiency, an example of which is illustrated. Discrimination of type I and II muscle fibers with this stain is based on color differences rather than density differences. Color photomicrographs illustrate the variations in staining that may be encountered, and experimental controls to verify the validity of the stain are summarized.
...
PMID:Stain for skeletal muscle adenylate deaminase. An effective tetrazolium stain for frozen biopsy specimens. 615 2
This paper describes 2 brothers with increasingly severe exercise-induced muscle pain and stiffness, beginning in adolescence. Histochemical studies showed that
myoadenylate deaminase
activity was absent in the propositus, but present in his younger brother. Biochemical examination of muscle homogenates confirmed these findings, with enzyme activity approximately 60% of the mean control value in the younger sibling. Red cell
adenylate deaminase
activity was normal in both cases. The possible relationship between the clinical and biochemical findings in these patients is discussed.
...
PMID:Myoadenylate deaminase deficiency or not? Observations on two brothers with exercise-induced muscle pain. 705
The purines are a group of molecules used by all cells for many vital biochemical processes including energy-requiring enzymatic reactions, cofactor-requiring reactions, synthesis of DNA or RNA, signaling pathways within and between cells, and other processes. Defects in some of the enzymes of purine metabolism are known to be associated with specific clinical disorders, and neurological problems may be a presenting sign or the predominant clinical problem for several of them. This chapter describes three disorders for which the clinical features and metabolic basis are well characterized. Deficiency of adenylosuccinate-lyase (ADSL) causes psychomotor retardation, epilepsy, and autistic features. Lesch-Nyhan disease is caused by deficiency of hypoxanthine-guanine phosphoribosyltransferase (HPRT) and is characterized by hyperuricemia, motor and cognitive disability, and self-injurious behavior. Deficiency of
myoadenylate deaminase
(mAMPD) is associated with myopathic features. In addition to these disorders, several other disorders are briefly summarized. These include defects of phosphoribosylpyrophosphate synthase,
adenosine deaminase
(
ADA
), purine nucleoside phosphorylase (PND), deoxyguanosine kinase (dGK), or IMP dehydrogenase (IMPDH). Each of these disorders provides an unusual window on the unique importance of purine metabolism for function of different parts of the nervous system.
...
PMID:Metabolic disorders of purine metabolism affecting the nervous system. 2362 5
