Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The author carried out studies on male white rats and examined the effect of imidazol, papaverine and theophyline (drugs affecting the activity of phosphodiesterase), singly or in correlation with GAMA and diazepam on picrotoxic seizure threshold (PSAT). He found that imidazol had various effects on PSAT in accordance with the interval of application and antagonized the effects of GAMA. Papaverine in low doses was ineffective, but in higher doses lowered PSAT; it antagonized the effect of GAMA, elevating the threshold. Papaverine in combination with CAMF antagonized the effect of GAMA, elevating the threshold. Theophyline lowered PSAT; it did not influence the effects of the combined application of GAMA and DIA. He thinks that the obtained changes in PSAT could partly be connected with the mediating influence of imidazol, papaverine and phe theophyline on cerebral phosphodiesterase both after their single application and after examination of their correlations with GAMA or DIA, used singly or in comibination, and partly with their own pharmacologic action.
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PMID:[Effects of imidazole, papaverine and theophylline on the picrotoxin convulsion-seizure threshold. The correlation with gamma-aminobutyric acid (GABA) and diazepam]. 69 66

We present the first two identified cases of phosphoserine aminotransferase deficiency. This disorder of serine biosynthesis has been identified in two siblings who showed low concentrations of serine and glycine in plasma and cerebrospinal fluid. Clinically, the index patient presented with intractable seizures, acquired microcephaly, hypertonia, and psychomotor retardation and died at age 7 mo despite supplementation with serine (500 mg/kg/d) and glycine (200 mg/kg/d) from age 11 wk. The younger sibling received treatment from birth, which led to a normal outcome at age 3 years. Measurement of phosphoserine aminotransferase activity in cultured fibroblasts in the index patient was inconclusive, but mutational analysis revealed compound heterozygosity for two mutations in the PSAT1 gene--one frameshift mutation (c.delG107) and one missense mutation (c.299A-->C [p.Asp100Ala])--in both siblings. Expression studies of the p.Asp100Ala mutant protein revealed a V(max) of only 15% of that of the wild-type protein.
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PMID:Phosphoserine aminotransferase deficiency: a novel disorder of the serine biosynthesis pathway. 1743 47

Serine deficiency disorders are caused by a defect in one of the three synthesising enzymes of the L-serine biosynthesis pathway. Serine deficiency disorders give rise to a neurological phenotype with psychomotor retardation, microcephaly and seizures in newborns and children or progressive polyneuropathy in adult patients. There are three defects that cause serine deficiency of which 3-phosphoglycerate dehydrogenase (3-PGDH) deficiency, the defect affecting the first step in the pathway, has been reported most frequently. The other two disorders in L-serine biosynthesis phosphoserine aminotransferase (PSAT) deficiency and phosphoserine phosphatase (PSP) deficiency have been reported only in a limited number of patients. The biochemical hallmarks of all three disorders are low concentrations of serine in cerebrospinal fluid and plasma. Prompt recognition of affected patients is important, since serine deficiency disorders are treatable causes of neurometabolic disorders. The use of age-related reference values for serine in CSF and plasma can be of great help in establishing a correct diagnosis of serine deficiency, in particular in newborns and young children.
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PMID:An update on serine deficiency disorders. 2346 25

Serine is a nonessential amino acid that plays a vital role in proper development and functioning of the central nervous system (CNS). Serine deficiency leads to microcephaly, intellectual disability, seizures, and psychomotor retardation in children and severe axonal neuropathy in adults. Serine deficiency syndrome is due to a deficiency of one of three enzymes in the endogenous serine biosynthesis pathway: phosphoglycerate dehydrogenase, phosphoserine transaminase, or, most rarely, phosphoserine phosphatase. Of critical importance to clinical care, serine deficiency syndrome is treatable. Herein, we describe the novel presentation of phosphoserine phosphatase deficiency in an adult. The patient had intrauterine growth restriction, lifelong intellectual disability, childhood onset epilepsy, and borderline microcephaly. In adulthood, she developed progressively severe lower extremity hypertonia, axonal neuropathy, and hand contractures. Neuropathy was complicated by non-healing wounds. Fasting plasma amino acids showed low serine and glycine. Molecular analysis revealed compound heterozygous mutations in phosphoserine phosphatase (PSPH). Treatment with oral serine resulted in improvement of plasma serine levels, decreased neuropathic pain, and subjective improvement in energy level. Although the first case of phosphoserine phosphatase deficiency was described nearly 20 years ago, only eight cases have been reported, all in children. This is the first report of phosphoserine phosphatase deficiency in an adult.
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PMID:Novel Report of Phosphoserine Phosphatase Deficiency in an Adult with Myeloneuropathy and Limb Contractures. 2688 60

L-serine is a non-essential amino acid that is de novo synthesized via the enzymes phosphoglycerate dehydrogenase (PGDH), phosphoserine aminotransferase (PSAT), and phosphoserine phosphatase (PSP). Besides its role in protein synthesis, L-serine is a precursor of a number of important compounds. Serine biosynthesis defects result from deficiencies in PGDH, PSAT, or PSP and have a broad phenotypic spectrum ranging from Neu-Laxova syndrome, a lethal multiple congenital anomaly disease at the severe end to a childhood disease with intellectual disability at the mild end, with infantile growth deficiency, and severe neurological manifestations as an intermediate phenotype. In this report, we present three subjects with serine biosynthesis effects. The first was a stillbirth with Neu-Laxova syndrome and a homozygous mutation in PHGDH. The second was a neonate with growth deficiency, microcephaly, ichthyotic skin lesions, seizures, contractures, hypertonia, distinctive facial features, and a homozygous mutation in PSAT1. The third subject was an infant with growth deficiency, microcephaly, ichthyotic skin lesions, anemia, hypertonia, distinctive facial features, low serine and glycine in plasma and CSF, and a novel homozygous mutation in PHGDH gene. Herein, we also review previous reports of serine biosynthesis defects and mutations in the PHGDH, PSAT1, and PSPH genes, discuss the variability in the phenotypes associated with serine biosynthesis defects, and elaborate on the vital roles of serine and the potential consequences of its deficiency.
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PMID:On the phenotypic spectrum of serine biosynthesis defects. 2696 May 53

Defects in serine biosynthesis resulting from loss of function mutations in PHGDH, PSAT1, and PSPH cause a set of rare, autosomal recessive diseases known as Neu-Laxova syndrome (NLS) or serine-deficiency disorders. The diseases present with a broad range of phenotypes including lethality, severe neurological manifestations, seizures, and intellectual disability. However, because L-serine supplementation, especially if started prenatally, can ameliorate and in some cases even prevent symptoms, knowledge of pathogenic variants is medically actionable. Here, we describe a functional assay that leverages the evolutionary conservation of an enzyme in the serine biosynthesis pathway, phosphoserine aminotransferase, and the ability of the human protein-coding sequence (PSAT1) to functionally replace its yeast ortholog (SER1). Results from our quantitative, yeast-based assay agree well with clinical annotations and expectations based on the disease literature. Using this assay, we have measured the functional impact of the 199 PSAT1 variants currently listed in ClinVar, gnomAD, and the literature. We anticipate that the assay could be used to comprehensively assess the functional impact of all SNP-accessible amino acid substitution mutations in PSAT1, a resource that could aid variant interpretation and identify potential NLS carriers.
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PMID:A yeast-based complementation assay elucidates the functional impact of 200 missense variants in human PSAT1. 3207 5

L-serine is a nonessential amino acid in eukaryotic cells, used for protein synthesis and in producing phosphoglycerides, glycerides, sphingolipids, phosphatidylserine, and methylenetetrahydrofolate. Moreover, L-serine is the precursor of two relevant coagonists of NMDA receptors: glycine (through the enzyme serine hydroxymethyltransferase), which preferentially acts on extrasynaptic receptors and D-serine (through the enzyme serine racemase), dominant at synaptic receptors. The cytosolic "phosphorylated pathway" regulates de novo biosynthesis of L-serine, employing 3-phosphoglycerate generated by glycolysis and the enzymes 3-phosphoglycerate dehydrogenase, phosphoserine aminotransferase, and phosphoserine phosphatase (the latter representing the irreversible step). In the human brain, L-serine is primarily found in glial cells and is supplied to neurons for D-serine synthesis. Serine-deficient patients show severe neurological symptoms, including congenital microcephaly, psychomotor retardation, and intractable seizures, thus highlighting the relevance of de novo production of this amino acid in brain development and morphogenesis. Indeed, the phosphorylated pathway is strictly linked to cancer. Moreover, L-serine has been suggested as a ready-to-use treatment, as also recently proposed for Alzheimer's disease. Here, we present our current state of knowledge concerning the three mammalian enzymes of the phosphorylated pathway and known mutations related to pathological conditions: although the structure of these enzymes has been solved, how enzyme activity is regulated remains largely unknown. We believe that an in-depth investigation of these enzymes is crucial to identify the molecular mechanisms involved in modulating concentrations of the serine enantiomers and for studying the interplay between glial and neuronal cells and also to determine the most suitable therapeutic approach for various diseases.
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PMID:L-serine synthesis via the phosphorylated pathway in humans. 3259 92