Guanidinoacetate methyltransferase (GAMT) deficiency: a rare but treatable epilepsy.

Epilepsy commonly presents in childhood as part of a syndrome, and some such children may reach adult services without an underlying syndromic diagnosis. For adult neurologists taking over their care, it is often unclear how hard to search for an underlying diagnosis. The diagnostic yield may be small and such a diagnosis may not change management. Young adults with learning difficulties are also challenging to investigate, as they may not tolerate standard epilepsy tests.We present such a case in which simple tests identified a unifying diagnosis. With the new diagnosis came a new treatment that had a significant impact on seizures and quality of life.

Laboratory diagnosis of creatine deficiency syndromes: a technical standard and guideline of the American College of Medical Genetics and Genomics.

Disclaimer: These ACMG Standards and Guidelines are intended as an educational resource for clinical laboratory geneticists to help them provide quality clinical laboratory genetic services. Adherence to these standards and guidelines is voluntary and does not necessarily assure a successful medical outcome. These Standards and Guidelines should not be considered inclusive of all proper procedures and tests or exclusive of others that are reasonably directed to obtaining the same results. In determining the propriety of any specific procedure or test, clinical laboratory geneticists should apply their professional judgment to the specific circumstances presented by the patient or specimen. Clinical laboratory geneticists are encouraged to document in the patient's record the rationale for the use of a particular procedure or test, whether or not it is in conformance with these Standards and Guidelines. They also are advised to take notice of the date any particular guideline was adopted, and to consider other relevant medical and scientific information that becomes available after that date. It also would be prudent to consider whether intellectual property interests may restrict the performance of certain tests and other procedures.Cerebral creatine deficiency syndromes are neurometabolic conditions characterized by intellectual disability, seizures, speech delay, and behavioral abnormalities. Several laboratory methods are available for preliminary and confirmatory diagnosis of these conditions, including measurement of creatine and related metabolites in biofluids using liquid chromatography-tandem mass spectrometry or gas chromatography-mass spectrometry, enzyme activity assays in cultured cells, and DNA sequence analysis. These guidelines are intended to standardize these procedures to help optimize the diagnosis of creatine deficiency syndromes. While biochemical methods are emphasized, considerations for confirmatory molecular testing are also discussed, along with variables that influence test results and interpretation.Genet Med 19 2, 256-263.

Biosynthesis of homoarginine (hArg) and asymmetric dimethylarginine (ADMA) from acutely and chronically administered free L-arginine in humans.

Asymmetric dimethylarginine (ADMA) is an endogenous inhibitor of nitric oxide (NO) synthesis, whereas L-arginine (Arg) and L-homoarginine (hArg) serve as substrates for NO synthesis. ADMA and other methylated arginines are generally believed to exclusively derive from guanidine (N (G))-methylated arginine residues in proteins by protein arginine methyltransferases (PRMTs) that use S-adenosylmethionine (SAM) as the methyl donor. L-Lysine is known for decades as a precursor for hArg, but only recent studies indicate that arginine:glycine amidinotransferase (AGAT) is responsible for the synthesis of hArg. AGAT catalyzes the formation of guanidinoacetate (GAA) that is methylated to creatine by guanidinoacetate methyltransferase (GAMT) which also uses SAM. The aim of the present study was to learn more about the mechanisms of ADMA and hArg formation in humans. Especially, we hypothesized that ADMA is produced by N (G)-methylation of free Arg in addition to the known PRMTs-involving mechanism. In knockout mouse models of AGAT- and GAMT-deficiency, we investigated the contribution of these enzymes to hArg synthesis. Arg infusion (0.5 g/kg, 30 min) in children (n = 11) and ingestion of high-fat protein meals by overweight men (n = 10) were used to study acute effects on ADMA and hArg synthesis. Daily Arg ingestion (10 g) or placebo for 3 or 6 months by patients suffering from peripheral arterial occlusive disease (PAOD, n = 20) or coronary artery disease (CAD, n = 30) was used to study chronic effects of Arg on ADMA synthesis. Mass spectrometric methods were used to measure all biochemical parameters in plasma and urine samples. In mice, AGAT but not GAMT was found to contribute to plasma hArg, while ADMA synthesis was independent of AGAT and GAMT. Arg infusion acutely increased plasma Arg, hArg and ADMA concentrations, but decreased the plasma hArg/ADMA ratio. High-fat protein meals acutely increased plasma Arg, hArg, ADMA concentrations, as well as the plasma hArg/ADMA ratio. In the PAOD and CAD studies, plasma Arg concentration increased in the verum compared to the placebo groups. Plasma ADMA concentration increased only in the PAOD patients who received Arg. Our study suggests that in humans a minor fraction of free Arg is rapidly metabolized to ADMA and hArg. In mice, GAMT and N (G)-methyltransferases contribute to ADMA and hArg synthesis from Arg, whereas AGAT is involved in the synthesis of hArg but not of ADMA. The underlying biochemical mechanisms remain still elusive.

Stable isotope dilution microquantification of creatine metabolites in plasma, whole blood and dried blood spots for pharmacological studies in mouse models of creatine deficiency.

BACKGROUND: To develop an accurate stable isotope dilution assay for simultaneous quantification of creatine metabolites ornithine, arginine, creatine, creatinine, and guanidinoacetate in very small blood sample volumes to study creatine metabolism in mice. METHODS: Liquid-chromatography (C18) tandem mass spectrometry with butylation was performed in positive ionization mode. Stable isotope dilution assay with external calibration was applied to three different specimen types, plasma, whole blood and dried blood spot (DBS). RESULTS: Analytical separation, sensitivity, accuracy, and linearity of the assay were adequate. The stable isotope dilution assay in plasma revealed no significant bias to gold standard methods for the respective analytes. Compared to plasma, we observed an overestimate of creatine and creatinine (2- to 5-fold and 1.2- to 2-fold, respectively) in whole-blood and DBS, and an underestimate of arginine (2.5-fold) in DBS. Validation of the assay in mouse models of creatine deficiency revealed plasma creatine metabolite pattern in good accordance with those observed in human GAMT and AGAT deficiency. Single dose intraperitoneal application of ornithine in wild-type mice lead to fast ornithine uptake (Tmax ≤ 10 min) and elimination (T1/2=24 min), and a decline of guanidinoacetate. CONCLUSION: The assay is fast and reliable to study creatine metabolism and pharmacokinetics in mouse models of creatine deficiency.

Feasibility of newborn screening for guanidinoacetate methyltransferase (GAMT) deficiency.

Guanidinoacetate methyltransferase (GAMT) deficiency causes brain creatine deficiency characterized by developmental delays, speech delay, seizures and autism-like behavior. Identification and therapy at birth because of a positive family history has prevented intellectual disability and seizures in all cases reported. The objective of this study was to develop a method to identify patients with GAMT deficiency from newborn screening blood spots. Creatine and guanidinoacetate were extracted from 10,000 deidentified blood spots using the same protocol routinely used for newborn screening and quantified by stable isotope dilution using deuterated creatine and guanidinoacetate as internal standards. Residual dried blood spots from three infants with GAMT deficiency were used to evaluate the sensitivity of the method. A second tier test using UPLC-MS/MS was performed to analyze samples with a concentration of guanidinoacetate >2.44 µmol/L (99.5th centile of the normal population). Fifty four blood spots required second tier testing in addition to seven blood spots from three patients with GAMT deficiency retrospectively analyzed. With second tier testing, only the samples from GAMT deficiency patients had elevated concentration of guanidinoacetate. Our results show that GAMT deficiency can be identified in newborns using routine extraction methods. The cost of this additional screening is minimal, as it does not require additional instrumentation, procedure, or sample collection. The use of a second tier test can reduce the false positive rate to a minimum. Summary Brain creatine deficiency syndromes cause mental retardation that can be prevented if therapy is initiated early in life. This manuscript reports that infants with GAMT deficiency (one of the brain creatine deficiency syndromes) can be identified from elevated guanidinoacetate in newborn blood spots with virtually absent false-positive results using a second tier test.

Biochemical, molecular, and clinical diagnoses of patients with cerebral creatine deficiency syndromes.

Cerebral creatine deficiency syndromes (CCDS) are a group of inborn errors of creatine metabolism that involve AGAT and GAMT for creatine biosynthesis disorders and SLC6A8 for creatine transporter (CT1) deficiency. Deficiencies in the three enzymes can be distinguished by intermediate metabolite levels, and a definitive diagnosis relies on the presence of deleterious mutations in the causative genes. Mutations and unclassified variants were identified in 41 unrelated patients, and 22 of these mutations were novel. Correlation of sequencing and biochemical data reveals that using plasma guanidinoacetate (GAA) as a biomarker has 100% specificity for both AGAT and GAMT deficiencies, but AGAT deficiency has decreased sensitivity in this assay. Furthermore, the urine creatine:creatinine ratio is an effective screening test with 100% specificity in males suspected of having creatine transporter deficiency. This test has a high false-positive rate due to dietary factors or dilute urine samples and lacks sensitivity in females. We conclude that biochemical screening for plasma GAA and measuring of the urine creatine:creatinine ratio should be performed for suspected CCDS patients prior to sequencing. Also, based on the results of this study, we feel that sequencing should only be considered if a patient has abnormal biochemical results on repeat testing.

Elevation of guanidinoacetate in newborn dried blood spots and impact of early treatment in GAMT deficiency.

Guanidinoacetate methyltransferase (GAMT) deficiency is a good candidate disorder for newborn screening because early treatment appears to improve outcomes. We report elevation of guanidinoacetate in archived newborn dried blood spots for 3 cases (2 families) of GAMT deficiency compared with an unaffected carrier and controls. We also report a new case of a patient treated from birth with normal developmental outcome at the age of 42 months.

Guanidinoacetate methyltransferase deficiency: first steps to newborn screening for a treatable neurometabolic disease.

BACKGROUND: GAMT deficiency is an autosomal recessive disorder of creatine biosynthesis resulting in severe neurological complications in untreated patients. Currently available treatment is only successful to stop disease progression, but is not sufficient to reverse neurological complications occurring prior to diagnosis. Normal neurodevelopmental outcome in a patient, treated in the newborn period, highlights the importance of early diagnosis. METHODS: Targeted mutation analysis (c.59G>C and c.327G>A) in the GAMT gene by the QIAxcel system and GAA measurement by a novel two-tier method were performed in 3000 anonymized newborn blood dot spot cards. RESULTS: None of the targeted mutations were detected in any newborn. Two novel heterozygous variants (c.283_285dupGTC; p.Val95dup and c.278_283delinsCTCGATGCAC; p.Asp93AlafsX35) were identified by coincidence. Carrier frequency for these insertion/deletion types of GAMT mutations was 1/1475 in this small cohort of newborns. GAA levels were at or above the 99th percentile (3.12 µmol/l) in 4 newborns. Second-tier testing showed normal results for 4 newborns revealing 0.1% false positive rate. No GAMT mutations were identified in 4 of the newborns with elevated GAA levels in the first tier testing. CONCLUSION: This is the first two-tier study to investigate carrier frequency of GAMT deficiency in the small cohort of newborn population to establish evidence base for the first steps toward newborn screening for this treatable neurometabolic disorder.

Guanidinoacetate methyltransferase deficiency (GAMT).

An increasing number of disorders of metabolism are becoming amenable to the treatment, and GAMT deficiency is one of them. The symptoms and signs are reviewed, emphasising that delayed language development is a particular feature. Other symptoms include learning disorders, autistic behaviour, epileptic seizures, and movement disorders. The condition is inherited in an autosomal recessive manner, and mutations in the GAMT gene severely affect the activity of guanidinoacetate. The MRI scan shows an increased signal in the globus pallidus, and the diagnosis is confirmed by finding increased guanidinoacetate in the urine and a low plasma creatine. Other methods of diagnosis are discussed. Treatment is based on giving creatine supplementation orally and a low-protein diet with restricted arginine and increased ornithine. This results in improvement of many of the symptoms, especially of the epileptic seizures and the abnormal movements. It is justifiable to consider this condition in any patient with unexplained learning disorders.

Deficiencia cerebral de creatina: primeros pacientes españoles con mutaciones en el gen GAMT / Cerebral creatine deficiency: First Spanish patients harbouring mutations in GAMT gene

Fundamento y objetivo: Los síndromes de deficiencia cerebral de creatina (Cr) constituyen un grupo de enfermedades neurometabólicas caracterizadas por deficiencia o ausencia de Cr en el cerebro. Cursan con retraso del desarrollo/mental y trastornos del lenguaje, y puede asociarse a epilepsia o a trastornos del movimiento. Se conocen 3 defectos: 2 de la síntesis —deficiencia de guanidinoacetato metiltransferasa (GAMT) y argininaglicina amidinotransferasa (AGAT)— y uno del transporte (CRTR). En este trabajo presentamos los 3 primeros pacientes españoles con deficiencia de GAMT y comparamos su fenotipo clínico y respuesta al tratamiento con otros casos publicados. Pacientes y método: Los pacientes presentan retraso mental, epilepsia y conducta autista. La paciente 1 asocia corea grave. Pacientes y método: El diagnóstico se realizó mediante estudios bioquímicos para cuantificar metabolitos específicos y actividad enzimática y genéticos del gen GAMT. Resultados: En orina y plasma se detectó aumento de guanidinoacetato. La resonancia magnética con espectroscopia reveló reducción marcada de Cr cerebral. Los estudios enzimáticos mostraron disminución de la actividad GAMT en fibroblastos y el estudio molecular reveló mutaciones en el gen GAMT. Tras el diagnóstico, se inició tratamiento con suplemento de Cr, y se asoció en los pacientes 2 y 3 una dieta restringida en arginina y suplemento de ornitina, con mejoría parcial. Conclusiones: Los pacientes con deficiencia de GAMT presentan un fenotipo inespecífico pero relativamente constante. Deben buscarse los síndromes de deficiencia cerebral de Cr en pacientes con retraso mental/psicomotor de etiología desconocida, especialmente si se acompañan de trastornos del movimiento y epilepsia. Es importante el diagnóstico precoz en casos tratables como la deficiencia de GAMT (AU)

Background and objetive: Brain creatine (Cr) deficiencies are a group of inborn errors of metabolism that are characterized by an absence or severe reduction of brain Cr. Clinically, these patients can display psychomotor/mental retardation and language disorders, commonly associated with epilepsy or movement disorders. Three metabolic defects are known: two affect synthesis – guanidinoacetate metiltransferase (GAMT) and glycine amidinotransferase (AGAT) deficiencies– and one affect the Cr transporter (CRTR). We present the first three Spanish patients with GAMT deficiency, and we compare their clinical phenotype and treatment response with other published cases. Patients and method: The three patients presented mental retardation, epilepsy and autistic behaviour. Patient 1 also had severe chorea. Diagnosis was done by biochemical and genetic procedures (guanidinoacetate quantification, determination of GAMT activity and mutation analysis in the GAMT gene).Results: An increase of guanidinoacetate was detected in urine and plasma. Brain magnetic resonance spectroscopy revealed low Cr levels. Enzymatic studies revealed a decreased GAMT activity in fibroblasts. Molecular analysis detected pathogenic mutations in the GAMT gene. Results: After the deficiency was confirmed, the patients started treatment with Cr. In addition, patient 2 and 3 received an arginine-restricted diet and ornithine supplements. All them showed a partial improvement. Conclusions: Patients with GAMT deficiency have an unspecific but relatively constant clinical presentation. Brain Cr deficiency should be considered in patients with mental retardation of unknown aetiology, specially in those with movement disorders or epilepsy. Early diagnosis is important in cases with known treatment such as GAMT deficiency (AU)

Guanidinoacetate methyltransferase (GAMT) deficiency: late onset of movement disorder and preserved expressive language.

Guanidinoacetate methyltransferase (GAMT) deficiency is a disorder of creatine biosynthesis, characterized by early-onset learning disability and epilepsy in most affected children. Severe expressive language delay is a constant feature even in the mildest clinical phenotypes.We report the clinical, biochemical, imaging, and treatment data of two female siblings (18y and 13y) with an unusual phenotype of GAMT deficiency. The oldest sibling had subacute onset of a movement disorder at age 17 years, later than has been previously reported. The younger sibling had better language skills than previously described in this disorder. After treatment with creatine, arginine restriction and ornithine-supplemented diet, seizure severity and movement disorder were reduced but cognition did not improve. This report confirms that GAMT deficiency, a heterogeneous, potentially treatable disorder, detected by increased levels of guanidinoacetate in body fluids (e.g. plasma or urine) or by an abnormal creatine peak on magnetic resonance spectroscopy, should be considered in patients of any age with unexplained, apparently static learning disability and epilepsy.