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词条 Guanidinoacetate methyltransferase deficiency
释义

  1. Signs and symptoms

  2. Genetics

  3. Diagnosis

  4. Treatment

  5. References

  6. Further reading

  7. External links

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Guanidinoacetate methyltransferase deficiency, also called GAMT deficiency, is an autosomal recessive[1] cerebral creatine deficiency that primarily affects the nervous system and muscles. It is the first described disorder of creatine metabolism.[2] Clinically, affected individuals often present with hypotonia, seizures and developmental delay. Diagnosis can be suspected on clinical findings, and confirmed by specific biochemical tests, brain magnetic resonance spectroscopy, or genetic testing. Biallelic pathogenic variants in GAMT are the underlying cause of the disorder. After GAMT deficiency is diagnosed, it can be treated by dietary adjustments, including supplementation with creatine. Treatment is highly effective if started early in life, however if it is started late, it cannot reverse brain damage which has already taken place.

Signs and symptoms

Individuals with GAMT deficiency appear normal at birth. Shortly after birth, infants may start to show sign, as the consequences of decreased creatine levels in their body become more apparent. These clinical findings are relatively non-specific, and do not immediately suggest a disorder of creatine metabolism. Common clinical findings, as with other cerebral creatine deficiencies include developmental delay (both intellectual and motor), seizures and hypotonia.[3]

Genetics

Biallelic pathogenic variants in GAMT are associated with guanidinoacetate methyltransferase deficiency. This gene codes for the enzyme guanidinoacetate methyltransferase, which participates in the two-step synthesis of the compound creatine from amino acids glycine, arginine and methionine. Specifically, guanidinoacetate methyltransferase controls the second step of the sequence, in which creatine is produced from another compound called guanidinoacetate.

GAMT gene mutations impair the ability of the guanidinoacetate methyltransferase enzyme to participate in creatine synthesis. Creatine is needed for many tissues in the body to be able to store and use energy properly. The effects of guanidinoacetate methyltransferase deficiency are most severe in organs and tissues that require large amounts of energy, such as the brain and muscles.

This disorder is inherited in an autosomal recessive pmanner, which means the causative gene is located on an autosome, and two copies of the gene - one from each parent - are required to inherit the disorder. The parents both carry one copy of the defective allele, but are not affected by the disorder. The residual activity from the other intact allele is enough to prevent clinical complications.

Diagnosis

GAMT deficiency can be suspected from clinical findings, although clinical findings are not suggestive of a specific diagnosis. Laboratory testing of plasma and urine will show decreased levels of creatine and increased levels of guanidinoacetate. Non-specific elevations of metabolites on urine testing that are normalized to creatinine may be observed. For these tests, the excretion of urine metabolites is not elevated, but appears elevated due to unusually low creatinine values.[4] Specific diagnostic testing for GAMT deficiency relies on the measurement of guanidinoacetate and creatine in urine and plasma. Increased levels of guanidinoacetate and decreased levels of creatine can suggest a diagnosis.[4] Confirmatory testing can include enzyme assays to directly measure guanidinoacetate methyltransferase activity or molecular testing of GAMT. Brain magnetic resonance spectroscopy will show decreased levels of creatine, but this finding is seen in all three cerebral creatine deficiencies.[4]

Treatment is most effective for GAMT deficiency with early diagnosis, however the non-specific clinical findings mean there is often a delay in diagnosis. Due to the efficacy of treatment and the delay in diagnosis, GAMT deficiency has been a candidate for newborn screening programs.[5][6] Newborn screening assays measure the amount of guanidinoacetate in a dried blood spot using tandem mass spectrometry. Abnormal results from a newborn screening test still need to be confirmed by testing in plasma or urine.[5] GAMT deficiency was nominated to be included in the list of disorders recommended for screening in the United States in 2016. It was not added, as studies completed at the time could not demonstrate that a case could be reliably identified in a newborn screening setting.[7]

Treatment

The treatment approaches focus on restoration of depleted brain creatine with creatine supplementation in pharmacologic doses, and removal of toxic intermediates via ornithine supplementation.[7] All patients are reported to benefit by this treatment, with improvements in muscular hypotonia, dyskinesia, social contact, alertness and behavior. Seizures appear to reduce more with dietary arginine restriction and ornithine supplementation. Despite treatment, none of the patients have been reported to return to completely normal developmental level, if significant damage had taken place before treatment. Prior to the addition of GAMT deficiency to newborn screening panels, younger siblings of affected individuals may have been tested at birth, and had treatment initiated early. This early treatment can result in outcomes that are very close to normal.[7]

References

1. ^{{cite journal |pmid=12701824 |date=February 2003 |author=Schulze, A |title=Creatine deficiency syndromes |volume=244 |issue=1–2 |pages=143–50 |journal=Molecular and Cellular Biochemistry |doi=10.1023/A:1022443503883}}
2. ^{{cite journal |pmid=8651275 |date=1 May 1996|author1=Stöckler, S |author2=Isbrandt, D |author3=Hanefeld, F |author4=Schmidt, B |author5=Von Figura, K |title=Guanidinoacetate methyltransferase deficiency: the first inborn error of creatine metabolism in man |volume=58 |issue=5 |pages=914–22 |issn=0002-9297 |pmc=1914613 |journal=American Journal of Human Genetics |format=Free full text }}
3. ^{{cite web|title=612736 CEREBRAL CREATINE DEFICIENCY SYNDROME 2; CCDS2 | url= https://omim.org/entry/612736 | publisher = Johns Hopkins University |accessdate = 2019-01-05}}
4. ^{{cite book |last1=Schulze |first1=Andreas |editor1-first=Kiriakie |editor1-last=Sarafoglou |editor2-first=Georg F. |editor2-last=Hoffmann |editor3-first=Karl S. |editor3-last=Roth |others= |title=Pediatric Endocrinology and Inborn Errors of Metabolism |edition=1st |year=2009 |publisher=McGraw-Hill Medical |location=New York |language=English |isbn= 978-0-07-143915-2 |pages=153-161|chapter=Creatine Deficiency Syndromes}}
5. ^{{cite journal |vauthors=Ombrone D, Giocaliere E, Forni G, Malvagia S, la Marca G |title=Expanded newborn screening by mass spectrometry: New tests, future perspectives |journal=Mass Spectrom Rev |volume=35 |issue=1 |pages=71–84 |date=2016 |pmid=25952022 |doi=10.1002/mas.21463 |url=}}
6. ^{{cite web|title=Creatine deficiency among disorders underdiagnosed, researchers say | url = https://abc7chicago.com/health/creatine-deficiency-underdiagnosed-researchers-say/98061/ | accessdate = 2019-02-18 | date = 2014-06-07 | publisher = ABC 7; WLS-TV}}
7. ^{{cite web|title=Utah mom, doctors push to add rare disorder to national newborn screening panel | url=https://www.deseretnews.com/article/865666296/Utah-mom-doctors-push-to-add-rare-disorder-to-national-newborn-screening-panel.html | accessdate = 2019-02-18 |date = 2016-11-02 | publisher=Deseret News, Utah | author = Chen, Daphne }}

Further reading

  • National Library of Medicine. Genetics Home Reference - Guanidinoacetate methyltransferase deficiency
  • [https://www.ncbi.nlm.nih.gov/books/NBK3794/ GeneReview/NIH/UW entry on Cerebral Creatine Deficiency syndromes]

External links

{{Medical resources
| DiseasesDB = 5461
| ICD10 = {{ICD10|E72.8}}
| ICD9 =
| ICDO =
| OMIM = 601240
| MedlinePlus =
| eMedicineSubj =
| eMedicineTopic =
| MeshID = C537622
| GeneReviewsNBK = NBK3794
| GeneReviewsName = Creatine Deficiency Syndromes
| Orphanet = 382
}}{{DEFAULTSORT:Guanidinoacetate Methyltransferase Deficiency}}

3 : Amino acid metabolism disorders|Autosomal recessive disorders|Rare diseases

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