Action Myoclonus–Renal Failure Syndrome: History
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Action myoclonus–renal failure (AMRF) syndrome causes episodes of involuntary muscle jerking or twitching (myoclonus) and, often, kidney (renal) disease. Although the condition name refers to kidney disease, not everyone with the condition has problems with kidney function.

  • genetic conditions

1. Introduction

The movement problems associated with AMRF syndrome typically begin with involuntary rhythmic shaking (tremor) in the fingers and hands that occurs at rest and is most noticeable when trying to make small movements, such as writing. Over time, tremors can affect other parts of the body, such as the head, torso, legs, and tongue. Eventually, the tremors worsen to become myoclonic jerks, which can be triggered by voluntary movements or the intention to move (action myoclonus). These myoclonic jerks typically occur in the torso; upper and lower limbs; and face, particularly the muscles around the mouth and the eyelids. Anxiety, excitement, stress, or extreme tiredness (fatigue) can worsen the myoclonus. Some affected individuals develop seizures, a loss of sensation and weakness in the limbs (peripheral neuropathy), or hearing loss caused by abnormalities in the inner ear (sensorineural hearing loss). Severe seizures or myoclonus can be life-threatening.

When kidney problems occur, an early sign is excess protein in the urine (proteinuria). Kidney function worsens over time, until the kidneys are no longer able to filter fluids and waste products from the body effectively (end-stage renal disease).

AMRF syndrome typically begins causing symptoms between ages 15 and 25, but it can appear at younger or older ages. The age of onset and the course of the condition vary, even among members of the same family. Either the movement problems or kidney disease can occur first, or they can begin at the same time. Most people survive 7 to 15 years after the symptoms appear.

2. Frequency

AMRF syndrome is a rare condition that has been found worldwide. Its exact prevalence is unknown. At least 38 individuals with the condition have been described in the medical literature.

3. Causes

AMRF syndrome is caused by mutations in the SCARB2 gene. This gene provides instructions for making the LIMP-2 protein, which transports an enzyme called beta-glucocerebrosidase to cellular structures called lysosomes. Lysosomes are specialized compartments that digest and recycle materials. In these compartments, beta-glucocerebrosidase breaks down a fatty substance called glucocerebroside. The LIMP-2 protein remains in the lysosome after transporting beta-glucocerebrosidase and is important for the stability of these structures.

SCARB2 gene mutations associated with AMRF syndrome lead to production of an altered LIMP-2 protein that cannot get to the lysosome. As a result, the movement of beta-glucocerebrosidase to lysosomes is impaired. It is thought that a shortage of beta-glucocerebrosidase function in these structures contributes to the signs and symptoms of AMRF syndrome, although the mechanism is unclear. Researchers are working to understand why some people with SCARB2 gene mutations have kidney problems and others do not.

4. Inheritance

This condition is inherited in an autosomal recessive pattern, which means both copies of the gene in each cell have mutations. The parents of an individual with an autosomal recessive condition each carry one copy of the mutated gene, but they typically do not show signs and symptoms of the condition.

5. Other Names for This Condition

  • action myoclonus-renal failure syndrome

  • action myoclonus–renal failure syndrome

  • AMRF

  • epilepsy, progressive myoclonic 4, with or without renal failure

  • EPM4

  • familial myoclonus with renal failure

  • myoclonus-nephropathy syndrome

  • progressive myoclonus epilepsy with renal failure

This entry is adapted from the peer-reviewed paper https://medlineplus.gov/genetics/condition/action-myoclonus-renal-failure-syndrome

References

  1. Amrom D, Andermann F, Andermann E. Action Myoclonus – Renal Failure Syndrome. 2015 Dec 17. In: Adam MP, Ardinger HH, Pagon RA, Wallace SE, Bean LJH, StephensK, Amemiya A, editors. GeneReviews® [Internet]. Seattle (WA): University ofWashington, Seattle; 1993-2020. Available fromhttp://www.ncbi.nlm.nih.gov/books/NBK333437/
  2. Balreira A, Gaspar P, Caiola D, Chaves J, Beirão I, Lima JL, Azevedo JE,Miranda MC. A nonsense mutation in the LIMP-2 gene associated with progressivemyoclonic epilepsy and nephrotic syndrome. Hum Mol Genet. 2008 Jul15;17(14):2238-43. doi: 10.1093/hmg/ddn124.
  3. Berkovic SF, Dibbens LM, Oshlack A, Silver JD, Katerelos M, Vears DF,Lüllmann-Rauch R, Blanz J, Zhang KW, Stankovich J, Kalnins RM, Dowling JP,Andermann E, Andermann F, Faldini E, D'Hooge R, Vadlamudi L, Macdonell RA,Hodgson BL, Bayly MA, Savige J, Mulley JC, Smyth GK, Power DA, Saftig P, Bahlo M.Array-based gene discovery with three unrelated subjects shows SCARB2/LIMP-2deficiency causes myoclonus epilepsy and glomerulosclerosis. Am J Hum Genet. 2008Mar;82(3):673-84. doi: 10.1016/j.ajhg.2007.12.019.
  4. Blanz J, Groth J, Zachos C, Wehling C, Saftig P, Schwake M. Disease-causingmutations within the lysosomal integral membrane protein type 2 (LIMP-2) revealthe nature of binding to its ligand beta-glucocerebrosidase. Hum Mol Genet. 2010 Feb 15;19(4):563-72. doi: 10.1093/hmg/ddp523.
  5. Dibbens LM, Michelucci R, Gambardella A, Andermann F, Rubboli G, Bayly MA,Joensuu T, Vears DF, Franceschetti S, Canafoglia L, Wallace R, Bassuk AG, PowerDA, Tassinari CA, Andermann E, Lehesjoki AE, Berkovic SF. SCARB2 mutations inprogressive myoclonus epilepsy (PME) without renal failure. Ann Neurol. 2009Oct;66(4):532-6. doi: 10.1002/ana.21765.
  6. Hopfner F, Schormair B, Knauf F, Berthele A, Tölle TR, Baron R, Maier C,Treede RD, Binder A, Sommer C, Maihöfner C, Kunz W, Zimprich F, Heemann U,Pfeufer A, Näbauer M, Kääb S, Nowak B, Gieger C, Lichtner P, Trenkwalder C, OexleK, Winkelmann J. Novel SCARB2 mutation in action myoclonus-renal failure syndromeand evaluation of SCARB2 mutations in isolated AMRF features. BMC Neurol. 2011Oct 27;11:134. doi: 10.1186/1471-2377-11-134.
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