Pyruvate carboxylase deficiency

Pyruvate carboxylase deficiency
Other names: Leigh necrotizing encephalopathy due to pyruvate carboxylase deficiency,[1] Ataxia with lactic acidosis II
Pyruvate carboxylase deficiency has an autosomal recessive pattern of inheritance.
SymptomsLactic acidosis, liver failure, hepatomegaly, demyelination and poor coordination
ComplicationsLactic acidosis
DurationCongenital
TypesA, B, C
CausesMutation to gene for pyruvate carboxylase
TreatmentAnaplerotic therapy, low-fat diet

Pyruvate carboxylase deficiency is an inherited disorder that causes lactic acid to accumulate in the blood.[2] High levels of these substances can damage the body's organs and tissues, particularly in the nervous system. Pyruvate carboxylase deficiency is a rare condition, with an estimated incidence of 1 in 250,000 births worldwide. Type A of the disease appears to be much more common in some Algonkian Indian tribes in eastern Canada, while the type B disease is more present in European populations.[3]

Signs and symptoms

Pyruvate carboxylase deficiency causes lactic acidosis and hyperammonaemia.[4] Lactic acidosis may then lead to liver failure, hepatomegaly, reduced ketone body synthesis, and demyelination of neurons.[4]

Genetics

Pyruvate carboxylase deficiency is caused by mutations in the PC gene. The PC gene provides instructions for making an enzyme called pyruvate carboxylase.

This condition is inherited in an autosomal recessive pattern, which means two copies of the gene must be inherited for the disorder to be present.[4] The parents of an individual with an autosomal recessive disorder are carriers of one copy of the altered gene, but do not show signs and symptoms of the disorder.

Mechanism

Functions of pyruvate carboxylase , and its close relation to urea cycle and the Krebs cycle[5]

Pyruvate carboxylase is active in mitochondria in cells. It is involved in the generation of glucose through gluconeogenesis.[4]

By generating oxaloacetate, it catalyses an important anaplerotic reaction that maintains the citric acid cycle to generate energy by aerobic respiration.[4]

Pyruvate carboxylase also plays a role in the formation of the myelin sheath that surrounds certain nerve cells, and the production of neurotransmitters for communication between neurons.

Mutations in the PC gene reduce the amount of pyruvate carboxylase in cells or disrupt the enzyme's activity. The missing or altered enzyme cannot carry out its essential role in generating glucose, which impairs the body's ability to make energy in mitochondria. Additionally, a loss of pyruvate carboxylase allows potentially toxic compounds, such as lactic acid and ammonia, to build up and damage organs and tissues. Loss of pyruvate carboxylase function in the nervous system, particularly the role of the enzyme in myelin formation and neurotransmitter production, may contribute to the neurological features of pyruvate carboxylase deficiency.

Diagnosis

Classification

There are at least three types of pyruvate carboxylase deficiency, which are distinguished by the severity of their signs and symptoms.

Type A

Type A, which has been identified mostly in people from North America, has moderately severe symptoms that begin in infancy. Characteristic features include developmental delay and a buildup of lactic acid in the blood (lactic acidosis). Increased acidity in the blood can lead to vomiting, abdominal pain, extreme tiredness (fatigue), muscle weakness, and difficulty breathing. In some cases, episodes of lactic acidosis are triggered by an illness or periods without food. Children with pyruvate carboxylase deficiency type A typically survive only into early childhood.

Type B

Pyruvate carboxylase deficiency type B has life-threatening signs and symptoms that become apparent shortly after birth. This form of the condition has been reported mostly in Europe, particularly France. Affected infants have severe lactic acidosis, a build-up of ammonia in the blood (hyperammonemia), and liver failure. They experience neurological problems including weak muscle tone (hypotonia), abnormal movements, seizures, and coma. Infants with this form of the condition usually survive for less than 3 months after birth.

Type C

This type is characterised by its late onset and is associated with isolated mild intellectual delay.

Treatment

Pyruvate carboxylase deficiency treatment typically consists of providing the body with alternate sources of energy (anaplerotic therapy). This may include a diet rich in proteins and carbohydrates but not lipids.

Acutely, triheptanoin may be administered as a source of acetyl-CoA.[4]

Epidemiology

Pyruvate carboxylase deficiency is very rare, and is estimated to affect around 1 in 250,000 people.

References

  1. "Pyruvate carboxylase deficiency | Genetic and Rare Diseases Information Center (GARD) – an NCATS Program". rarediseases.info.nih.gov. Archived from the original on 11 April 2019. Retrieved 11 April 2019.
  2. "Pyruvate carboxylase deficiency". MedlinePlus. NIH - U.S. National Library of Medicine. Archived from the original on 14 October 2022. Retrieved 29 November 2020.
  3. "Pyruvate Carboxylase Deficiency". NORD (National Organization for Rare Disorders). Archived from the original on 2022-10-23. Retrieved 2021-05-26.
  4. 1 2 3 4 5 6 Mochel, Fanny; DeLonlay, Pascale; Touati, Guy; Brunengraber, Henri; Kinman, Renee P.; Rabier, Daniel; Roe, Charles R.; Saudubray, Jean-Marie (2005-04-01). "Pyruvate carboxylase deficiency: clinical and biochemical response to anaplerotic diet therapy". Molecular Genetics and Metabolism. 84 (4): 305–312. doi:10.1016/j.ymgme.2004.09.007. ISSN 1096-7192. PMID 15781190. Archived from the original on 2022-12-21. Retrieved 2023-08-28 via ScienceDirect.
  5. Marin-Valencia, Isaac; Roe, Charles R.; Pascual, Juan M. (September 2010). "Pyruvate carboxylase deficiency: Mechanisms, mimics and anaplerosis". Molecular Genetics and Metabolism. 101 (1): 9–17. doi:10.1016/j.ymgme.2010.05.004. Retrieved 27 September 2023.
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