PNPO deficiency (OMIM 6032870) is an autosomal recessive inborn error of metabolism that leads to a seizure disorder, presenting in the newborn period (neonatal epileptic encephalopathy) or early infancy, that can be treated with pyridoxal 5’-phosphate but (classically) not pyridoxine. Seizures are often characterized by irregular involuntary muscle contractions (myoclonus), abnormal eye movements, and convulsions.
Mutations in the PNPO gene are responsible for pyridoxal 5'-phosphate-dependent epilepsy. The PNPO gene is responsible for the production of an enzyme called pyridoxine 5'-phosphate oxidase. This enzyme plays a crucial role in metabolizing vitamin B6 from food, specifically pyridoxine and pyridoxamine, into its active form known as pyridoxal 5'-phosphate (PLP). PLP is crucial for various bodily processes, such as protein metabolism and the creation of neurotransmitters that facilitate brain signaling.
Classic PNPO deficiency
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defined as neonatal onset in premature infants and neonates
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Intrauterine seizures, recognized by mothers as episodic, repetitive rhythmic movements
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Fetal distress before delivery
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Low APGAR scores
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Difficult-to-treat seizures irrespective of a history of fetal distress
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Epileptic encephalopathy or signs of encephalopathy (inconsolable crying, hyperalertness, jitteriness, irritability, dysregulation of muscle tone)
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Seizures and neurologic findings (e.g., roving eye movements, hypotonia, dystonia) and/or systemic signs (e.g., respiratory distress, anemia, failure to gain weight, abdominal distention, poor feeding)
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Cryptogenic infantile or epileptic spasms
Late-onset PNPO deficiency
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onset after age 28 days in individuals of any age
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Cryptogenic seizures refractory to common anticonvulsants
Standardized Vitamin B6 Trial
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A standardized vitamin B6 trial[1] may raise suspicion regarding PNPO deficiency
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40% of individuals with PNPO deficiency are responsive to pyridoxine (PN) and seizures. In a majority of these patients seizures will remit within 1 to 3 days, but it could take upto several days in some cases
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60% of individuals with PNPO deficiency who are pyridoxal 5'-phosphate (PLP) responsive, the majority show cessation of seizures in one to three days, accompanied by improvement of abnormal EEG findings.
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before initiating the vitamin B6 trial:
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Save plasma and urine; if available, freeze CSF at -80°
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Resuscitation equipment should be available due to the increased risk of apnea or respiratory arrest with initial dose of either pyridoxine (PN) or pyridoxal 5'-phosphate (PLP)
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Steps1
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Give PN 100mg IV, followed by 30 mg/kg/day IV or p.o. in 2-3 single doses over 1-3 days
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If PN is ineffective, consider adding folinic acid 3-5 mg/kg/day p.o. in 1-2 single doses
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If PN & folinic acid are ineffective, replace PN with PLP, 30 to 60 mg/kg/day p.o. in 4-6 single doses over 3 days
If seizures stop: continue pyridoxine or PLP until results of biochemical and/or molecular testing are available
How to differentiate pyridoxine or pyridoxal phosphate responsive seizures from other Vitamin B6 responsive seizures
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increased plasma and urinary alpha-aminoadipic semialdehyde is indicative of pyridoxine-dependent epilepsy – ALDH7A1
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increased sulfocysteine is indicative of molybdenum cofactor deficiency or isolated sulfite oxidase deficiency.
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there are no biomarkers to differentiate from Pyridoxal 5'-Phosphate-Binding Protein Deficiency (PLPBP)( also called PLPHP deficiency). PLPBP gene encodes for the protein PLPHP, believed to be crucial for B6 homeostasis
References
Wilson MP, Plecko B, Mills PB, Clayton PT (2019) Disorders affecting vitamin B6 metabolism. J Inherit Metab Dis 42 (4):629-646. DOI: 10.1002/jimd.12060 PMID: 30671974.