Objective: To investigate the mutation and background of SLC22A5 in 6 patients with primary carnitine deficiency (PCD) who only presented as cardiomyopathy.
Method: Genomic DNA were abstracted from the blood of the patients and their parents. Using high-throughput sequencing to determine the mutation site.Using Sanger method to confirm the mutated alleles in PCD patients and detect the corresponding sequences in their patients. Using SIFT and PolyPhen to predict the function of protein for detected missense mutations.
Result: Three different mutations were identified, including 2 nonsense mutations (R254X and R289X), 1 missense mutation (C113Y), R254X was the most frequently seen mutation. Four patients had compound heterozygous mutations and 2 patients had homozygous mutations. Their parents were found to have heterozygous mutations in corresponding alleles.
Conclusion: R254X, R289X and C113Y might be associated with primary carnitine deficiency.