Genetic testing confirmed the presence of the same mutation found in his sister, a homozygous F383Y mutation in the <i>CPT2</i> gene, thus leading to the diagnosis of CPT-2 deficiency.
In conclusion, we identified p.F383Y mutations in six of seven patients with CPT II deficiency and two novel variants of the coding gene: p.Y408fsX420 and p.V605L.
These mutations differ from those in Caucasian patients, who commonly harbor p.S113L, p.P50H, and p.Q413fsX449 mutations; therefore, our data and those of other Japanese groups suggest that the p.F383Y mutation is significant in Japanese patients with CPT II deficiency.
A new phenotype for a severe late infantile form of CPT II deficiency with hypoglycemia is associated with compound heterozygosity for the severe Q413fs mutation and a mild point mutation (P50H).
We studied an inbred family with three affected cousins with CPT II deficiency and found the S113L mutation to be present in a homozygous state in all three patients.
Positive association was found between rs2</span>229291 and patients with fever</span> at onset of seizure and degree of pathogenetic condition (P = 0.018 and P = 0.023), but not for rs1799821.
Our data suggest that the thermolabile F352C CPT II variant, found only in Japanese, might be one of the predisposing factors to trigger the pathomechanism of acute encephalopathy in the Japanese population, and that it is causally related to the severity of disease.
We performed an analysis including three coding SNP in the muscle isoform of the CPT1b gene (rs3213445, rs2269383 and rs470117) and one coding SNP in the CPT2 gene (rs1799821) to find associations with traits of the metabolic syndrome (MetS).
We studied the molecular basis of CPTase II deficiency in an early-onset patient presenting with hypoketotic hypoglycemia and cardiomyopathy. cDNA and genomic DNA analysis demonstrated that the patient was homozygous for a mutant CPTase II allele (termed ICV), which carried three missense mutations: a G-1203----A transition, predicting a Val-368----Ile substitution (V368I); a C-1992----T transition, predicting an Arg-631----Cys substitution (R631C); and an A-2040----G transition, predicting a Met-647----Val substitution (M647V).
Among the variants, three compound variations found in patients with severe encephalopathy; [c.1055T>G (p.Phe352Cys); c.1102G>A (p.Val368Ile)], [c.1511C>T (p.Pro504Leu); c.1813G>C (p.Val605Leu)], and [c.1055T>G (p.Phe352Cys); c.1102G>A (p.Val368Ile); c.1813G>C (p.Val605Leu)], showed reduced activities, thermal instability, and short half-lives compared with the WT.
To understand the mechanism of the metabolic disorder resulting from CPT II deficiency, the present study investigated CPT II variants in patient fibroblasts, [c.1102 G>A (p.V368I)] (heterozygous), [c.1102 G>A (p.V368I)] (homozygous), and [c.1055 T>G (p.F352C)] (heterozygous) + [c.1102 G>A (p.V368I)] (homozygous) compared with fibroblasts from healthy controls.
We studied the molecular basis of CPTase II deficiency in an early-onset patient presenting with hypoketotic hypoglycemia and cardiomyopathy. cDNA and genomic DNA analysis demonstrated that the patient was homozygous for a mutant CPTase II allele (termed ICV), which carried three missense mutations: a G-1203----A transition, predicting a Val-368----Ile substitution (V368I); a C-1992----T transition, predicting an Arg-631----Cys substitution (R631C); and an A-2040----G transition, predicting a Met-647----Val substitution (M647V).
Positive association was found between rs2229291 and patients with fever at onset of seizure and degree of pathogenetic condition (P = 0.018 and P = 0.023), but not for rs1799821.
We studied the molecular basis of CPTase II deficiency in an early-onset patient presenting with hypoketotic hypoglycemia and cardiomyopathy. cDNA and genomic DNA analysis demonstrated that the patient was homozygous for a mutant CPTase II allele (termed ICV), which carried three missense mutations: a G-1203----A transition, predicting a Val-368----Ile substitution (V368I); a C-1992----T transition, predicting an Arg-631----Cys substitution (R631C); and an A-2040----G transition, predicting a Met-647----Val substitution (M647V).
We studied the molecular basis of CPTase II deficiency in an early-onset patient presenting with hypoketotic hypoglycemia and cardiomyopathy. cDNA and genomic DNA analysis demonstrated that the patient was homozygous for a mutant CPTase II allele (termed ICV), which carried three missense mutations: a G-1203----A transition, predicting a Val-368----Ile substitution (V368I); a C-1992----T transition, predicting an Arg-631----Cys substitution (R631C); and an A-2040----G transition, predicting a Met-647----Val substitution (M647V).