Elevated C5-hydroxy acylcarnitine in an infant girl as a result of holocarboxylase synthetase deficiency.

CONTEXT: Elevated 3-hydroxyisovaleryl-/2-methyl-3-hydroxybutyryl (C5-OH) acylcarnitine in blood can result from several genetic enzyme deficiencies: 3-methylcrotonyl CoA carboxylase deficiency, 3-hydroxy 3-methylglutaryl-CoA lyase deficiency, beta-ketothiolase deficiency, 2-methyl 3-hydroxybutyryl-CoA dehydrogenase deficiency, primary 3-methylglutaconic aciduria, multiple biotin-dependent carboxylase deficiencies and biotin metabolism disorders. Biochemical tests help differentiate these causes while molecular tests are usually required for definitive diagnosis. CASE DESCRIPTION: We reported an infant girl with newborn screen findings of elevated C5-OH acylcarnitine. She had further confirmational biochemical testing including plasma acylcarnitines, urine organic acids and urine acylglycines. Patient's urine organic acid profile showed markedly increased 3-hydroxyisovaleric acid and 3-methylcrotonylglycine. Urine acylglycine test reported a large increase of 3-methylcrotonylglycine and plasma acylcarnitine test repeated the finding of elevated C5-OH acylcarnitine together with propionyl acylcarnitine elevation. These results point to multiple biotin-dependent carboxylase deficiency. Molecular tests revealed a homozygous mutation in the holocarboxylase synthetase gene that is consistent with her biochemical test findings. This case demonstrated the critical role of newborn screen in identifying inborn errors of metabolism that may otherwise be missed and lead to severe morbidity later in life. It also showcased that both biochemical and molecular tests are essential tools in the diagnosis.

[Holocarboxylase synthetase deficiency induced by HLCS gene mutations: a rare disease study]. / ç½•è§ç— ç ”ç©¶ï¼šHLCSåŸºå› çªå˜è‡´å ¨ç¾§åŒ–é ¶åˆæˆé ¶ç¼ºä¹ç—‡.

A boy, aged 16 months, attended the hospital due to head and facial erythema for 15 months and vulva erythema for 10 months with aggravation for 5 days. The boy developed perioral and periocular erythema in the neonatal period and had erythema and papules with desquamation and erosion in the neck, armpit, and trigone of vulva in infancy. Blood gas analysis showed metabolic acidosis; the analysis of amino acid and acylcarnitine profiles for inherited metabolic diseases and the analysis of organic acid in urine suggested multiple carboxylase deficiency; genetic testing showed a homozygous mutation of c.1522C>T(p.R508W) in the HLCS gene. Finally the boy was diagnosed with holocarboxylase synthetase deficiency and achieved a good clinical outcome after oral biotin treatment. This article analyzes the clinical data of a child with holocarboxylase synthetase deficiency and summarizes the etiology, diagnosis, and treatment of this child, so as to provide ideas for clinicians to diagnose this rare disease.

Clinical, biochemical, and genetic analysis of 28 Chinese patients with holocarboxylase synthetase deficiency.

BACKGROUND: This study aimed to describe the clinical, biochemical, and molecular characteristics of Chinese patients with holocarboxylase synthetase (HLCS) deficiency, and to investigate the mutation spectrum of HCLS deficiency as well as their potential correlation with phenotype. METHODS: A total of 28 patients with HLCS deficiency were enrolled between 2006 and 2021. Clinical and laboratory data were reviewed retrospectively from medical records. RESULTS: Among the 28 patients, six patients underwent newborn screening, of which only one was missed. Therefore, 23 patients were diagnosed because of disease onset. Among all the patients, 24 showed varying degrees of symptoms such as rash, vomiting, seizures, and drowsiness, while only four cases remained asymptomatic nowadays. The concentration of 3-hydroxyisovalerylcarnitine (C5-OH) in blood and pyruvate, 3-hydroxypropionate, methylcitric acid, 3-hydroxyvaleric acid, 3-methylcrotonylglycine in urine were increased greatly among affected individuals. After prompt supplement of biotin, both the clinical and biochemical symptoms were dramatically resolved and nearly all patients developed normal intelligence and physique on follow-up. DNA sequencing revealed 12 known and 6 novel variants in the HLCS gene of patients. Among them, the variant of c.1522C > T was the most common. CONCLUSIONS: Our findings expanded the spectrum of phenotypes and genotypes for HLCS deficiency in Chinese populations and suggested that with timely biotin therapy, patients with HLCS deficiency showed low mortality and optimistic prognosis. Newborn screening is crucial for early diagnosis, treatment, and long-term outcomes.

Impaired glucose homeostasis and a novel HLCS pathogenic variant in holocarboxylase synthetase deficiency: a report of two cases and brief review.

Objectives Holocarboxylase synthetase deficiency (HCSD) (OMIM #253270) is a rare inborn error of metabolism with an estimated annual incidence of 1 in 200,000 people. Typical manifestations of HCSD include eczema, alopecia, lactic acidosis and hyperammonemia. Diagnosis is made through genetic analysis. Case presentation Patient 1 was a 7-year-old girl with normal growth and development, presenting with severe hypoglycemia and metabolic acidosis. Her family reported that she was diagnosed as having ketotic hypoglycemia; she had five episodes of hypoglycemia and metabolic acidosis in past 4 years when her oral intake decreased during acute illness. Patient 2 was a 6-month-old female infant with normal growth and development, presenting with progressive generalized eczema and metabolic acidosis for the first time. We found that they both had hyperammonemia, hyperlactatemia, hyperketonemia, organic acids detected in urine and elevated C5OH acylcarnitine level by tandem mass spectrometry. HLCS gene analysis showed a homozygous pathogenic variant p.V363D in patient 1 and a pathogenic variant p.R508W compound with a novel splice site pathogenic variant c.2010-1G>A in patient 2. They have been on biotin treatment (10 mg/day for both of them) for more than 2 years and no more symptoms have occurred. Conclusions HCSD is a rare disease, and it can be fatal if severe metabolic acidosis occurs without timely management. Once the diagnosis is made, most of the patients with HCSD have good prognosis and normal life expectancy with biotin treatment.

Case report of holocarboxylase synthetase deficiency (late-onset) in 2 Chinese patients.

RATIONALE: Holocarboxylase synthetase (HCLS) deficiency, especially the late-onset type, is a rare disease. Affected patients can present with irreversible metabolic acidosis and may be misdiagnosed with a glucose metabolic disorder. Prompt and correct diagnosis and treatment can reduce mortality to a great extent. PATIENT CONCERNS: We report 2 Chinese patients who were diagnosed with late-onset HCLS deficiency. The age of onset of the 2 patients was approximately 8 months. The 2 patients had skin lesions, severe profound metabolic acidosis, dyspnea, and hyperglycemia. DIAGNOSES: The results of urinary and blood organic acid analysis with gas chromatography/mass spectrometry revealed multiple carboxylase deficiency. Maple syrup urine disease and diabetic ketoacidosis could not be excluded. This finding is different from those of hypoglycemic complications reported in previous reports. Human genetic analysis eventually provided a definite diagnosis. INTERVENTIONS: Prompt oral treatment with biotin dramatically corrected the metabolic imbalances of the 2 patients, and continued oral biotin therapy was essential to the improvement of their prognoses. OUTCOMES: Their metabolic disorders were corrected within 48 hours. During long-term follow-up, the patients achieved developmental milestones. LESSONS: Late-onset HCLS deficiency may present with obvious hyperglycemia. Human genetic analysis eventually provided a definite diagnosis. Prompt treatment with biotin is vital to correct metabolic imbalances, and continued therapy is essential to the improving long-term prognoses. Their mutations were p.R508W and c.1088T > A, and these mutations might represent hot-spot genes in Chinese populations with HCLS deficiency. The variants c.1484T > G(p.L495*) and c.835G > T(p.E279x) are likely pathogenic, and more studies are needed to confirm these results.

Abordaje metabólico en las encefalopatía epilépticas del lactante / Metabolic approach in epileptic encephalopathies in infants

Introducción. Aunque la incidencia global de los errores congénitos del metabolismo es baja, su diagnóstico precoz es fundamental, ya que algunos de ellos tienen tratamiento específico. Desarrollo. Se revisan los principales errores congénitos del metabolismo tratables que pueden cursar como encefalopatía epiléptica de inicio precoz, así como sus marcadores bioquímicos y su tratamiento. Conclusiones. Es importante pensar en la posibilidad de un error congénito del metabolismo con terapia específica, ya que es fundamental que ésta comience lo antes posible para evitar un daño neurológico permanente (AU)

Introduction. Although the overall incidence of inborn errors of metabolism is low, their early diagnosis is essential, since some of them have a specific treatment. Development. We review the main treatable inborn errors of metabolism that can present as early-onset epileptic encephalopathies, together with their biochemical markers and their treatment. Conclusions. It is important to think about the possibility of an inborn error of metabolism with a specific therapy, since it is crucial for this to be started as soon as possible in order to prevent permanent neurological damage (AU)

Deficiencia de holocarboxilasa sintetasa de presentación tardía con actividad piruvato carboxilasa normal / Delayed onset holocarboxylase synthetase deficiency with normal pyruvate carboxylase activity

Se presenta un caso de deficiencia de holocarboxilasa sintetasa con actividad piruvato carboxilasa normal en linfocitos en una niña de 8 años con clínica de intoxicación y sin la clásica afectación dermatológica. La identificación de 3 cambios nucleotídicos en el gen HCLS, habiendo sido descrito como mutación patogénica solo uno de ellos, podría estar relacionada con una variante leve de la enfermedad que explicaría la presentación inusual más allá de la época de lactante. El tratamiento con biotina a 40 mg/día, junto con dieta controlada en proteínas, permite un crecimiento físico y un desarrollo psicomotor normales para su edad

We report a case of holocarboxylase synthetase deficiency with normal pyruvate carboxylase activity in the lymphocytes of an 8 year-old girl with clinical toxicity without the classic dermatological involvement. The identification of three nucleotide changes in the holocarboxylase synthetase (HLCS) gene, only one of them described as a pathogenic mutation could be related to a slight variant of the disease that would explain the unusual presentation beyond the age of infant. Treatment with biotin at 40 mg/day with protein controlled diet allows normal physical growth and psychomotor development for their age

[Delayed onset holocarboxylase synthetase deficiency with normal pyruvate carboxylase activity]. / Deficiencia de holocarboxilasa sintetasa de presentación tardía con actividad piruvato carboxilasa normal.

We report a case of holocarboxylase synthetase deficiency with normal pyruvate carboxylase activity in the lymphocytes of an 8 year-old girl with clinical toxicity without the classic dermatological involvement. The identification of three nucleotide changes in the holocarboxylase synthetase (HLCS) gene, only one of them described as a pathogenic mutation could be related to a slight variant of the disease that would explain the unusual presentation beyond the age of infant. Treatment with biotin at 40 mg/day with protein controlled diet allows normal physical growth and psychomotor development for their age.

The first reported HLCS gene mutation causing holocarboxylase synthetase deficiency in a Vietnamese patient.

BACKGROUND: Holocarboxylase synthetase deficiency is an inborn error of biotin metabolism leading to multiple carboxylase deficiency which is often biotin responsive. This disease is believed to be relatively common among the Asian population. METHODS: A 6-year-old Vietnamese boy presented with recurrent episodes of severe metabolic acidosis precipitated by intercurrent illnesses. An extensive skin rash was present since the onset of his illness. Multiple carboxylase deficiency was considered a likely diagnosis based on the history and the characteristic skin rash. RESULTS: This diagnosis was later confirmed by urine organic acid and molecular genetic studies. Urine organic acid showed characteristic excretion of glycine conjugates. Serum biotinidase activity was normal. Sequencing of the holocarboxylase synthetase gene revealed the patient being homozygous for a common mutation R508W. The patient showed a dramatic response to biotin within days of its administration. CONCLUSION: This case illustrates a potential highly treatable inborn error of metabolism that can be recognized on clinical grounds and its favorable response to biotin treatment.

[Diagnosis, treatment and gene mutation analysis in children with holocarboxylase synthetas deficiency].

OBJECTIVE: To report the clinical diagnosis, treatment and follow-up of children with holocarboxylase synthetas(HCS) deficiency and explore the gene mutation spectrum of the disease. METHODS: Eleven children with HCS deficiency were enrolled. Mass spectrometry analysis and biotinidase activity determination were used for diagnosis of HCS deficiency. HCS gene mutations were analyzed by PCR directed sequencing methods. Ten patients received oral biotin treatment (10-40 mg/d). Clinical effects of biotin treatment were observed. RESULTS: All 11 cases developed apathetic, lethargy and metabolic acidosis at different degrees, and 10 cases presented with skin lesions. The average blood 3-hydroxyisovaleryl-carnitine concentrations and urinary 3-methylcrontonylglycine and methylcitrate concentrations increased significantly. The biotinidase activity increased, being higher over 30% of the normal reference value. Four mutations in HCS gene were identified, and they were c.1522C>T (R508W), c.1088T>A (V363D), c.126G>T (E42D) and c.1994G>C (R665P) (a new variant) and the frequency was 50%, 29%, 7% and 14% respectively. The symptoms disappeared in 10 cases 1-2 weeks after biotin treatment, and blood and urinary abnormal metabolites were gradually reduced to normal 2-6 months after treatment. CONCLUSIONS: HCS deficiency is characterized by nervous system damage, skin lesions and metabolic acidosis. Mass spectrometry analysis, biotinidase activity determination and gene mutation analysis may be helpful in the definite diagnosis of this disorder. The effect of early biotin treatment is satisfactory. The mutations R508W and V363D might be hot-spots in Chinese children with HCS deficiency.

A case of holocarboxylase synthetase deficiency with insufficient response to prenatal biotin therapy.

Holocarboxylase synthetase (HCS) deficiency is an inborn error of biotin metabolism, leading to a multiple carboxylases deficiency. As the affected fetus sometimes presents with enlargement of the cerebral ventricles and intrauterine growth retardation (IUGR), prenatal administration of biotin has been attempted in some pregnancies. We present herein the case of a Japanese neonate with HCS deficiency who received maternal administration of biotin (10mg/day) from 33 weeks' gestation. After biotin administration, the fetal body weight increased and gestation was continued to full term. However, lactic acidemia and metabolic acidosis were observed after birth. To evaluate the effects of prenatal therapy, we collected serum samples and measured the acylcarnitine profiles using high-performance liquid chromatography electrospray ionization tandem mass spectrometry. At birth, levels of propionylcarnitine and 3-hydroxyisovalerylcarnitine had already increased. At 2h after birth, these levels of acylcarnitines were further increased. At 3.5h after the start of biotin, these chemical findings were slightly improved. In conclusion, we considered that prenatal biotin therapy at 10mg/day may have been inadequate to avoid neonatal acidotic crisis in this case.

Carnitine transporter and holocarboxylase synthetase deficiencies in The Faroe Islands.

Carnitine transporter deficiency (CTD) and holocarboxylase synthetase deficiency (HLCSD) are frequent in The Faroe Islands compared to other areas, and treatment is available for both disorders. In order to evaluate the feasibility of neonatal screening in The Faroe Islands we studied detection in the neonatal period by tandem mass spectrometry, carrier frequencies, clinical manifestations, and effect of treatment of CTD and HLCSD. We found 11 patients with CTD from five families and 8 patients with HLCSD from five families. The natural history of both disorders varied extensively among patients, ranging from patients who presumably had died from their disease to asymptomatic individuals. All symptomatic patients responded favourably to supplementation with L: -carnitine (in case of CTD) or biotin (in case of HLCSD), but only if treated early. Estimates of carrier frequency of about 1:20 for both disorders indicate that some enzyme-deficient individuals remain undiagnosed. Prospective and retrospective tandem mass spectrometry (MS/MS) analyses of carnitines from neonatally obtained filter-paper dried blood-spot samples (DBSS) uncovered 8 of 10 individuals with CTD when using both C(0) and C(2) as markers (current algorithm) and 10 of 10 when using only C(0) as marker. MS/MS analysis uncovered 5 of 6 patient with HLCSD. This is the first study to report successful neonatal MS/MS analysis for the diagnosis of HLCSD. We conclude that CTD and HLCSD are relatively frequent in The Faroe Islands and are associated with variable clinical manifestations, and that diagnosis by neonatal screening followed by early therapy will secure a good outcome.

Holocarboxylase synthetase deficiency presenting as ichthyosis.

Holocarboxylase synthetase deficiency is a rare autosomal recessive disorder of biotin metabolism. Clinical manifestations usually present within the first few days of life and include severe acidosis, feeding difficulties, breathing abnormalities, vomiting, seizures, progressive loss of consciousness, coma, and death. Skin findings, when present, usually develop within the first weeks of life and are described as an erythroderma-like dermatitis involving the eyebrows, eyelashes, and scalp. We were asked to consult on a newborn with a collodion membrane and severe metabolic acidosis who was eventually diagnosed with holocarboxylase synthetase deficiency and ichthyosis. The diagnosis of holocarboxylase synthetase deficiency might be considered in a newborn with collodion membrane, ichthyosis, and acidosis.

First prenatal molecular diagnosis in a family with holocarboxylase synthetase deficiency.

OBJECTIVES: We report on the first prenatal molecular diagnosis of holocarboxylase synthetase (HLCS) deficiency in the fourth pregnancy of an at-risk family. This disorder is a rare autosomal recessive inborn error of metabolism, leading to a multiple carboxylase defect (MCD). HLCSD diagnosis was performed postmortem in the proband on DNA from autoptic biological material. Molecular analysis of the proband's entire HLCS gene by direct sequencing identified the R508W amino acid change, at the homozygous status. METHODS: Fetal DNA was isolated from chorionic villus sampling at 11 weeks of gestation. Direct sequencing of exon 6 of the fetal HLCS gene was performed. RESULTS: The R508W mutation was identified in the fetal DNA at the homozygous level. The genetic lesion was confirmed on abortive tissue. CONCLUSION: Molecular diagnosis has several advantages over enzymatic activity assay of carboxylases in chorionic villi or amniocytes. It can be performed earlier, is faster, and the response time is shorter.