Biotin-responsive Multiple Carboxylase Deficiency (MCD).

This study aimed to determine the clinical spectrum and biochemical findings on urine organic acids (UOA) in Biotin-responsive multiple carboxylase deficiency (MCD) patients presenting to the biochemical genetics laboratory (BGL). Patients reported as MCD, from January 2013-December 2020 were included. The UOA was analysed by gas chromatography mass spectrometer. Demographic, clinical, and biochemical details were extracted from the BGL history form. Two hundred and two patients were reported to have biotin responsive MCD with 111(55%) males and a median (Q3-Q1) age of 7 months (13-4). Of these 71.7% (n=145) patients presented in infantile period. Parental consanguinity was observed in 80% (n=161) and another 32.6% (n=66) cases grandparents were cousins. The main presenting features were seizures, developmental delay, and lethargy. The common peaks were determined on UOA 3OHIVA, MC and MCC. MCD is not rare in Pakistani population; it is recommended to include this disorder in newborn screening programs. Key Words: Biotin responsive multiple carboxylase deficiency, Organic acids, Amino acids, Pakistan, Inborn errors of metabolism.

Expert consensus on screening, diagnosis and treatment of multiple carboxylase deficiency.

Multiple carboxylase deficiency (MCD) includes autosomal recessive holocarboxylase synthetase (HLCS) deficiency and biotinidase (BTD) deficiency, which are caused by and gene mutations respectively. Neonatal screening for HLCS deficiency is based on 3-hydroxyisovaleryl carnitine in dry blood filter paper, and BTD deficiency is based on BTD activity determination. HLCS deficiency and BTD deficiency are characterized by neurocutaneous syndrome and organic aciduria, however, they are different in onset age, neurological symptoms and metabolic decompensation, which needed to be differentiated from acquired biotin deficiency or other genetic metabolic diseases. The diagnosis of the disease requires a combination of biochemical characteristics of hematuria, enzyme activity determination and genetic test. Routine biotin doses are effective for most MCD patients. This consensus is intended to benefit early screening and diagnosis of MCD.

Expert consensus on screening, diagnosis and treatment of multiple carboxylase deficiency / 浙江大学学报·医学版

Multiple carboxylase deficiency (MCD) includes autosomal recessive holocarboxylase synthetase (HLCS) deficiency and biotinidase (BTD) deficiency, which are caused by and gene mutations respectively. Neonatal screening for HLCS deficiency is based on 3-hydroxyisovaleryl carnitine in dry blood filter paper, and BTD deficiency is based on BTD activity determination. HLCS deficiency and BTD deficiency are characterized by neurocutaneous syndrome and organic aciduria, however, they are different in onset age, neurological symptoms and metabolic decompensation, which needed to be differentiated from acquired biotin deficiency or other genetic metabolic diseases. The diagnosis of the disease requires a combination of biochemical characteristics of hematuria, enzyme activity determination and genetic test. Routine biotin doses are effective for most MCD patients. This consensus is intended to benefit early screening and diagnosis of MCD.

Multiple Carboxylase Deficiency Organic Acidemia as a Cause of Infantile Seizures.

Multiple carboxylase deficiency organic Acidemia is a rare inherited metabolic disorder. It is autosomal recessive disorder of two types: Holocarboxylase deficiency and Biotinidase deficiency. It is the metabolic disorder resulting from deficiency of biotin as a co-enzyme or reduced activity of biotin-dependent carboxylases (propionyl CoA carboxylase, and 3-methylcrotonyl CoA carboxylase and pyruvate carboxylase). A case of two months' female child is reported, who presented with recurrent infantile seizures and skin rash since birth; and biochemically with metabolic acidosis, hyper-ammonemia (on and off) since birth with multiple hospitalization. She had past history of jaundice. One sibling's death at 2nd day of life due to similar complaints. Initial presentation of raised ammonia and lactate levels were the first indication to this organic academia, which was later proven by increased peak levels of various organic acids on urine organic acid analysis by gas chromatography-mass spectrometry. Key Words: Multiple carboxylase deficiency, Holocarboxylase synthetase deficiency, Biotinidase deficiency.

[Gene variant analysis of a patient with multiple carboxylase deficiency].

OBJECTIVE: To explore the genetic basis for a patient featuring multiple carboxylase deficiency (MCD). METHODS: PCR and Sanger sequencing were used to detect variant in the coding region of BT and HLCS genes in the patient. Suspected variants were verified in her parents and 80 unrelated healthy controls by a PCR-restriction fragment length polymorphism (PCR-RFLP) method. RESULTS: The patient was found to carry compound heterozygous variants of the HLCS gene, namely c.286delG (p.Val96Leufs*162) and c.1648G>A (p.Val550Met). The c.286delG (p.Val96Leufs*162) was verified to be novel variant based on the result of PCR-RFLP analysis. No variant was found in the coding regions of BT gene in the patient. CONCLUSION: The compound c.286delG (p.Val96Leufs*162) and c.1648G>A (p.Val550Met) variants probably underlie the MCD disorder in this patient. Above results have enriched the variant spectrum of MCA.

Gene variant analysis of a patient with multiple carboxylase deficiency / 中华医学遗传学杂志

OBJECTIVE@#To explore the genetic basis for a patient featuring multiple carboxylase deficiency (MCD).@*METHODS@#PCR and Sanger sequencing were used to detect variant in the coding region of BT and HLCS genes in the patient. Suspected variants were verified in her parents and 80 unrelated healthy controls by a PCR-restriction fragment length polymorphism (PCR-RFLP) method.@*RESULTS@#The patient was found to carry compound heterozygous variants of the HLCS gene, namely c.286delG (p.Val96Leufs*162) and c.1648G>A (p.Val550Met). The c.286delG (p.Val96Leufs*162) was verified to be novel variant based on the result of PCR-RFLP analysis. No variant was found in the coding regions of BT gene in the patient.@*CONCLUSION@#The compound c.286delG (p.Val96Leufs*162) and c.1648G>A (p.Val550Met) variants probably underlie the MCD disorder in this patient. Above results have enriched the variant spectrum of MCA.

Genetic mimics of cerebral palsy.

The term "cerebral palsy mimic" is used to describe a number of neurogenetic disorders that may present with motor symptoms in early childhood, resulting in a misdiagnosis of cerebral palsy. Cerebral palsy describes a heterogeneous group of neurodevelopmental disorders characterized by onset in infancy or early childhood of motor symptoms (including hypotonia, spasticity, dystonia, and chorea), often accompanied by developmental delay. The primary etiology of a cerebral palsy syndrome should always be identified if possible. This is particularly important in the case of genetic or metabolic disorders that have specific disease-modifying treatment. In this article, we discuss clinical features that should alert the clinician to the possibility of a cerebral palsy mimic, provide a practical framework for selecting and interpreting neuroimaging, biochemical, and genetic investigations, and highlight selected conditions that may present with predominant spasticity, dystonia/chorea, and ataxia. Making a precise diagnosis of a genetic disorder has important implications for treatment, and for advising the family regarding prognosis and genetic counseling. © 2019 International Parkinson and Movement Disorder Society.

Biotin in metabolism, gene expression, and human disease.

Biotin is a water-soluble vitamin that belongs to the vitamin B complex and which is an essential nutrient of all living organisms from bacteria to man. In eukaryotic cells biotin functions as a prosthetic group of enzymes, collectively known as biotin-dependent carboxylases that catalyze key reactions in gluconeogenesis, fatty acid synthesis, and amino acid catabolism. Enzyme-bound biotin acts as a vector to transfer a carboxyl group between donor and acceptor molecules during carboxylation reactions. In recent years, evidence has mounted that biotin also regulates gene expression through a mechanism beyond its role as a prosthetic group of carboxylases. These activities may offer a mechanistic background to a developing literature on the action of biotin in neurological disorders. This review summarizes the role of biotin in activating carboxylases and proposed mechanisms associated with a role in gene expression and in ameliorating neurological disease.

Biochemical signatures mimicking multiple carboxylase deficiency in children with mutations in MT-ATP6.

Elevations of specific acylcarnitines in blood reflect carboxylase deficiencies, and have utility in newborn screening for life-threatening organic acidemias and other inherited metabolic diseases. In this report, we describe a newly-identified association of biochemical features of multiple carboxylase deficiency in individuals harboring mitochondrial DNA (mtDNA) mutations in MT-ATP6 and in whom organic acidemias and multiple carboxylase deficiencies were excluded. Using retrospective chart review, we identified eleven individuals with abnormally elevated propionylcarnitine (C3) or hydroxyisovalerylcarnitine (C5OH) with mutations in MT-ATP6, most commonly m.8993T>G in high heteroplasmy or homoplasmy. Most patients were ascertained on newborn screening; most had normal enzymatic or molecular genetic testing to exclude biotinidase and holocarboxylase synthetase deficiencies. MT-ATP6 is associated with some cases of Leigh disease; clinical outcomes in our cohort ranged from death from neurodegenerative disease in early childhood to clinically and developmentally normal after several years of follow-up. These cases expand the biochemical phenotype associated with MT-ATP6 mutations, especially m.8993T>G, to include acylcarnitine abnormalities mimicking carboxylase deficiency states. Clinicians should be aware of this association and its implications for newborn screening, and consider mtDNA sequencing in patients exhibiting similar acylcarnitine abnormalities that are biotin-unresponsive and in whom other enzymatic deficiencies have been excluded.

An Economic Evaluation of Neonatal Screening for Inborn Errors of Metabolism Using Tandem Mass Spectrometry in Thailand.

BACKGROUND: Inborn errors of metabolism (IEM) are a rare group of genetic diseases which can lead to several serious long-term complications in newborns. In order to address these issues as early as possible, a process called tandem mass spectrometry (MS/MS) can be used as it allows for rapid and simultaneous detection of the diseases. This analysis was performed to determine whether newborn screening by MS/MS is cost-effective in Thailand. METHOD: A cost-utility analysis comprising a decision-tree and Markov model was used to estimate the cost in Thai baht (THB) and health outcomes in life-years (LYs) and quality-adjusted life year (QALYs) presented as an incremental cost-effectiveness ratio (ICER). The results were also adjusted to international dollars (I$) using purchasing power parities (PPP) (1 I$ = 17.79 THB for the year 2013). The comparisons were between 1) an expanded neonatal screening programme using MS/MS screening for six prioritised diseases: phenylketonuria (PKU); isovaleric acidemia (IVA); methylmalonic acidemia (MMA); propionic acidemia (PA); maple syrup urine disease (MSUD); and multiple carboxylase deficiency (MCD); and 2) the current practice that is existing PKU screening. A comparison of the outcome and cost of treatment before and after clinical presentations were also analysed to illustrate the potential benefit of early treatment for affected children. A budget impact analysis was conducted to illustrate the cost of implementing the programme for 10 years. RESULTS: The ICER of neonatal screening using MS/MS amounted to 1,043,331 THB per QALY gained (58,647 I$ per QALY gained). The potential benefits of early detection compared with late detection yielded significant results for PKU, IVA, MSUD, and MCD patients. The budget impact analysis indicated that the implementation cost of the programme was expected at approximately 2,700 million THB (152 million I$) over 10 years. CONCLUSION: At the current ceiling threshold, neonatal screening using MS/MS in the Thai context is not cost-effective. However, the treatment of patients who were detected early for PKU, IVA, MSUD, and MCD, are considered favourable. The budget impact analysis suggests that the implementation of the programme will incur considerable expenses under limited resources. A long-term epidemiological study on the incidence of IEM in Thailand is strongly recommended to ascertain the magnitude of problem.

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

Déficit de biotinidasa: las dos caras del cribado metabólico / Biotinidase deficiency: the two faces of metabolic screening

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[Gene mutation analyses in Chinese children with multiple carboxylase deficiency].

OBJECTIVE: To confirm the diagnosis of multiple carboxylase deficiency (MCD) on the gene level and explore the mutations in Chinese children with MCD. METHODS: Biotinidase (BT) and holocarboxylase synthetase (HLCS) genes were analyzed by PCR and direct sequencing for the 4 BT deficiency patients and 8 HLCS deficiency patients, respectively. The identified mutations in the parents of the patients and 50 normal controls were screened by PCR-restriction fragment length polymorphism and direct DNA sequencing. RESULTS: Total detection rate of gene mutation is 100% in the 12 children with MCD. Six mutations were detected in the 4 children with BT deficiency, they were c. 98-104del7ins3, c. 1369G>A (V457M), c. 1157G>A(W386X), c. 1284C>A(Y428X), c. 1384delA and c. 1493_1494insT. The last four were novel mutations. Four mutations were found in the 8 children with HLCS deficiency. They were c. 126G>T (E42D), c. 1994G>C (R665P), c. 1088T>A (V363D) and c. 1522C>T (R508W). The last two were hot-spot mutations [75%(12/16)], and c. 1994G>C (R665P) was a novel mutation. CONCLUSION: This study confirmed the diagnosis of 12 patients with MCD on the gene level. Six mutations were found in the BT gene and 4 in the HLCS gene, including 5 novel mutations. Two mutations of the HLCS gene are probably hot-spot mutations in Chinese children with HLCS 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.

Gene mutation analyses in Chinese children with multiple carboxylase deficiency / 中华医学遗传学杂志

<p><b>OBJECTIVE</b>To confirm the diagnosis of multiple carboxylase deficiency (MCD) on the gene level and explore the mutations in Chinese children with MCD.</p><p><b>METHODS</b>Biotinidase (BT) and holocarboxylase synthetase (HLCS) genes were analyzed by PCR and direct sequencing for the 4 BT deficiency patients and 8 HLCS deficiency patients, respectively. The identified mutations in the parents of the patients and 50 normal controls were screened by PCR-restriction fragment length polymorphism and direct DNA sequencing.</p><p><b>RESULTS</b>Total detection rate of gene mutation is 100% in the 12 children with MCD. Six mutations were detected in the 4 children with BT deficiency, they were c. 98-104del7ins3, c. 1369G>A (V457M), c. 1157G>A(W386X), c. 1284C>A(Y428X), c. 1384delA and c. 1493_1494insT. The last four were novel mutations. Four mutations were found in the 8 children with HLCS deficiency. They were c. 126G>T (E42D), c. 1994G>C (R665P), c. 1088T>A (V363D) and c. 1522C>T (R508W). The last two were hot-spot mutations [75%(12/16)], and c. 1994G>C (R665P) was a novel mutation.</p><p><b>CONCLUSION</b>This study confirmed the diagnosis of 12 patients with MCD on the gene level. Six mutations were found in the BT gene and 4 in the HLCS gene, including 5 novel mutations. Two mutations of the HLCS gene are probably hot-spot mutations in Chinese children with HLCS deficiency.</p>

[Biotin deficiency in amino acid formula nutrition for an infant with milk protein allergy].

We reported a 4-month-old girl with biotin deficiency caused by amino acid formula. Two weeks after birth, she was diagnosed as having a milk protein allergy. After switching to amino acid formula from usual formula, her symptoms and laboratory findings became normal. About three weeks after the beginning of amino acid formula, she developed intractable skin erosions around the eyes, mouth, neck, and anogenital area. By measuring concentrations of some trace elements, she was diagnosed as having a biotin deficit, because of the organic aciduria and undetectable serum biotin concentration. Her serum biotinidase level was normal. Upon administration of oral biotin supplementation, all her symptoms and laboratory findings were dramatically improved. Since amino acid formula contains very few biotin, we should pay attention to biotin deficiency when infants receiving amino acid formula.

Determination of 3-hydroxyisovalerylcarnitine and other acylcarnitine levels using liquid chromatography-tandem mass spectrometry in serum and urine of a patient with multiple carboxylase deficiency.

Due to its increased concentration in blood, 3-hydroxyisovalerylcarnitine (C5OH-I) is an important indicator for the diagnosis of organic acidemias in newborns. However, C5OH-I has not been used as a standard in tandem mass spectrometric (MS/MS) assays because its isolation is difficult. We developed a new synthesis of C5OH-I and investigated its behavior by MS/MS. A method using the multiple reaction monitoring (MRM) mode of MS/MS with HPLC was developed which provides high accuracy, precision and reproducibility. Acylcarnitine profiles in the serum and urine of a patient with multiple carboxylase deficiency (MCD) showed increased levels compared to a healthy patient.

From an inborn error patient to a search for regulatory meaning: a biotin conducted voyage.

This article summarizes some findings of a research that I have pursued for the past 25 years, whose roots are immersed in the field of inherited metabolic disorders, and deal with different aspects of the vitamin biotin, starting with a patient with multiple carboxylase deficiency (MCD). Several of MCD clinical manifestations resemble those of infant malnutrition; we demonstrated that about one-third of infants with this common nutritional disorder were indeed biotin-deficient, and that this deficiency is metabolically significant, by studying urine instead of blood, studying urinary organic acids by gas chromatography-mass spectrometry. Remarkably, the metabolic abnormalities became apparent only after protein feeding was started, suggesting that this phenomenon may contribute to the worsening of malnourished individuals when they are abruptly fed. Afterwards, we studied biotin deficiency at the tissue level. Carboxylase activities and masses were significantly reduced in liver, kidney, muscle, adipose tissue, intestine, and spleen, but brain and heart were spared; their mRNAs remained unchanged. On the other hand, holocarboxylase synthetase (HCS) mRNA levels were markedly low in the deficient animals, and increased upon biotin injection. Over 2000 human genes have been identified that depend on biotin for expression. To probe into the "logic" of this enigma, we have started comparative studies among evolutionarily distant organisms, such as mouse and Saccharomyces cerevisiae, and we are now looking for biotin effects on specific genes and proteins, such as HCS and hexokinases, and on their proteomes.

Clinical onset and prognosis of Asian children with organic acidemias, as detected by analysis of urinary organic acids using GC/MS, instead of mass screening.

Organic acidemias (OAs) have been detected worldwide in symptomatic patients using gas chromatography mass spectrometry. We diagnosed 188 Asian cases of OAs by analysis of urinary organic acids and investigated their clinical onset and outcome. Methylmalonic acidemia (MMA) was most common (74 cases), followed by propionic acidemia (23 cases), ornitine transcarbamylase deficiency (22 cases), and multiple carboxylase deficiency (15 cases). For these 188 patients, onset was most frequent in the neonatal period or early infancy. Approximately 30% of the patients had a family history of similar symptoms or diseases. Although the outcome of OA patients varied, patients with early onset generally had poor outcomes despite early detection. Of the 45 MMA patients whose clinical data were available, 25 were clinically vitamin B12-responsive, while the remaining 20 were non-responsive. A favorable outcome was obtained in 7 of the 25 B12-responsive patients, and in only 3 of the 20 B12-nonresponsive patients. It was suggested that even in B12-responsive MMA cases, earlier detection and B12 therapy were needed to improve the prognosis. We concluded that detection of such patients at the presymptomatic stages using newborn mass screening is essential for prognosis improvement with OAs.