An incidental finding in newborn screening leading to the diagnosis of a patient with ECHS1 mutations.

Short-chain enoyl-CoA hydratase (ECHS1) is a mitochondrial beta-oxidation enzyme involved in the metabolism of acyl-CoA fatty acid esters, as well as in valine metabolism. ECHS1 deficiency has multiple manifestations, including Leigh syndrome early at birth or in childhood with poor prognosis, to cutis laxa, exercise-induced dystonia and congenital lactic acidosis. Here we describe the case of a newborn with mutations in ECHS1 that caught our attention after the incidental finding of 3-hydroxy-butyryl\3-hydroxy-isobutyryl\malonylcarnitine (C4OH\C3DC) and tiglylcarnitine (C5:1) on blood spot in the newborn screening (NBS) program. Diagnosis was suspected based on the analysis of organic acids on dried urine spot. A moderate increase of 2-methyl-2,3-dihydroxybutyric acid, was detected, which is a known marker of this disease. Exome analysis showed c.404A>G (p.Asn135Ser) mutation in homozygosis in the ECHS1 gene. The child was therefore admitted to the hospital. Initial examination showed little response to auditory stimuli and mild hypertonia of the extremities. Clinical deterioration was evident at 4 months of age, including neurological and cardiac involvement, and the patient died at 5 months of age. This case illustrates how an incidental detection in the NBS Program can lead to the diagnosis ECHS1 deficiency. Although it is a severe disease, with no treatment available, early detection would allow adequate genetic counseling avoiding the odyssey that suffered most of these families.

A statistical algorithm showing coenzyme Q10 and citrate synthase as biomarkers for mitochondrial respiratory chain enzyme activities.

Laboratory data interpretation for the assessment of complex biological systems remains a great challenge, as occurs in mitochondrial function research studies. The classical biochemical data interpretation of patients versus reference values may be insufficient, and in fact the current classifications of mitochondrial patients are still done on basis of probability criteria. We have developed and applied a mathematic agglomerative algorithm to search for correlations among the different biochemical variables of the mitochondrial respiratory chain in order to identify populations displaying correlation coefficients >0.95. We demonstrated that coenzyme Q10 may be a better biomarker of mitochondrial respiratory chain enzyme activities than the citrate synthase activity. Furthermore, the application of this algorithm may be useful to re-classify mitochondrial patients or to explore associations among other biochemical variables from different biological systems.

Molecular testing of 163 patients with Morquio A (Mucopolysaccharidosis IVA) identifies 39 novel GALNS mutations.

Morquio A (Mucopolysaccharidosis IVA; MPS IVA) is an autosomal recessive lysosomal storage disorder caused by partial or total deficiency of the enzyme galactosamine-6-sulfate sulfatase (GALNS; also known as N-acetylgalactosamine-6-sulfate sulfatase) encoded by the GALNS gene. Patients who inherit two mutated GALNS gene alleles have a decreased ability to degrade the glycosaminoglycans (GAGs) keratan sulfate and chondroitin 6-sulfate, thereby causing GAG accumulation within lysosomes and consequently pleiotropic disease. GALNS mutations occur throughout the gene and many mutations are identified only in single patients or families, causing difficulties both in mutation detection and interpretation. In this study, molecular analysis of 163 patients with Morquio A identified 99 unique mutations in the GALNS gene believed to negatively impact GALNS protein function, of which 39 are previously unpublished, together with 26 single-nucleotide polymorphisms. Recommendations for the molecular testing of patients, clear reporting of sequence findings, and interpretation of sequencing data are provided.

The molecular landscape of phosphomannose mutase deficiency in iberian peninsula: identification of 15 population-specific mutations.

PMM2-CDG is an autosomal recessive disorder and the most frequent form of congenital disorder of N-glycosylation, with more than 100 mutations identified to date. Sixty-six patients from 58 unrelated families were diagnosed as PMM2-CDG (CDG-Ia) based on clinical signs or because of a previous affected sibling. They all presented a type 1 serum transferrin isoform pattern, and, in most cases, the disease was confirmed by determining PMM2 activity in fibroblasts and/or lymphocytes. Residual PMM2 activity in fibroblasts ranged from not detectable to 60% of the mean controls. DNA and RNA were isolated from fresh blood or fibroblasts from patients to perform molecular studies of the PMM2 gene, resulting in the identification of 30 different mutations, four of them newly reported here (p.Y102C, p.T118S, p.P184T, and p.D209G). From these 30 mutations, 15 have only been identified among Iberian PMM2-CDG patients. As in other Caucasian populations, p.R141H was the most frequent mutation (24 alleles, prevalence 20.6%), but less than in other European series in which this mutation represents 35-43% of the disease alleles. The next frequent mutations were p.D65Y (12 alleles, prevalence 10.3%) and p.T237M (9 alleles, prevalence 7.6%), while p.F119L and p.E139K, the most frequent changes in Scandinavian and French populations, respectively, were not found in our patients. The most common genotype was [p.R141H] + [p.T237M], and four homozygous patients for p.Y64C, p.D65Y, p.P113L, and p.T237M were detected. The broad mutational spectrum and the diversity of phenotypes found in the Iberian populations hamper genotype-phenotype correlation.

The role of human demographic history in determining the distribution and frequency of transferase-deficient galactosaemia mutations.

Classical or transferase-deficient galactosaemia is an inherited metabolic disorder caused by mutation in the human Galactose-1-phosphate uridyl transferase (GALT) gene. Of some 170 causative mutations reported, fewer than 10% are observed in more than one geographic region or ethnic group. To better understand the population history of the common GALT mutations, we have established a haplotyping system for the GALT locus incorporating eight single nucleotide polymorphisms and three short tandem repeat markers. We analysed haplotypes associated with the three most frequent GALT gene mutations, Q188R, K285N and Duarte-2 (D2), and estimated their age. Haplotype diversity, in conjunction with measures of genetic diversity and of linkage disequilibrium, indicated that Q188R and K285N are European mutations. The Q188R mutation arose in central Europe within the last 20 000 years, with its observed east-west cline of increasing relative allele frequency possibly being due to population expansion during the re-colonization of Europe by Homo sapiens in the Mesolithic age. K285N was found to be a younger mutation that originated in Eastern Europe and is probably more geographically restricted as it arose after all major European population expansions. The D2 variant was found to be an ancient mutation that originated before the expansion of Homo sapiens out of Africa.

Mutational study in the PDHA1 gene of 40 patients suspected of pyruvate dehydrogenase complex deficiency.

We screened for PDHA1 mutations in 40 patients with biochemically demonstrated PDHc deficiency or strong clinical suspicion, and found changes with probable pathological significance in 20. Five patients presented new mutations: p.A169V, c.932_938del, c.1143_1144 ins24, c.1146_1159dup and c.510-30G> A, this latter is a new undescribed cause of exon 6 skipping. Another four mutations have been found, and previously reported, in our patients: p.H113D, p.P172L, p.Y243del and p.Y369Q. Eleven patients presented seven known mutations: p.R127Q, p.I166I, p.A198T, p.R263G, p.R302C, p.R378C and c.1142_1145dup. The latter three were found in more than one unrelated patient: p.R302C was detected in a heterozygous girl and a mosaic male, p.R378C in two males and finally, c.1142_1145dup in three females; only one in 20 mothers was found to be a carrier (p.R263G). Apart from those 20 patients, the only alteration detected in one girl with clear PDHc and PDH-E1 deficiency was the silent change c.396A> C (p.R132R), and other eight PDHc deficient patients carry combinations of known infrequent polymorphisms that are overrepresented among our 20 unsolved patients. The importance of these changes on PDH activity is unclear. Investigations in the other PDHc genes are in course in order to elucidate the genetic defect in the unresolved patients.

Identification of a novel pseudodeficiency allele in the GLB1 gene in a carrier of GM1 gangliosidosis.

The term 'pseudodeficiency' is used in lysosomal storage diseases to denote the situation in which individuals show greatly reduced enzyme activity but remain clinically healthy. Pseudodeficiencies have been reported for several lysosomal hydrolases. GM1 gangliosidosis is a rare autosomal recessive lysosomal storage disorder caused by beta-galactosidase hydrolase deficiency as a result of mutations in the GLB1 gene. Until now, two variants altering the beta-galactosidase activity have been described, p.Arg521Cys and p.Ser532Gly. Here we report the new variant p.Arg595Trp in the GLB1 gene, which markedly reduces beta-galactosidase activity when expressed in COS-1 cells. The variant was identified in the healthy father of a girl with GM1 gangliosidosis. He was a heterozygous compound with p.Arg595Trp in trans with one of the disease-causing mutations identified in his daughter; in leukocytes and plasma he showed lower beta-galactosidase activity than that observed in GM1 gangliosidosis carriers. As this family originated from the Basque Country in the north of Spain, we decided to analyse individuals of Basque and non-Basque origin, finding the p.Arg595Trp allele in 3.2% of Basque and in 0.8% of non-Basque alleles. The detection of the presence of alterations resulting in pseudodeficient activity in leukocytes and plasma is important for the correct diagnosis of GM1 gangliosidosis.

A new infantile case of alpha-N-acetylgalactosaminidase deficiency. Cardiomyopathy as a presenting symptom.

alpha-N-Acetylgalactosaminidase deficiency is a lysosomal disorder with clinically very different infantile and adult forms. To date, 12 patients from eight families are known. Neuroaxonal dystrophy or moderate psychomotor retardation, without visceral involvement, have been reported in the infantile form. We describe a new Spanish patient with Schindler disease who presented with hepatomegaly and cardiomyopathy, traits not previously associated with this disease. There was no dysmorphism or neurological involvement in the patient, who died at the age of 8 months. alpha-N-Acetylgalactosaminidase activity was reduced in fibroblasts and liver to 1.6% and 0.57% of controls, respectively. Several lysosomal enzyme activities associated with infantile cardiomyopathy were found in the normal ranges. The patient was a compound heterozygote for the novel mutation p.D217N (c.649G>A) in exon 6 and the already reported mutation p.E325K (c.973G>A) in exon 8. The description of this new case broadens the clinical spectrum of the infantile forms and indicates that Schindler disease should be considered in the diagnosis of metabolic cardiomyopathies.

Mutational spectrum of classical galactosaemia in Spain and Portugal.

Classical galactosaemia is an autosomal recessive inherited metabolic disorder due to deficient galactose-1-phosphate uridyltransferase (GALT). Over 180 different base changes and disease-causing mutations have been reported in the GALT gene. Mutation p.Q188R was found to be the most common molecular defect among caucasian classical galactosaemia patients. We have characterized the spectrum of GALT mutations in a group of 51 Spanish families and 32 Portuguese families with this disease. p.Q188R is also the most prevalent mutation in the Spanish and Portuguese population, accounting for 50% and 57.8% of galactosaemic alleles, respectively. An additional 15 mutations were also identified in Spanish patients, four of which were novel: p.D28H, p.S181A, c.658dupG and c.377+53_1059+87del. In the Portuguese population, 11 different mutations were found, three of which were novel: p.R33H, p.P185S, and p.S192G. The differences observed between the genotypes identified in Portuguese and Spanish galactosaemic populations are notable. Only mutations p.Q188R, p.R148Q and c.820+13g>a were identified in both populations. In spite of the geographical proximity of Spain and Portugal, it seems that they have received genetic influences from different populations. The repeated migrations that occurred in the Iberian Peninsula throughout centuries may explain such variability.

Biochemical and molecular studies in 26 Spanish patients with congenital disorder of glycosylation type Ia.

We present our experience with the diagnosis of 26 patients (19 families) with congenital disorders of glycosylation classified as type Ia due to PMM deficiency. In all but one of these CDG Ia families the patients are compound heterozygous for mutations in PMM2. Eighteen different mutations were detected. In contrast to other series in which R141H represents 43-50% of the alleles, only 9/36 (25%) alleles have this mutation. Two mutations (R123Q and T237M) have been found on three disease chromosomes, four (V44A, Y64C, P113L and F207S) on two disease chromosomes and 12 mutations (D65Y, Y76C, IVS3+2C>T, E93A, R123X, V129M, I153T, F157S, E197A, N216I, T226S, C241S) only on one disease chromosome. V44A and D65Y probably originated in the Iberian peninsula, as they have only been reported in Portuguese and Latin-American patients; Y64C, Y76C, R123X and F207S have not been detected in other patients. R123X is the only stop codon mutation so far described in PMM2. The common European F119L mutation has not been found in our patients, although it is very frequent in other populations (43% allele frequency in Danish patients). Probably because of this genetic heterogeneity, Spanish patients show very diverse phenotypes that are, in general, milder than in other series. This points to the necessity of widening the criteria for CDG in the routine screening for inborn metabolic diseases.

Identification of 12 novel mutations and two new polymorphisms in the arylsulfatase A gene: haplotype and genotype-phenotype correlation studies in Spanish metachromatic leukodystrophy patients.

Arylsulfatase A (ARSA) deficiency is the main cause of metachromatic leukodystrophy (MLD), a lysosomal disorder with no specific treatment. In view of the importance of genetic counseling, analyses of mutations and polymorphisms, including the ARSA pseudodeficiency allele, were carried out in 18 unrelated Spanish MLD patients. A systematic search allowed us to identify 100% of the alleles involving 17 different mutations, 12 of which are novel: G32S, L68P, R84W, P94A, G99V, P136S, W193X, H227Y, R288H, G308D, T327I, and IVS6-12C-->G. Two new polymorphisms, 2033C>T and 2059C>T, were identified in intron 6 which, in combination with two polymorphisms previously described (2161C>G and 2213C>G), gave rise to four different haplotypes in the control population. In addition, we also studied polymorphism 842G>T. Linkage disequilibrium was detected between mutations IVS2+1G-->A, D255H, and T327I and specific haplotypes, suggesting a unique origin for these mutations. Moreover, mutation T327I was always associated with the T allele of the new rare variant A210A (893C>T). The distribution of mutation D255H (frequency 19.4%) among patients with different MLD clinical presentation revealed a clear genotype-phenotype correlation paralleling that reported for mutation IVS2+1G-->A (frequency 25%). Among the novel mutations, only P136S and R288H occurred on a background of the ARSA pseudodeficiency allele. Screening 182 normal chromosomes identified a frequency of 8.8% of this allele; moreover, we identified two unrelated subjects with the polyA- mutation in the absence of the N350S mutation, and this infrequent haplotype reinforced the heterogeneity of conditions with ARSA deficiency.

Mutation analysis of Gaucher disease patients from Argentina: high prevalence of the RecNciI mutation.

Gaucher disease (GD) is caused by a deficiency of beta-glucocerebrosidase activity mainly due to mutations in the gene coding for the enzyme. More than 100 mutations have been identified to date and their frequencies have been established in several populations, including Ashkenazi Jews, among whom the disease is particularly prevalent. In order to study the molecular pathology of the disease in patients from Argentina, we conducted a systematic search for mutations in the glucocerebrosidase gene. Genomic DNA from 31 unrelated GD patients was screened for seven previously described mutations: N370S (1226A-->G), L444P (1448T-->C), D409H (1342G-->C), R463C (1504C-->T), 1263de155, RecNciI, and RecTL. This allowed the identification of 77.4% of the GD alleles: N370S and RecNciI were the most prevalent mutations found (46.8% and 21% respectively). Southern analysis demonstrated three distinct patterns for the RecNciI alleles. In order to identify the remaining alleles, the full coding region of the gene, all the splice sites, and part of the promoter region were analyzed by single-strand conformational polymorphism analysis (SSCP) after polymerase chain reaction amplification. This extensive screening allowed the identification of 13 different mutations, accounting for 93% of the total number of GD alleles. Three novel missense mutations, I161S (599T-->G), G265D (911G-->A), and F411I (1348T-->A), were detected. Twelve polymorphic sites within the glucocerebrosidase gene are in complete linkage disequilibrium and define two major haplotypes, "-" and "+". Mutation N370S was always associated with the "-" haplotype, as described in other populations. Interestingly, the RecNciI alleles with the same Southern-blot pattern were always associated with the same haplotype.

Hunter disease in the Spanish population: molecular analysis in 31 families.

Mucopolysaccharidosis type II (Hunter disease) is an X-linked disorder due to deficiency of the lysosomal enzyme iduronate 2-sulphatase. Here we report an update of molecular studies in 31 Spanish families with Hunter disease. We found a total of 22 novel small mutations (7 reported previously by our group), and 4 large deletions or rearrangements. Particularly relevant are two mutations, one showing an alternatively spliced product although the normal splice site is conserved; the other mutation results in an amino acid change that most likely modifies regulation of expression of the IDS gene. Except for large gene alterations and for the G374sp mutation already described, we could not establish a clear phenotype-genotype correlation. Mutation G374sp is the point mutation most frequent in our population (10%) and is always associated with mild phenotype. Our molecular analyses carried out in a relatively large series of patients with Hunter disease contribute to the identification of new mutations and reinforce the conclusions drawn in other populations about the genotype-phenotype correlation and the gene distribution of mutations.

Recurrence of the D409H mutation in Spanish Gaucher disease patients: description of a new homozygous patient and haplotype analysis.

Gaucher disease results, in most patients, from mutations in the gene encoding glucocerebrosidase. Mutation D409H is the third most frequent in Spanish patients, accounting for 5.7% of all mutated alleles. This allele is associated mainly with the neurological forms of the disease. Recently, homozygosity for the D409H mutation has been associated with a particular phenotype, including specific cardiovascular symptoms. Here we report a second Spanish patient bearing the D409H/D409H genotype with a very early manifestation of the disease. The patient started enzyme replacement therapy at 3 months of age. A common origin for the Spanish D409H alleles was ruled out by haplotype analysis using an internal polymorphism of the glucocerebrosidase gene and two external microsatellite markers.