Spontaneous Increase of Magnetic Flux and Chiral-Current Reversal in Bosonic Ladders: Swimming against the Tide.

The interplay between spontaneous symmetry breaking in many-body systems, the wavelike nature of quantum particles and lattice effects produces an extraordinary behavior of the chiral current of bosonic particles in the presence of a uniform magnetic flux defined on a two-leg ladder. While noninteracting as well as strongly interacting particles, stirred by the magnetic field, circulate along the system's boundary in the counterclockwise direction in the ground state, interactions stabilize vortex lattices. These states break translational symmetry, which can lead to a reversal of the circulation direction. Our predictions could readily be accessed in quantum gas experiments with existing setups or in arrays of Josephson junctions.

[Exercise-induced muscle pain due to phosphofrutokinase deficiency: Diagnostic contribution of metabolic explorations (exercise tests, 31P-nuclear magnetic resonance spectroscopy)]. / Intolérance musculaire à l'effort par déficit en phosphofructokinase : apport au diagnostic du bilan métabolique musculaire (tests d'effort, spectroscopie RMN du P31).

INTRODUCTION: Muscle phosphofructokinase deficiency, the seventh member of the glycogen storage diseases family, is also called Tarui's disease (GSD VII). METHODS: We studied two patients in two unrelated families with Tarui's disease, analyzing clinical features, CK level, EMG, muscle biopsy findings and molecular genetics features. Metabolic muscle explorations (forearm ischemic exercise test [FIET]; bicycle ergometer exercise test [EE]; 31P-nuclear magnetic resonance spectroscopy of calf muscle [31P-NMR-S]) are performed as appropriate. RESULTS: Two patients, a 47-year-old man and a 38-year-old woman, complained of exercise-induced fatigue since childhood. The neurological examination was normal or showed light weakness. Laboratory studies showed increased CPK, serum uric acid and reticulocyte count without anemia. There was no increase in the blood lactate level during the FIET or the EE although there was a light increase in the respiratory exchange ratio during the EE. 31P-NMR-S revealed no intracellular acidification or accumulated intermediates such as phosphorylated monoesters (PME) known to be pathognomic for GSD VII. Two new mutations were identified. DISCUSSION: FIET and EE were non-contributive to diagnosis, but 31P-NMR provided a characteristic spectra of Tarui's disease, in agreement with phosphofructokinase activity level in erythrocytes. Muscle biopsy does not always provide useful information for diagnosis. In these two cases, genetic studies failed to establish a genotype-phenotype correlation. CONCLUSION: The search for phosphofructokinase deficiency should be continued throughout life in adults experiencing fatigability or weakness because of the severe disability for daily life activities caused by the late onset form.

Methods for a prompt and reliable laboratory diagnosis of Pompe disease: report from an international consensus meeting.

Pompe disease is an autosomal recessive disorder of glycogen metabolism caused by a deficiency of the lysosomal enzyme acid alpha-glucosidase (GAA). It presents at any age, with variable rates of progression ranging from a rapidly progressive course, often fatal by one-year of age, to a more slowly, but nevertheless relentlessly progressive course, resulting in significant morbidity and premature mortality. In infants, early initiation of enzyme replacement therapy is needed to gain the maximum therapeutic benefit, underscoring the need for early diagnosis. Several new methods for measuring GAA activity have been developed. The Pompe Disease Diagnostic Working Group met to review data generated using the new methods, and to establish a consensus regarding the application of the methods for the laboratory diagnosis of Pompe disease. Skin fibroblasts and muscle biopsy have traditionally been the samples of choice for measuring GAA activity. However, new methods using blood samples are rapidly becoming adopted because of their speed and convenience. Measuring GAA activity in blood samples should be performed under acidic conditions (pH 3.8-4.0), using up to 2 mM of the synthetic substrate 4-methylumbelliferyl-alpha-D-glucoside or glycogen (50 mg/mL), in the presence of acarbose (3-9 microM) to inhibit the isoenzyme maltase-glucoamylase. The activity of a reference enzyme should also be measured to confirm the quality of the sample. A second test should be done to support the diagnosis of Pompe disease until a program for external quality assurance and proficiency testing of the enzymatic diagnosis in blood is established.

Clinical, morphological, and molecular aspects of sialic acid storage disease manifesting in utero.

BACKGROUND: Sialic acid storage diseases (SASDs) are caused by the defective transport of free sialic acid outside the lysosome. Apart from the Salla presentation in Finland, SASD is a very rare form of lysosomal storage disease (LSD) with approximately 35 cases, all diagnosed after birth, having been reported worldwide. We report a series of 12 French patients with very early manifestations, including eight fetuses diagnosed in utero. RESULTS: Ultrasound examination, fetal autopsy, or clinical examination showed prominent ascites, rarely progressing to complete hydrops, and highlighted the early severity of bone disease. Dramatic increase of free sialic acid in various biological samples confirmed the diagnosis in all cases. Storage staining affinities and storage distribution in placenta and fetal organs allowed differential diagnosis from other LSDs but cannot differentiate between SASD, sialidosis, and galactosialidosis. Fourteen different mutations were identified, showing the molecular heterogeneity of SASD in the French population. We found that the previously described p.Y306X mutation generated two different transcripts, and we identified seven novel mutations: three deletions (del exon 7, del exons10+11 and c.1296delT), one splice site mutation (c.1350+1G-->T) one nonsense mutation (p.W339X), and two missense mutations (p.R57C and p.G127E). CONCLUSIONS: The severity of our patients' genotypes is in agreement with their phenotypes but not with the importance and early appearance of the very frequent in utero manifestations. Minimal fetal disease in some patients and a reported case of heterogeneity of fetal involvement within a family suggest that factors other than the genotype influence fetal manifestations.

Diagnosis of mucopolysaccharidoses in a clinically selected population by urinary glycosaminoglycan analysis: a study of 2,000 urine samples.

Two thousand urine samples (from patients presenting with clinical features suggestive of a mucopolysaccharidosis, MPS) were analysed by a procedure that included a quantitative measurement of glycosaminoglycan (GAG) hexuronic acids (harmine reagent), a qualitative GAG analysis (cellulose acetate electrophoresis) and a study of urinary oligosaccharide patterns. One hundred and seventy MPS and 29 oligosaccharidosis-affected patients were found, but 23 MPS patients among the 170 would have been missed by use of a quantitative procedure only. Fourteen of these (mainly MPS IV A) were detected on the basis of abnormal electrophoresis and the 9 others on the basis of abnormal urinary oligosaccharide patterns (MPS IV B patients). Our results emphasize that normal quantitative GAG excretion alone cannot rule out a diagnosis of MPS; qualitative analysis is also required, as well as oligosaccharide screening.

Amniotic fluid for screening of lysosomal storage diseases presenting in utero (mainly as non-immune hydrops fetalis).

Seventy amniotic fluids (AF) were sampled because of abnormal ultrasound findings (mainly non-immune hydrops fetalis (54 cases) or of the presence of vacuolated lymphocytes in fetal blood (3 cases)). They were analysed by a procedure involving AF supernatant analysis (glycosaminoglycans, oligosaccharides, free sialic acid and acid hydrolase activities) and biochemical study of cultured AF cells. Ten cases of lysosomal storage diseases (LSD) were diagnosed. The reported procedure allows an orientating screening within 3 days by analysis of 15 ml of third trimester AF supernatant (except for Gaucher and Niemann-Pick diseases). In some cases, the results allow an LSD diagnosis and a medical abortion without waiting for the formal diagnosis (in cultured AF cells that needs 3 more weeks), considering the poor prognosis of these LSD presenting in utero. Furthermore, the formal assessment of the diagnosis in the cultured fetal cells allows accurate genetic counselling for the couple.

[Prenatal symptoms and diagnosis of inherited metabolic diseases]. / Maladies héréditaires du métabolisme : signes anténatals et diagnostic biologique.

Inherited metabolic diseases are mostly due to enzyme deficiency in one of numerous metabolic pathways, leading to absence of a compound downstream from and the accumulation of a compound upstream from the deficient metabolite(s). Diseases of intoxication by proteins (aminoacidopathies, organic acidurias, urea cycle defects) and by sugars (galactosemia, fructosemia) usually do not give prenatal symptoms since mothers protect their fetuses from pathological metabolite accumulation. A well-known exception is hypoplasia of corpus callosum, as is sometimes observed in nonketotic hyperglycinemia and sulfite oxidase deficiency. Conversely, women with phenylketonuria "poison" their fetus if they are not treated (spontaneous abortions, intrauterine growth restriction [IUGR], cardiac malformations, and brain disease). Amino acid synthesis defects can lead to prenatal symptoms: microcephaly in serine deficiency (detectable by amino acid analysis in fetal cord blood), and brain malformations in glutamine synthetase deficiency. Impaired folate metabolism is involved in a large fraction of neurodevelopmental defects referred to as spina bifida, yet the underlying genetic component(s) are largely unknown. Energy metabolism diseases caused by defects in the synthesis or utilization of relevant metabolites lead to organ dysfunctions or malformations, but prenatal diagnosis is usually impossible unless genetic analysis can rely on a previously affected child in the family. A somewhat intermediate condition is defects of mitochondrial beta-oxidation of fatty acids, as they may sometimes be symptomatic prenatally (notably the HELLP syndrome or other presentations), and in this case, organic acid and acylcarnitine analysis in amniotic fluid can be informative in the absence of an index case. In contrast, complex molecule diseases commonly give prenatal symptoms that may permit the diagnosis even in the absence of index cases: hydrops fetalis and skeletal anomalies in lysosomal storage diseases, hydrops fetalis in congenital disorders of glycosylation (CDG) and transaldolase deficiency, brain malformations in O-glycosylation defects, brain malformations, kidney cysts and skeletal anomalies in peroxysomal diseases (Zellweger syndrome), syndactyly, genitalia malformations, and IUGR in Smith-Lemli-Opitz (SLO) syndrome. Although many metabolic disorders show biochemical abnormalities during fetal development that are informative for prenatal diagnosis, only a fraction of them are clinically/sonographically symptomatic before birth, thus allowing for prenatal diagnosis in the absence of an index case, i.e., serine deficiency, some fatty acid beta-oxidation defects, transaldolase deficiency, lysosomal diseases, CDG, Zellweger syndrome, and SLO syndrome.

[Contribution of the measurement of globotriaosylceramide in urine to the diagnosis and follow-up of Fabry disease]. / Intérêt du dosage du globotriaosylcéramide urinaire pour le diagnostic et le suivi du traitement de la maladie de Fabry.

Globotriaosylceramide (Gb(3)) has been measured in urine of 35 male hemizygotes and 66 female heterozygotes for Fabry disease (FD). In males, Gb(3) measurement allows to confirm the diagnosis which is based on deficient α-galactosidase A (α-Gal A) activity in leukocytes. Our results show that hemizygotes for classic FD have increased Gb(3) and C24/C18 isoforms ratio. Hemizygotes for FD variants have slightly elevated or normal Gb(3) and/or C24/C18 ratio. These variants often have a residual α-Gal A activity, and milder clinical signs. In females, urinary Gb(3) is more informative than α-Gal A activity in leukocytes. Our study shows that urinary Gb(3) (measurement and C24/C18 ratio) allows the diagnosis of 92 % of classical FD heterozygotes, and is often normal in variant FD heterozygotes. The diagnosis of FD heterozygote cannot be completely excluded even if urinary Gb(3) and α-Gal A in leukocytes are normal. Urinary Gb(3) can be used for therapeutic follow-up (enzyme replacement therapy) when increased.

[Contribution of genotyping in Fabry's disease]. / Apports du génotypage dans la maladie de Fabry.

Fabry's disease is an X-linked disorder due to mutations in the GLA gene encoding the lysosomal enzyme alpha-galactosidase A. Clinically, most patients present with the "classical" form, though "variant" forms with inaugural or preminent heart or kidney involvement have been described. Heterozygous women are most often symptomatic though generally less severely affected than men. We performed mutation analysis in 170 patients from 65 families and identified 55 different mutations. Our results confirm the wide molecular heterogeneity at this locus. Molecular study allows to confirm the diagnosis in male patients and the reliable diagnosis of heterozygous females in the family as biochemical tests (alpha-galactosidase A activity and urinary Gb(3) study) can be normal. However, in a few cases in which the index case is a female, it may remain difficult in the absence of an extensive familial study, to confirm (identification of a new missense the pathogenicity of which is unknown) or rule out (no gene alteration found) an heterozygote. Generally, genotype/phenotype correlations remain difficult as only a few mutations are more frequent. Furthermore, variations of the phenotype, even within the same family, suggest that other factors (genetic and epigenetic) could influence disease progression.

A new reversed-phase liquid chromatographic/tandem mass spectrometric method for analysis of underivatised amino acids: evaluation for the diagnosis and the management of inherited disorders of amino acid metabolism.

Seventy-six compounds of biological interest for the diagnosis of inherited disorders of amino acids (AA) metabolism have previously been demonstrated to be detectable in positive mode electrospray ionisation tandem mass spectrometry (ESI-MS/MS), after separation by ion-pairing reversed-phase liquid chromatography (RPLC). The separation method used tridecafluoroheptanoic acid as ion-pairing agent, and a gradient of acetonitrile for the elution of the most retained compounds. This method had previously been demonstrated to be suitable for the qualitative diagnosis of many AA disorders, and for the quantitative measurement of 16 AA in biological fluids, using their stable isotope labelled (SIL) AA as internal standard. For quantification of the other AA, an internal standard was chosen among the available SIL-AA, as close as possible to the analyte to be measured, in terms of structural analogy, and of retention time in the chromatographic system. The performances of the quantitative analysis of the other AA to be measured are reported here. They show validated results for several AA, allowing their accurate quantification, with another SIL-AA as internal standard. For some other AA, quantitative results were not accurate, allowing only semi-quantitative or qualitative determination for these parameters.

[Ichthyosis and steroid sulfatase: study of enzymatic activity in leukocytes and fibroblasts according to the sex and type of ichthyosis]. / Ichtyoses et stéroïde sulfatase: étude de l'activité enzymatique dans les leucocytes et les fibroblastes selon le sexe et le type d'ichtyose.

Steroidsulfatase and arylsulfatase C were determined in fibroblasts and/or leukocytes of patients affected with different types of ichthyosis. Of the 21 patients studied, 11 showed clinical characteristics of X-linked ichthyosis (XLI) and a deficiency of these 2 enzymatic activities. Patients affected with other types of ichthyosis showed no enzymatic deficiency. In XLI families diagnosis of heterozygotes was performed by enzymatic measurements in the 5 patients' mothers studied. In 2 families enzymatic activities were studied in patients' sisters. The validity of these different enzymatic measurements is discussed.

X-linked recessive ichthyosis. Enzymatic diagnosis of affected males and female carriers.

Steroid sulfatase deficiency (SSD) is a sex-linked disorder characterized clinically by generalized X-linked ichthyosis. We report a study of 10 families where the clinical diagnosis of this disorder was confirmed by measuring arylsulfatase C and steroid sulfatase (STS) in cultured skin fibroblasts and/or leukocytes of patients and heterozygotes. The optimal conditions for these enzymatic determinations were determined. Our data indicate that STS measurement is a reliable test for SSD diagnosis, either in fibroblasts or in leukocytes. For the detection of heterozygotes, several enzymatic determinations in different cell types are required.

A duplication of distal Xp associated with hypogonadotrophic hypogonadism, hypoplastic external genitalia, mental retardation, and multiple congenital abnormalities.

An unusual familial case of three sibs with a partial duplication of distal Xp sequences is described. The proband, an 18 year old boy, showed mental retardation, severe dysmorphic features, hypogonadotrophic hypogonadism (HHG), and hypoplastic external genitalia. His karyotype was 46,Y,inv dup(X) (p22.11-->p 22.32). The proband has two sisters each with the same inv dup(Xp) chromosome. Both sisters presented with short stature but were otherwise phenotypically normal. The abnormal X chromosome was inactive in the majority of cells examined. Southern blot dosage analysis indicated a duplication of distal Xp sequences. The proximal breakpoint is located between DXS28 and DXS41, and is therefore at least 2 Mb distal to the DSS locus. The relationship between the phenotype and the Xp duplication is discussed.