Haemangioma of the temporal bone.

INTRODUCTION: Haemangiomas of the temporal bone are rare tumours and haemangiomas involving the middle ear are even rarer. The exceptional nature of these lesions makes their management particularly complicated. CASE REPORT: The authors report the case of a 16-year-old girl, who presented with an osteolytic lesion of the left petrous temporal bone that proved to be a haemangioma with extension to the middle ear, causing conductive hearing loss. DISCUSSION: Surgical biopsy is essential to establish the diagnosis of haemangioma because imaging alone only rarely provides a definitive diagnosis. Surgery is the reference treatment to prevent recurrence. Arteriography is an essential part of the preoperative assessment in order to limit the risk of bleeding.

Tissue-nonspecific alkaline phosphatase is an anti-inflammatory nucleotidase.

Tissue-nonspecific alkaline phosphatase (TNAP) is necessary for skeletal mineralization by its ability to hydrolyze the mineralization inhibitor inorganic pyrophosphate (PPi), which is mainly generated from extracellular ATP by ectonucleotide pyrophosphatase phosphodiesterase 1 (NPP1). Since children with TNAP deficiency develop bone metaphyseal auto-inflammations in addition to rickets, we hypothesized that TNAP also exerts anti-inflammatory effects relying on the hydrolysis of pro-inflammatory adenosine nucleotides into the anti-inflammatory adenosine. We explored this hypothesis in bone metaphyses of 7-day-old Alpl+/- mice (encoding TNAP), in mineralizing hypertrophic chondrocytes and osteoblasts, and non-mineralizing mesenchymal stem cells (MSCs) and neutrophils, which express TNAP and are present, or can be recruited in the metaphysis. Bone metaphyses of 7-day-old Alpl+/- mice had significantly increased levels of Il-1ß and Il-6 and decreased levels of the anti-inflammatory Il-10 cytokine as compared with Alpl+/+ mice. In bone metaphyses, murine hypertrophic chondrocytes and osteoblasts, Alpl mRNA levels were much higher than those of the adenosine nucleotidases Npp1, Cd39 and Cd73. In hypertrophic chondrocytes, inhibition of TNAP with 25 µM of MLS-0038949 decreased the hydrolysis of AMP and ATP. However, TNAP inhibition did not significantly modulate ATP- and adenosine-associated effects in these cells. We observed that part of TNAP proteins in hypertrophic chondrocytes was sent from the cell membrane to matrix vesicles, which may explain why TNAP participated in the hydrolysis of ATP but did not significantly modulate its autocrine pro-inflammatory effects. In MSCs, TNAP did not participate in ATP hydrolysis nor in secretion of inflammatory mediators. In contrast, in neutrophils, TNAP inhibition with MLS-0038949 significantly exacerbated ATP-associated activation and secretion of IL-1ß, and extended cell survival. Collectively, these results demonstrate that TNAP is a nucleotidase in both hypertrophic chondrocytes and neutrophils, and that this nucleotidase function is associated with autocrine effects on inflammation only in neutrophils.

Neurosurgical aspects of childhood hypophosphatasia.

OBJECTIVE: Hypophosphatasia (HPP; MIM241510) is a rare inborn error of bone metabolism of recessive inheritance. It is caused by mutations in the gene encoding the tissue-nonspecific alkaline phosphatase. Apart from problems in bone mineralization, growth failure, and premature loss of decidual teeth, the infantile and the childhood types of HPP are associated with premature fusion of cranial sutures. PATIENTS: We report on seven children affected with infantile and childhood HPP who presented with craniosynostosis. RESULTS: Neurosurgical intervention was necessary in four of them because of intracranial hypertension. In one of these, severe dural calcification posed an unexpected problem during surgery. Secondary ectopia of the cerebellar tonsils were detected in five of the seven patients and caused hydrosyringomyelia in one of them. CONCLUSIONS: Since cranial sutures are frequently involved in infantile and childhood HPP, a multidisciplinary approach for the clinical care is necessary, including long-term neurosurgical surveillance.

A new mechanism of dominance in hypophosphatasia: the mutated protein can disturb the cell localization of the wild-type protein.

The dominant negative effect of mutations is rare in metabolic diseases and its mechanism has not been studied much. Hypophosphatasia, a bone inherited metabolic disorder, is a good model because the disease can be dominantly transmitted. The gene product activity depends on a homodimeric configuration and many mutations have been reported in the ALPL gene responsible for the disease. Using CFP/YFP-tagged-TNSALP plasmids, transfections in COS cells and confocal fluorescence analyses, we studied the point mutation G232V (c.746G>T). We showed that the G232V protein sequestrates some of the wild-type protein into the cells and prevents it from reaching the membrane where it plays its physiological role.

A case of lethal hypophosphatasia providing new insights into the perinatal benign form of hypophosphatasia and expression of the ALPL gene.

Hypophosphatasia is a rare inherited bone disease caused by mutations in the alkaline phosphatase liver-type gene (ALPL) gene, with extensive allelic heterogeneity leading to a range of clinical phenotypes. We report here a patient who died from severe lethal hypophosphatasia, who was compound heterozygous for the mutation c.1133A>T (D361V) and the newly detected missense mutation c791A>G, and whose parents were both healthy. Because the c.1133A>T (D361V) mutation was previously reported to have a dominant-negative effect and to be responsible for the uncommon perinatal benign form of the disease, we studied the expression of the ALPL gene in this family. Analysis at the messenger RNA (mRNA) level, both quantitative and qualitative, showed that the paternal c.1133A>T (D361V) mutation was associated with over-expression of the ALPL gene and that the maternal c.791A>G mutation lead to complete skipping of exon 7. The results provide an explanation of the lethal phenotype in the patient where the two ALPL alleles are non-functional and in the asymptomatic father where over-expression of the normal allele could counteract the effect of the c.1133A>T (D361V) mutation by providing an increased level of normal mRNA. This may also explain the variable expression of hypophosphatasia observed in parents of patients with the perinatal benign form.

[Adult localized congenital cholesteatoma]. / Cholestéatome congénital localisé chez l'adulte.

PURPOSE OF THE STUDY: Congenital cholesteatoma is a well-described anatomical and clinical entity. Adult forms are rare. We describe a posterosuperior encapsulated cholesteatoma and compare this case to other infantile and adult forms described in the literature. MATERIAL AND METHODS: A 25-year-old patient with no medical history consulted for left conductive hearing loss. A flat tympanogram was obtained. The temporal bone computed tomographic scan showed a soft tissue density lesion of the middle ear and anterior stapes erosion. A congenital cholesteatoma was discovered during surgical exploration. The lesion was removed and the ossicular chain was reconstructed with a Shea piston. RESULTS: The patient showed approximately 20dB conductive hearing improvement. DISCUSSION: Existence of congenital cholesteatoma is well established. Adult forms are exceptional and often diffuse. A localized, encapsulated form is described in this article. The specificity remains unknown. It is uncertain whether the adult and infantile forms have the same origin. A multifactorial or metaplastic mechanism could explain adult congenital cholesteatoma. CONCLUSION: Pathogenic hypothesis for adult forms of congenital cholesteatoma are different from infantile forms.

Intralabyrinthine sporadic endolymphatic sac tumour.

INTRODUCTION: Endolymphatic sac tumours are benign, slowly growing tumours that invade the temporal bone, and present clinically in the form of unilateral hearing loss. They can be sporadic or occur in the context of Von Hippel-Lindau disease (VHL). CASE SUMMARY: The authors report a case of endolymphatic sac tumour arising in the utricle presenting histological and immunohistochemical features corresponding to endolymphatic sac tumour in a patient without VHL. DISCUSSION: Endolymphatic sac tumours invade the posterior part of the petrous temporal bone. According to two studies concerning patients with Von Hippel-Lindau disease, endolymphatic sac tumours arise from the endolymphatic duct. This case of intralabyrinthine sporadic endolymphatic sac tumour supports this hypothesis for sporadic forms, indicating the need for labyrinthectomy associated with tumour resection to avoid recurrence.

Enzyme-replacement therapy in perinatal hypophosphatasia: Case report and review of the literature.

Hypophosphatasia (HPP) is a rare disease resulting from alterations of the ALPL gene encoding tissue-nonspecific alkaline phosphatase (TNSALP). Perinatal HPP is mainly characterized by bone hypomineralization and severe respiratory insufficiency. We describe a full-term boy diagnosed with perinatal HPP after birth, showing dramatic improvement after treatment with Asfotase Alfa, an enzyme-replacement therapy (ERT) prescribed in HPP cases. He initially presented with respiratory insufficiency due to bone hypomineralization, and severe pulmonary hypoplasia that required tracheostomy and invasive ventilation for 8 months. He was taken off ventilation at 41 weeks of age. He also presented complications including hypercalcemia, craniosynostosis, nephrocalcinosis, hypotonia, and a severe feeding disorder. He is still alive at 30 months of age, and his respiratory status and tonus is steadily improving. This case reflects the progression of HPP patients with specific therapy added to symptomatic management. Some aspects of the disease are now well known, such as nephrocalcinosis and craniosynostosis, related to the natural course of the disease, which persisted despite the ERT. The long-term prognosis and outcome for this newborn child remain unknown.

Genetics of hypophosphatasia.

Hypophosphatasia (HPP) is a rare inherited disorder primarily affecting bone and dental mineralization. Although there is a continuum in the severity of the disease, clinical forms may be arbitrarily distinguished on the basis of age at onset and the presence or absence of bone symptoms: perinatal, infantile, juvenile, adult, prenatal benign, and odontological. Severe forms (perinatal and infantile) are autosomally recessively inherited while less severe forms may be autosomally recessively or dominantly inherited. Genetic counseling is complicated by the coexistence of the two modes of inheritance, the incomplete penetrance of the dominant forms, the markedly variable expression of the disease, including intra-familial expression, and the existence of a benign prenatal form that may sometimes be difficult to distinguish from the severe prenatal form. The disease is due to loss-of-function mutations in the Alkaline Phosphatase-Liver (ALPL) gene encoding the tissue nonspecific alkaline phosphatase (TNSALP). The great variety of missence mutations and the dominant negative effect of some mutations largely explain the clinical heterogeneity. Directed mutagenesis studies allowed further elucidation of the cellular pathophysiology of HPP, classification of the alleles in terms of their severity and dominant negative effect, and molecular explanations of the dominant inheritance mode. Genetics significantly contributed to show that there are in fact two HPPs, rare, severe and recessive HPP, and mild recessive or mild dominant HPP, which is markedly more frequent and probably under-diagnosed. The prevalence of the severe forms of HPP has been estimated to be 1/300,000 in France and Northern Europe while the prevalence of the moderate forms of HPP may reach 1/6,370.

Childhood hypophosphatasia due to a de novo missense mutation in the tissue-nonspecific alkaline phosphatase gene.

Hypophosphatasia is an inherited disorder due to mutations in the bone alkaline phosphatase (ALPL) gene. We report here a patient with childhood hypophosphatasia diagnosed at 1.4 yr because of pectus excavatum, large anterior fontanel, rachitic skeletal changes, and low serum alkaline phosphatase. Sequencing of the ALPL gene produced evidence of two distinct missense mutations, E174K (c.571G>A), of maternal origin, and a de novo mutation, M45I (c.186G>C). The study of various microsatellite polymorphisms ruled out false paternity and therefore confirmed that M45I occurred de novo in the paternal germline or in the early development of the patient. Site-directed mutagenesis showed that M45I results in the absence of in vitro alkaline phosphatase activity, suggesting that the mutation is a severe allele. In conclusion, childhood hypophosphatasia in this patient is the result of compound heterozygosity for the moderate mutation E174K and a novel severe de novo mutation M45I.

Severe hypophosphatasia: characterization of fifteen novel mutations in the ALPL gene.

Hypophosphatasia is an inherited disorder characterized by defective bone mineralization and deficiency of serum and tissue liver/bone/kidney alkaline phosphatase (L/B/K ALP) activity. We report the characterization of ALPL gene mutations in a series of 11 families from various origins affected by perinatal and infantile hypophosphatasia. Sixteen distinct mutations were found, fifteen of them not previously reported: M45V, G46R, 388-391delGTAA, 389delT, T131I, G145S, D172E, 662delG, G203A, R255L, 876-881delAGGGGA, 962delG, E294K, E435K, and A451T. This confirms that severe hypophosphatasia is due to a large spectrum of mutations in Caucasian populations.

Fifteen new mutations (-195C>T, L-12X, 298-2A>G, T117N, A159T, R229S, 997+2T>A, E274X, A331T, H364R, D389G, 1256delC, R433H, N461I, C472S) in the tissue-nonspecific alkaline phosphatase (TNSALP) gene in patients with hypophosphatasia.

Hypophosphatasia is a rare inherited disorder characterized by defective bone mineralization and deficiency of serum and liver/bone/kidney-type alkaline phosphatase (L/B/K ALP) activity. We report the characterization of tissue-nonspecific alkaline phosphatase (TNSALP) gene mutations in a series of 12 families affected by severe or mild hypophosphatasia. Twenty distinct mutations were found, 5 of which were previously reported. Nine of the 15 new mutations were missense mutations (T117N, A159T, R229S, A331T, H364R, D389G, R433H, N461I, and C472S). The others were 2 nonsense mutations (L-12X and E274X), one single nucleotide deletion (1256delC), 2 mutations affecting splicing (298-2A>G, 997+2T>A), and a mutation in the major transcription start site (-195C>T). Hum Mutat 15:293, 2000.

Twelve novel mutations in the tissue-nonspecific alkaline phosphatase gene (ALPL) in patients with various forms of hypophosphatasia.

Hypophosphatasia is a rare inherited disorder characterized by defective bone mineralization and deficiency of serum and tissue liver/bone/kidney tissue alkaline phosphatase (L/B/K ALP) activity. We report here the characterization of tissue-nonspecific alkaline phosphatase (TNSALP) gene mutations in a series of 11 families affected by various forms of hypophosphatasia. Nineteen distinct mutations were found, 7 of which were previously reported. Eleven of the 12 new mutations were missense mutations (Y11C, A34V, R54H, R135H, N194D, G203V, E218G, D277Y, F310G, A382S, V406A), the last one (998-1G>T) was a mutation affecting acceptor splice site.

Phenotype-genotype correlation in 56 women with nonclassical congenital adrenal hyperplasia due to 21-hydroxylase deficiency.

Complete analysis of the CYP21 gene was performed in 56 unrelated French women with symptomatic nonclassical congenital adrenal hyperplasia. The mutational spectrum and the phenotype-genotype correlation were examined. The overall predominant mutation was V281L, which was present on 51% of alleles and in 80% of women. Three novel mutations were found: L317M, R435C, and a 5'-end gene conversion. Sixty-three percent of the women were carrying a severe mutation of the CYP21 gene, and hence risk giving birth to children with a classical form of the disease. In such cases, screening for heterozygosity in the partner is crucial. Potential genotype/phenotype correlations were examined by classifying the patients into three groups according to the CYP21 allelic combinations: A (mild/mild), B (mild/severe), and C (severe/severe). Primary amenorrhea was more frequent, and mean basal and stimulated 17-hydroxyprogesterone levels were higher in compound heterozygotes for mild and severe mutations (group B) compared with women with two mild mutations (group A), but there was a considerable overlap for individual values. Surprisingly, in two women, a severe mutation was found on both alleles (group C). Therefore, the phenotype cannot be accurately predicted from the genotype. Variability in phenotypic expression may be conditioned by mechanisms other than genetic heterogeneity at the CYP21 locus.

Prenatal diagnosis of 21-hydroxylase deficiency congenital adrenal hyperplasia by simultaneous radioimmunoassay of 21-deoxycortisol and 17-hydroxyprogesterone in amniotic fluid.

Amniotic fluid levels of 21-deoxycortisol (21-DOF) and 17-hydroxyprogesterone (17-OHP) were measured in 49 pregnancies, including 31 pregnancies at risk for CAH. The results were compared with those obtained by HLA typing and linkage analysis to a HLA DNA probe. The mean amniotic fluid levels in the control pregnancies were 0.28 nmol/L for 21-DOF and 4.1 nmol/L for 17-OHP. The levels were similar in early and midpregnancy for 21-DOF (0.29 vs. 0.27 nmol/L) and 17-OHP (3.4 vs. 4.2 nmol/L). The amniotic fluid 21-DOF level was 1.75 nmol/L in affected pregnancies, significantly higher than in the control pregnancies (mean, 0.28 nmol/L). The mean amniotic fluid 17-OHP level in the affected pregnancies (30.5 nmol/L) also was significantly higher than that in the control pregnancies (4.10 nmol/L). Simultaneous measurement of 21-DOF and 17-OHP levels in amniotic fluid from 10-18 weeks of gestation can be used for early diagnosis of congenital adrenal hyperplasia.

General cystic fibrosis mutations are usually missense mutations affecting two specific protein domains and associated with a specific RFLP marker haplotype.

Some 250 different mutations have so far been screened in the cystic fibrosis (CF) gene. The 50 nonsense, 33 splicing and 60 frameshift mutations are randomly distributed within the gene, unlike the 107 missense mutations or amino acid deletions. A large excess of missense mutations affects the exons encoding the first transmembrane (MS1) and first ATP-binding fold (NBF1) domains. Sixty-four of the 107 missense mutations may be classified as private, demic, local and general mutations on the basis of their geographic distribution in Europe. Private and demic mutations are randomly distributed within the gene; local and general mutations are not. It is well known that some RFLP markers are in linkage disequilibrium with some mutations. Private, demic and local mutations are randomly associated with each class of RFLP haplotypes. In contrast, general mutations, frequent and infrequent, are not randomly associated with RFLP markers. General mutations usually affect a specific part of the gene and are more likely to be associated with a specific RFLP marker. This suggests the existence of selective factors favoring these mutations, a hypothesis formerly postulated as a possible cause of the high frequency of the disease.

Identification of fifteen novel mutations in the tissue-nonspecific alkaline phosphatase (TNSALP) gene in European patients with severe hypophosphatasia.

Hypophosphatasia is an inherited disorder characterised by defective bone mineralisation and deficiency of serum and tissue liver/bone/kidney alkaline phosphatase (L/B/K ALP) activity. We report the characterisation of tissue-nonspecific alkaline phosphatase (TNSALP) gene mutations in a series of 13 European families affected by perinatal, infantile or childhood hypophosphatasia. Eighteen distinct mutations were found, only three of which had been reported previously in North American and Japanese populations. Most of the 15 new mutations were missense mutations, but we also found two mutations affecting donor splice sites and a nonsense mutation. A missense mutation in the last codon of the putative signal peptide probably affects the final maturation of the protein. Despite extensive sequencing of the gene and its promotor region, only one mutation was identified in two cases, one of which was compatible with a possible dominant effect of certain mutations and the putative role of polymorphisms of the TNSALP gene. In 12 of the 13 tested families, genetic diagnosis was possible by characterisation of the mutations or by use of polymorphisms as genetic markers. Hypophosphatasia diagnosis was assigned in two families where clinical, laboratory and radiographic data were unclear and prenatal diagnosis was performed in one case. The results also show that severe hypophosphatasia is due to a very large spectrum of mutations in European populations with no prevalent mutation and that genetic diagnosis of the disease must be performed by extensive analysis of the gene.

Perinatal hypophosphatasia: radiology, pathology and molecular biology studies in a family harboring a splicing mutation (648+1A) and a novel missense mutation (N400S) in the tissue-nonspecific alkaline phosphatase (TNSALP) gene.

We report on a postmortem diagnosis of perinatal lethal hypophosphatasia, an inborn error of metabolism characterized by a liver/bone/kidney alkaline phosphatase (ALP)-related defective bone mineralization due to mutations in the tissue-nonspecific alkaline phosphatase (TNSALP) gene. Radiological and pathological studies identified a perinatal lethal hypophosphatasia showing a generalized bone mineralization defect including asymmetry of the cervical vertebral arches in a 22 +4 weeks' gestation fetus. Both parents revealed low serum ALP activities supporting the diagnosis. Sequencing analysis of the TNSALP gene showed two heterozygous mutations, 648+1A, a mutation affecting the donor splice site in exon 6, and N400S, a novel missense mutation in exon 11, located near the active site and very close to histidins 364 and 437, two crucial residues of the active site. Sequencing of exons 6 and 11 in the parents showed that 648+1A was from maternal origin and N400S from paternal origin. DNA-based prenatal testing in the subsequent pregnancy following a chorionic villous sampling performed at 10 weeks of gestation showed no mutation and a healthy infant was born at term.

Direct DNA analysis of fragile X syndrome in Spanish pedigrees.

Eleven complete Spanish pedigrees with fragile X syndrome were analysed by Southern blotting with the DNA probe StB12.3 previously isolated and described by Oberlé et al. [1991]. This probe allowed the direct detection of affected males and carrier females and was able to distinguish between normal males and normal transmitting males (NTMs). One hundred and twenty three individuals were analyzed, 115 from the pedigrees and 8 from the general population. Five mosaic cases were found (4 males and one female) showing both the premutation and the full mutation. One half of the females with the full mutation were mentally retarded but no female with mental retardation carried the premutated pattern, suggesting that the absence of the full mutation in females is a very good criterion for pre-or postnatal diagnosis of normal mental status.