Your search keyword '"Buj-Bello, Anna"' showing total 5 results

1. T-tubule disorganization and defective excitation-contraction coupling in muscle fibers lacking myotubularin lipid phosphatase.

Author

Al-Qusairi, Lama, Weiss, Norbert, Toussaint, Anne, Berbey, Céline, Messaddeq, Nadia, Kretz, Christine, Sanoudou, Despina, Beggs, Alan H., Allard, Bruno, Mandel, Jean-Louis, Laporte, Jocelyn, Jacquemond, Vincent, and Buj-Bello, Anna

Subjects

MUSCLE contraction, PHOSPHATASES, EXCITATION (Physiology), SARCOPLASMIC reticulum, MUSCLE diseases, HOMEOSTASIS, ENDOCYTOSIS

Abstract

Skeletal muscle contraction is triggered by the excitation-contraction (E-C) coupling machinery residing at the triad, a membrane structure formed by the juxtaposition of T-tubules and sarcoplasmic reticulum (SR) cisternae. The formation and maintenance of this structure is key for muscle function but is not well characterized. We have investigated the mechanisms leading to X-linked myotubular myopathy (XLMTM), a severe congenital disorder due to loss of function mutations in the MTM1 gene, encoding myotubularin, a phosphoinositide phosphatase thought to have a role in plasma membrane homeostasis and endocytosis. Using a mouse model of the disease, we report that Mtm1-deficient muscle fibers have a decreased number of triads and abnormal longitudinally oriented T-tubules. In addition, SR Ca2+ release elicited by voltage- clamp depolarizations is strongly depressed in myotubularin-deficient muscle fibers, with myoplasmic Ca2+ removal and SR Ca2+ content essentially unaffected. At the molecular level, Mtm1- deficient myofibers exhibit a 3-fold reduction in type 1 ryanodine receptor (RyR1) protein level. These data reveal a critical role of myotubularin in the proper organization and function of the E-C coupling machinery and strongly suggest that defective RyR1- mediated SR Ca2+ release is responsible for the failure of muscle function in myotubular myopathy. [ABSTRACT FROM AUTHOR]

Published

2009

2. Characterisation of mutations in 77 patients with X-linked myotubular myopathy, including a family with a very mild phenotype.

Author

Biancalana, Valérie, Caron, Olivier, Gallati, Sabina, Baas, Frank, Kress, Wolfram, Novelli, Giuseppe, D'Apice, Maria, Lagier-Tourenne, Clotilde, Buj-Bello, Anna, Romero, Norma B., and Mandel, Jean-Louis

Subjects

MUSCLE diseases, GENETIC mutation, PHENOTYPES, MUSCLE hypotonia, MOVEMENT disorders, PHOSPHATASES

Abstract

X-linked myotubular myopathy is characterised by neonatal hypotonia, muscle weakness and respiratory distress in affected males, leading often to early death, although prolonged survival is observed in milder forms, or as a result of prolongation of ventilation support. It is caused by mutations in the MTM1 gene, which encodes a phosphatase called myotubularin, which has been highly conserved during evolution, down to yeasts (S. cerevisiae and S. pombe). To date, 251 mutations have been identified in unrelated families, corresponding to 158 different disease-associated mutations, which are widespread throughout the gene. We have found additional mutations in 77 patients, including 35 novel ones. We identified a missense mutation N180K in a 67-year-old grandfather (the oldest known patient with an MTM1 mutation), previously suspected to have autosomal centronuclear myopathy, and in his two grandsons also mildly affected. Mild and moderate phenotypes associated with novel missense mutations and with a translation initiation defect mutation are discussed, as well as severe phenotypes associated with particular novel mutations. With the present report, 192 different mutations in the MTM1 gene have been described in 328 families. The spectrum of mutations is now enlarged from the very severe classic neonatal phenotype to very mild phenotype allowing survival to the age of 67 years. [ABSTRACT FROM AUTHOR]

Published

2003

3. Genotype–phenotype correlations in X-linked myotubular myopathy

Author

McEntagart, Meriel, Parsons, Gretchen, Buj-Bello, Anna, Biancalana, Valérie, Fenton, Iain, Little, Mark, Krawczak, Michael, Thomas, Nick, Herman, Gail, Clarke, Angus, and Wallgren-Pettersson, Carina

Subjects

*MUSCLE diseases, *GENETIC polymorphisms, *GENETIC research, *POPULATION genetics

Abstract

X-linked myotubular myopathy is a severe congenital myopathy that presents in the neonatal period with profound hypotonia and an inability to establish spontaneous respiration. Usually death occurs in infancy from respiratory failure. However, there is phenotypic variability; a number of affected boys have achieved respiratory independence and become ambulatory. Disease-causing mutations have been identified throughout the MTM1 gene on Xq28. MTM1 encodes the protein myotubularin, which is expressed ubiquitously. The main objectives of this study were to establish whether the nature or site of the mutation in the MTM1 gene could predict severity of the disease and to investigate whether early intensive clinical intervention facilitated survival until spontaneous improvement occurred. An association was demonstrated between the presence of a non-truncating mutation of the MTM1 gene and the mild phenotype. However, many non-truncating mutations were also seen in association with the severe phenotype and these were not confined to recognized functional domains of the protein. This suggests that the use of mutation analysis to predict prognosis in the early period following diagnosis is limited. Unexpectedly, over 50 patients surviving for more than 1 year were identified in this study. Further information obtained on 40 of these cases revealed that 50% were receiving 24-h ventilatory support, while 27% were ventilated at night only. The high survival rate for this disorder therefore reflects intensive medical intervention without which the majority of these boys would not survive. [Copyright &y& Elsevier]

Published

2002

4. Gait characteristics in a canine model of X-linked myotubular myopathy.

Author

Goddard, Melissa A., Burlingame, Emily, Beggs, Alan H., Buj-Bello, Anna, Childers, Martin K., Marsh, Anthony P., and Kelly, Valerie E.

Subjects

*MUSCLE diseases, *SKELETAL muscle, *NEUROMUSCULAR diseases, *NEUROLOGICAL disorders, *ANIMAL models in research

Abstract

X-linked myotubular myopathy (XLMTM) is a fatal pediatric disease where affected boys display profound weakness of the skeletal muscles. Possible therapies are under development but robust outcome measures in animal models are required for effective translation to human patients. We established a naturally-occurring canine model, where XLMTM dogs display clinical symptoms similar to those observed in humans. The aim of this study was to determine potential endpoints for the assessment of future treatments in this model. Video-based gait analysis was selected, as it is a well-established method of assessing limb function in neuromuscular disease and measures have been correlated to the patient's quality of life. XLMTM dogs (N = 3) and their true littermate wild type controls (N = 3) were assessed at 4–5 time points, beginning at 10 weeks and continuing through 17 weeks. Motion capture and an instrumented carpet were used separately to evaluate spatiotemporal and kinematic changes over time. XLMTM dogs walk more slowly and with shorter stride lengths than wild type dogs, and these differences became greater over time. However, there was no clear difference in angular measures between affected and unaffected dogs. These data demonstrate that spatiotemporal parameters capture functional changes in gait in an XLMTM canine model and support their utility in future therapeutic trials. [ABSTRACT FROM AUTHOR]

Published

2014

5. Centronuclear myopathy due to a de novo dominant mutation in the skeletal muscle ryanodine receptor (RYR1) gene

Author

Jungbluth, Heinz, Zhou, Haiyan, Sewry, Caroline A., Robb, Stephanie, Treves, Susan, Bitoun, Marc, Guicheney, Pascale, Buj-Bello, Anna, Bönnemann, Carsten, and Muntoni, Francesco

Subjects

*MUSCLE diseases, *RYANODINE, *DIAGNOSTIC imaging, *PHYSIOLOGICAL control systems

Abstract

Abstract: Centronuclear myopathy is a genetically heterogeneous congenital myopathy. Whilst mutations in the myotubularin (MTM1) gene are implicated in the X-linked variant, mutations in the dynamin 2 (DNM2) gene have been recently associated with dominant inheritance. We report a 16-year-old girl with clinical features of a congenital myopathy and external ophthalmoplegia. Multiple central nuclei affecting up to 50% of fibres and central accumulation of oxidative enzyme stains were the most prominent findings on muscle biopsy obtained at 1 year. However, some core-like areas appeared on repeat biopsy 8 years later; in addition, muscle MRI was compatible with the pattern we previously reported in patients with mutations in the skeletal muscle ryanodine receptor (RYR1) gene. Mutational analysis identified a de novo dominant RYR1 missense mutation (c.12335C>T; Ser4112Leu) affecting a highly conserved domain of the protein. Our findings expand the phenotypical spectrum associated with RYR1 mutations and indicate that RYR1 screening should be considered in centronuclear myopathy patients without MTM1 or DNM2 mutations; muscle MRI may aid selection of appropriate genetic testing. [Copyright &y& Elsevier]

Published

2007