Your search keyword '"Al-Odaib, Ahmad"' showing total 5 results

1. Inherited bone marrow failure associated with germline mutation of ACD, the gene encoding telomere protein TPP1

Author

Guo, Yiran, Kartawinata, Melissa, Li, Jiankang, Pickett, Hilda A., Teo, Juliana, Kilo, Tatjana, Barbaro, Pasquale M., Keating, Brendan, Chen, Yulan, Tian, Lifeng, Al-Odaib, Ahmad, Reddel, Roger R., Christodoulou, John, Xu, Xun, Hakonarson, Hakon, and Bryan, Tracy M.

Published

2014

2. Treatable childhood neuronopathy caused by mutations in riboflavin transporter RFVT2

Author

Foley, A. Reghan, Menezes, Manoj P., Pandraud, Amelie, Gonzalez, Michael A., Al-Odaib, Ahmad, Abrams, Alexander J., Sugano, Kumiko, Yonezawa, Atsushi, Manzur, Adnan Y., Burns, Joshua, Hughes, Imelda, McCullagh, B. Gary, Jungbluth, Heinz, Lim, Ming J., Lin, Jean-Pierre, Megarbane, Andre, Urtizberea, J. Andoni, Shah, Ayaz H., Antony, Jayne, Webster, Richard, Broomfield, Alexander, Ng, Joanne, Mathew, Ann A., O’Byrne, James J., Forman, Eva, Scoto, Mariacristina, Prasad, Manish, O’Brien, Katherine, Olpin, Simon, Oppenheim, Marcus, Hargreaves, Iain, Land, John M., Wang, Min X., Carpenter, Kevin, Horvath, Rita, Straub, Volker, Lek, Monkol, Gold, Wendy, Farrell, Michael O., Brandner, Sebastian, Phadke, Rahul, Matsubara, Kazuo, McGarvey, Michael L., Scherer, Steven S., Baxter, Peter S., King, Mary D., Clayton, Peter, Rahman, Shamima, Reilly, Mary M., Ouvrier, Robert A., Christodoulou, John, Züchner, Stephan, Muntoni, Francesco, and Houlden, Henry

Published

2014

3. Treatable childhood neuronopathy caused by mutations in riboflavin transporter RFVT2

Author

Foley, A. Reghan, primary, Menezes, Manoj P., additional, Pandraud, Amelie, additional, Gonzalez, Michael A., additional, Al-Odaib, Ahmad, additional, Abrams, Alexander J., additional, Sugano, Kumiko, additional, Yonezawa, Atsushi, additional, Manzur, Adnan Y., additional, Burns, Joshua, additional, Hughes, Imelda, additional, McCullagh, B. Gary, additional, Jungbluth, Heinz, additional, Lim, Ming J., additional, Lin, Jean-Pierre, additional, Megarbane, Andre, additional, Urtizberea, J. Andoni, additional, Shah, Ayaz H., additional, Antony, Jayne, additional, Webster, Richard, additional, Broomfield, Alexander, additional, Ng, Joanne, additional, Mathew, Ann A., additional, O’Byrne, James J., additional, Forman, Eva, additional, Scoto, Mariacristina, additional, Prasad, Manish, additional, O’Brien, Katherine, additional, Olpin, Simon, additional, Oppenheim, Marcus, additional, Hargreaves, Iain, additional, Land, John M., additional, Wang, Min X., additional, Carpenter, Kevin, additional, Horvath, Rita, additional, Straub, Volker, additional, Lek, Monkol, additional, Gold, Wendy, additional, Farrell, Michael O., additional, Brandner, Sebastian, additional, Phadke, Rahul, additional, Matsubara, Kazuo, additional, McGarvey, Michael L., additional, Scherer, Steven S., additional, Baxter, Peter S., additional, King, Mary D., additional, Clayton, Peter, additional, Rahman, Shamima, additional, Reilly, Mary M., additional, Ouvrier, Robert A., additional, Christodoulou, John, additional, Züchner, Stephan, additional, Muntoni, Francesco, additional, and Houlden, Henry, additional

Published

2013

4. Treatable childhood neuronopathy caused by mutations in riboflavin transporter RFVT2

Author

Foley, A Reghan, Menezes, Manoj P, Pandraud, Amelie, Gonzalez, Michael A, Al-Odaib, Ahmad, Abrams, Alexander J, Sugano, Kumiko, Yonezawa, Atsushi, Manzur, Adnan Y, Burns, Joshua, Hughes, Imelda, McCullagh, B Gary, Jungbluth, Heinz, Lim, Ming J, Lin, Jean-Pierre, Megarbane, Andre, Urtizberea, J Andoni, Shah, Ayaz H, Antony, Jayne, Webster, Richard, Broomfield, Alexander, Ng, Joanne, Mathew, Ann A, O'Byrne, James J, Forman, Eva, Scoto, Mariacristina, Prasad, Manish, O'Brien, Katherine, Olpin, Simon, Oppenheim, Marcus, Hargreaves, Iain, Land, John M, Wang, Min X, Carpenter, Kevin, Horvath, Rita, Straub, Volker, Lek, Monkol, Gold, Wendy, Farrell, Michael O, Brandner, Sebastian, Phadke, Rahul, Matsubara, Kazuo, McGarvey, Michael L, Scherer, Steven S, Baxter, Peter S, King, Mary D, Clayton, Peter, Rahman, Shamima, Reilly, Mary M, Ouvrier, Robert A, Christodoulou, John, Züchner, Stephan, Muntoni, Francesco, and Houlden, Henry

Subjects

Male, Adolescent, Genotype, riboflavin therapy, RFVT2, Hearing Loss, Sensorineural, Riboflavin, Bulbar Palsy, Progressive, childhood neuronopathy, Receptors, G-Protein-Coupled, Young Adult, Sural Nerve, Carnitine, Image Processing, Computer-Assisted, Humans, Exome, Motor Neuron Disease, Child, Neurologic Examination, food and beverages, Brain, Sequence Analysis, DNA, Vitamins, Microarray Analysis, Magnetic Resonance Imaging, 3. Good health, Pedigree, Child, Preschool, Mutation, RNA, Brown-Vialetto-Van Laere syndrome, Female, SLC52A2

Abstract

Childhood onset motor neuron diseases or neuronopathies are a clinically heterogeneous group of disorders. A particularly severe subgroup first described in 1894, and subsequently called Brown-Vialetto-Van Laere syndrome, is characterized by progressive pontobulbar palsy, sensorineural hearing loss and respiratory insufficiency. There has been no treatment for this progressive neurodegenerative disorder, which leads to respiratory failure and usually death during childhood. We recently reported the identification of SLC52A2, encoding riboflavin transporter RFVT2, as a new causative gene for Brown-Vialetto-Van Laere syndrome. We used both exome and Sanger sequencing to identify SLC52A2 mutations in patients presenting with cranial neuropathies and sensorimotor neuropathy with or without respiratory insufficiency. We undertook clinical, neurophysiological and biochemical characterization of patients with mutations in SLC52A2, functionally analysed the most prevalent mutations and initiated a regimen of high-dose oral riboflavin. We identified 18 patients from 13 families with compound heterozygous or homozygous mutations in SLC52A2. Affected individuals share a core phenotype of rapidly progressive axonal sensorimotor neuropathy (manifesting with sensory ataxia, severe weakness of the upper limbs and axial muscles with distinctly preserved strength of the lower limbs), hearing loss, optic atrophy and respiratory insufficiency. We demonstrate that SLC52A2 mutations cause reduced riboflavin uptake and reduced riboflavin transporter protein expression, and we report the response to high-dose oral riboflavin therapy in patients with SLC52A2 mutations, including significant and sustained clinical and biochemical improvements in two patients and preliminary clinical response data in 13 patients with associated biochemical improvements in 10 patients. The clinical and biochemical responses of this SLC52A2-specific cohort suggest that riboflavin supplementation can ameliorate the progression of this neurodegenerative condition, particularly when initiated soon after the onset of symptoms.

5. Inherited bone marrow failure associated with germline mutation of ACD, the gene encoding telomere protein TPP1.

Author

Yiran Guo, Kartawinata, Melissa, Jiankang Li, Pickett, Hilda A., Juliana Teo, Tatjana Kilo, Barbara, Pasquale M., Keating, Brendan, Yulan Chen, Lifeng Tian, Al-Odaib, Ahmad, Reddel, Roger R., Xun Xu, John, Hakonarson, Hakon, and Bryan, Tracy M.

Subjects

*BONE marrow diseases, *GERM cells, *TELOMERASE, *TELOMERES, *CARRIER proteins, *DNA damage

Abstract

Telomerase is a ribonucleoprotein enzyme that is necessary for overcoming telomere shortening in human germ and stem cells. Mutations in telomerase or other telomere-maintenance proteins can lead to diseases characterized by depletion of hematopoietic stem cells and bone marrow failure (BMF). Telomerase localization to telomeres requires an interaction with a region on the surface of the telomere-binding protein TPP1 known as the TEL patch. Here, we identify a family with aplastic anemia and other related hematopoietic disorders in which a 1-amino-acid deletion in the TEL patch of TPP1 (AK170) segregates with disease. All family members carrying this mutation, but not those with wild-type TPP1, have short telomeres. When introduced into 293T cells, TPP1 with the AK170 mutation is able to localize to telomeres but fails to recruit telomerase to telomeres, supporting a causal relationship between this TPP1 mutation and bone marrow disorders. ACDTTPP1 is thus a newly identified telomere-related gene in which mutations cause aplastic anemia and related BMF disorders. [ABSTRACT FROM AUTHOR]

Published

2014