Your search keyword '"Vulliamy, Tom"' showing total 16 results

1. Molecular and cytogenetic analysis

Author

Vulliamy, Tom, primary, Kaeda, Jaspal, additional, Foroni, Letizia, additional, and Bain, Barbara J., additional

Published

2012

2. Análisis molecular y citogenético

Author

Vulliamy, Tom, primary, Kaeda, Jaspal, additional, and Bain, Barbara J., additional

Published

2008

3. Autores

Author

Bain, Barbara J., primary, Bates, Imelda, additional, Blackmore, Sheena, additional, Bradshaw, Anne, additional, Catovsky, Daniel, additional, De la Salle, Barbara, additional, Dokal, Inderjeet, additional, Hamilton, Malcolm, additional, Kaeda, Jaspal, additional, Knowles, Sue, additional, Laffan, Mike, additional, Layton, Mark D., additional, Lewis, S. Mitchell, additional, Manning, Richard, additional, Matutes, Estella, additional, Mendelow, Barry, additional, Milkins, Clare, additional, Morilla, Ricardo, additional, Regan, Fiona, additional, Roper, David, additional, Rowley, Megan, additional, Swirsky, David, additional, Tatsumi, Noriyuki, additional, Vulliamy, Tom, additional, Wild, Barbara, additional, Win, Nay, additional, and Worwood, Mark, additional

Published

2008

4. Molecular and cytogenetic analysis

Author

Vulliamy, Tom, primary and Kaeda, Jaspal, additional

Published

2006

5. Contributors

Author

Bain, Barbara J., primary, Bates, Imelda, additional, Blackmore CSci, Sheena, additional, Bradshaw, Anne, additional, Catovsky, Daniel, additional, De la Salle, Barbara, additional, Dokal, Inderjeet, additional, Hamilton, Malcolm, additional, Kaeda, Jaspal, additional, Knowles, Sue, additional, Laffan, Mike, additional, Layton, Mark D., additional, Mitchell Lewis, S., additional, Manning, Richard, additional, Matutes, Estella, additional, Mendelow, Barry, additional, Milkins, Clare, additional, Morilla, Ricardo, additional, Regan, Fiona, additional, Roper, David, additional, Rowley, Megan, additional, Swirsky, David, additional, Tatsumi, Noriyuki, additional, Vulliamy, Tom, additional, Wild, Barbara, additional, Win, Nay, additional, and Worwood, Mark, additional

Published

2006

6. The clinical picture of ERCC6L2 disease: from bone marrow failure to acute leukemia.

Author

Hakkarainen M, Kaaja I, Douglas SPM, Vulliamy T, Dokal I, Soulier J, Larcher L, Peffault de Latour R, Leblanc T, Sicre de Fontbrune F, Siitonen T, Lohi O, Hellström-Lindberg E, Barbany G, Tesi B, Shimamura A, Beier F, Jackson S, Kuperman AA, Falik Zaccai T, Tamary H, Mecucci C, Capolsini I, Jahnukainen K, Salmenniemi U, Niinimäki R, Varilo T, Kilpivaara O, and Wartiovaara-Kautto U

Subjects

Humans, Child, Preschool, Child, Adolescent, Young Adult, Adult, Middle Aged, Aged, Retrospective Studies, Bone Marrow Failure Disorders, DNA Repair, Acute Disease, DNA Helicases genetics, Leukemia, Myeloid, Acute genetics, Anemia, Aplastic genetics, Pancytopenia

Abstract

Biallelic germ line excision repair cross-complementing 6 like 2 (ERCC6L2) variants strongly predispose to bone marrow failure (BMF) and myeloid malignancies, characterized by somatic TP53-mutated clones and erythroid predominance. We present a series of 52 subjects (35 families) with ERCC6L2 biallelic germ line variants collected retrospectively from 11 centers globally, with a follow-up of 1165 person-years. At initial investigations, 32 individuals were diagnosed with BMF and 15 with a hematological malignancy (HM). The subjects presented with 19 different variants of ERCC6L2, and we identified a founder mutation, c.1424delT, in Finnish patients. The median age of the subjects at baseline was 18 years (range, 2-65 years). Changes in the complete blood count were mild despite severe bone marrow (BM) hypoplasia and somatic TP53 mutations, with no significant difference between subjects with or without HMs. Signs of progressive disease included increasing TP53 variant allele frequency, dysplasia in megakaryocytes and/or erythroid lineage, and erythroid predominance in the BM morphology. The median age at the onset of HM was 37.0 years (95% CI, 31.5-42.5; range, 12-65 years). The overall survival (OS) at 3 years was 95% (95% CI, 85-100) and 19% (95% CI, 0-39) for patients with BMF and HM, respectively. Patients with myelodysplastic syndrome or acute myeloid leukemia with mutated TP53 undergoing hematopoietic stem cell transplantation had a poor outcome with a 3-year OS of 28% (95% CI, 0-61). Our results demonstrated the importance of early recognition and active surveillance in patients with biallelic germ line ERCC6L2 variants., (© 2023 by The American Society of Hematology.)

Published

2023

7. Inherited bone marrow failure in the pediatric patient.

Author

Dokal I, Tummala H, and Vulliamy T

Subjects

Bone Marrow Failure Disorders, Child, Humans, Anemia, Aplastic complications, Anemia, Aplastic genetics, Anemia, Aplastic therapy, Bone Marrow Diseases complications, Bone Marrow Diseases genetics, Bone Marrow Diseases therapy, Dyskeratosis Congenita genetics, Dyskeratosis Congenita therapy, Neoplasms complications, Pancytopenia complications

Abstract

Inherited bone marrow (BM) failure syndromes are a diverse group of disorders characterized by BM failure, usually in association with ≥1 extrahematopoietic abnormalities. BM failure, which can involve ≥1 cell lineages, often presents in the pediatric age group. Furthermore, some children initially labeled as having idiopathic aplastic anemia or myelodysplasia represent cryptic cases of inherited BM failure. Significant advances in the genetics of these syndromes have been made, identifying more than 100 disease genes, giving insights into normal hematopoiesis and how it is disrupted in patients with BM failure. They have also provided important information on fundamental biological pathways, including DNA repair: Fanconi anemia (FA) genes; telomere maintenance: dyskeratosis congenita (DC) genes; and ribosome biogenesis: Shwachman-Diamond syndrome and Diamond-Blackfan anemia genes. In addition, because these disorders are usually associated with extrahematopoietic abnormalities and increased risk of cancer, they have provided insights into human development and cancer. In the clinic, genetic tests stemming from the recent advances facilitate diagnosis, especially when clinical features are insufficient to accurately classify a disorder. Hematopoietic stem cell transplantation using fludarabine-based protocols has significantly improved outcomes, particularly in patients with FA or DC. Management of some other complications, such as cancer, remains a challenge. Recent studies have suggested the possibility of new and potentially more efficacious therapies, including a renewed focus on hematopoietic gene therapy and drugs [transforming growth factor-β inhibitors for FA and PAPD5, a human poly(A) polymerase, inhibitors for DC] that target disease-specific defects., (© 2022 by The American Society of Hematology.)

Published

2022

8. Homozygous OB-fold variants in telomere protein TPP1 are associated with dyskeratosis congenita-like phenotypes.

Author

Tummala H, Collopy LC, Walne AJ, Ellison A, Cardoso S, Aksu T, Yarali N, Aslan D, Fikret Akata R, Teo J, Songyang Z, Pontikos N, Fitzgibbon J, Tomita K, Vulliamy T, and Dokal I

Subjects

Adult, Aminopeptidases chemistry, Child, Dipeptidyl-Peptidases and Tripeptidyl-Peptidases chemistry, Female, HEK293 Cells, Humans, Male, Models, Molecular, Mutation, Missense, Pedigree, Phenotype, Protein Conformation, Serine Proteases chemistry, Telomere Shortening, Aminopeptidases genetics, Dipeptidyl-Peptidases and Tripeptidyl-Peptidases genetics, Dyskeratosis Congenita genetics, Point Mutation, Serine Proteases genetics, Shelterin Complex genetics, Telomere-Binding Proteins genetics

Published

2018

9. Intermittent montelukast in children aged 10 months to 5 years with wheeze (WAIT trial): a multicentre, randomised, placebo-controlled trial.

Author

Nwokoro C, Pandya H, Turner S, Eldridge S, Griffiths CJ, Vulliamy T, Price D, Sanak M, Holloway JW, Brugha R, Koh L, Dickson I, Rutterford C, and Grigg J

Subjects

Acetates administration & dosage, Appointments and Schedules, Arachidonate 5-Lipoxygenase drug effects, Child, Preschool, Cyclopropanes, Cysteine urine, Drug Administration Schedule, Female, Genotype, Humans, Infant, Leukotrienes urine, Male, Quinolines administration & dosage, Sulfides, Treatment Outcome, Acetates therapeutic use, Anti-Asthmatic Agents therapeutic use, Asthma drug therapy, Quinolines therapeutic use, Respiratory Sounds drug effects

Abstract

Background: The effectiveness of intermittent montelukast for wheeze in young children is unclear. We aimed to assess whether intermittent montelukast is better than placebo for treatment of wheeze in this age group. Because copy numbers of the Sp1-binding motif in the arachidonate 5-lipoxygenase (ALOX5) gene promoter (either 5/5, 5/x, or x/x, where x does not equal 5) modifies response to montelukast in adults, we stratified by this genotype., Methods: We did this multicentre, parallel-group, randomised, placebo-controlled trial between Oct 1, 2010, and Dec 20, 2013, at 21 primary care sites and 41 secondary care sites in England and Scotland. Children aged 10 months to 5 years with two or more wheeze episodes were allocated to either a 5/5 or 5/x+x/x ALOX5 promoter genotype stratum, then randomly assigned (1:1) via a permuted block schedule (size ten), to receive intermittent montelukast or placebo given by parents at each wheeze episode over a 12 month period. Clinical investigators and parents were masked to treatment group and genotype strata. The primary outcome was number of unscheduled medical attendances for wheezing episodes. Analysis was by intention to treat. This trial is registered with ClinicalTrials.gov, number NCT01142505., Findings: We randomly assigned 1358 children to receive montelukast (n=669) or placebo (n=677). Consent was withdrawn for 12 (1%) children. Primary outcome data were available for 1308 (96%) children. There was no difference in unscheduled medical attendances for wheezing episodes between children in the montelukast and placebo groups (mean 2·0 [SD 2·6] vs 2·3 [2·7]; incidence rate ratio [IRR] 0·88, 95% CI: 0·77-1·01; p=0·06). Compared with placebo, unscheduled medical attendances for wheezing episodes were reduced in children given montelukast in the 5/5 stratum (2·0 [2·7] vs 2·4 [3·0]; IRR 0·80, 95% CI 0·68-0·95; p=0·01), but not in those in the 5/x+x/x stratum (2·0 [2·5] vs 2·0 [2·3]; 1·03, 0·83-1·29; p=0·79, pinteraction=0·08). We recorded one serious adverse event, which was a skin reaction in a child allocated to placebo., Interpretation: Our findings show no clear benefit of intermittent montelukast in young children with wheeze. However, the 5/5 ALOX5 promoter genotype might identify a montelukast-responsive subgroup., Funding: Medical Research Council (UK) and National Institute for Health Research., (Copyright © 2014 Nwokoro et al. Open Access article distributed under the terms of CC BY. Published by .. All rights reserved.)

Published

2014

10. TINF2 mutations result in very short telomeres: analysis of a large cohort of patients with dyskeratosis congenita and related bone marrow failure syndromes.

Author

Walne AJ, Vulliamy T, Beswick R, Kirwan M, and Dokal I

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Amino Acid Sequence, Amino Acid Substitution, Base Sequence, Bone Marrow Diseases metabolism, Child, Child, Preschool, Cohort Studies, DNA Primers genetics, Dyskeratosis Congenita metabolism, Female, Heterozygote, Humans, Infant, Infant, Newborn, Male, Middle Aged, Molecular Sequence Data, RNA metabolism, Sequence Homology, Amino Acid, Syndrome, Telomerase metabolism, Bone Marrow Diseases genetics, Dyskeratosis Congenita genetics, Mutation, Telomere genetics, Telomere-Binding Proteins genetics

Abstract

Dyskeratosis congenita (DC) is a multisystem bone marrow failure syndrome characterized by a triad of mucocutaneous abnormalities and a predisposition to cancer. The genetic basis of DC remains unknown in more than 60% of patients. Mutations have been identified in components of the telomerase complex (dyskerin, TERC, TERT, NOP10, and NHP2), and recently in one component of the shelterin complex TIN2 (gene TINF2). To establish the role of TINF2 mutations, we screened DNA from 175 uncharacterised patients with DC as well as 244 patients with other bone marrow failure disorders. Heterozygous coding mutations were found in 33 of 175 previously uncharacterized DC index patients and 3 of 244 other patients. A total of 21 of the mutations affected amino acid 282, changing arginine to histidine (n = 14) or cysteine (n = 7). A total of 32 of 33 patients with DC with TINF2 mutations have severe disease, with most developing aplastic anaemia by the age of 10 years. Telomere lengths in patients with TINF2 mutations were the shortest compared with other DC subtypes, but TERC levels were normal. In this large series, TINF2 mutations account for approximately 11% of all DC, but they do not play a significant role in patients with related disorders. This study emphasises the role of defective telomere maintenance on human disease.

Published

2008

11. Inherited aplastic anaemias/bone marrow failure syndromes.

Author

Dokal I and Vulliamy T

Subjects

Anemia, Aplastic therapy, Anemia, Diamond-Blackfan genetics, Anemia, Diamond-Blackfan pathology, Anemia, Diamond-Blackfan therapy, Blood Transfusion, Dyskeratosis Congenita genetics, Dyskeratosis Congenita pathology, Dyskeratosis Congenita therapy, Hematopoietic Stem Cell Transplantation, Humans, Mutation genetics, Syndrome, Thrombocytopenia congenital, Thrombocytopenia genetics, Anemia, Aplastic genetics, Anemia, Aplastic pathology, Bone Marrow pathology

Abstract

The inherited aplastic anaemias/bone marrow (BM) failure syndromes are a heterogeneous group of disorders characterized by BM failure usually in association with one or more somatic abnormality. The BM failure often presents in childhood but this may not be until adulthood in some cases highlighting the need for the adult haematologist to be aware of these disorders. Indeed some patients initially labelled as "idiopathic aplastic anaemia" are cryptic presentations of these genetic syndromes. Since 1992, when the first Fanconi anaemia (FA) gene was cloned there have been considerable advances in the genetics of these syndromes. These advances are beginning to provide a better understanding of normal haemopoiesis and how this might be disrupted in patients with BM failure. They have also provided important insights into some fundamental biological pathways: DNA repair-FA/BRCA pathway; telomere maintenance- dyskeratosis congenita related genes; ribosome biogenesis-Shwachman Diamond syndrome and Diamond-Blackfan anaemia genes. Additionally, as these disorders are usually associated with developmental abnormalities and an increased risk of cancer they are providing new insights into human development and the genesis of cancer. These advances have led to improved diagnosis of patients with these disorders. They may now also provide the platform for developing new treatments.

Published

2008

12. Telomerase reverse-transcriptase homozygous mutations in autosomal recessive dyskeratosis congenita and Hoyeraal-Hreidarsson syndrome.

Author

Marrone A, Walne A, Tamary H, Masunari Y, Kirwan M, Beswick R, Vulliamy T, and Dokal I

Subjects

Dyskeratosis Congenita enzymology, Family Health, Homozygote, Humans, Phenotype, Syndrome, Telomerase deficiency, Dyskeratosis Congenita genetics, Mutation, Telomerase genetics

Abstract

Dyskeratosis congenita (DC) is a multisystem bone marrow failure syndrome characterized by a triad of mucocutaneous abnormalities and an increased predisposition to malignancy. X-linked DC is due to mutations in DKC1, while heterozygous mutations in TERC (telomerase RNA component) and TERT (telomerase reverse transcriptase) have been found in autosomal dominant DC. Many patients with DC remain uncharacterized, particularly families displaying autosomal recessive (AR) inheritance. We have now identified novel homozygous TERT mutations in 2 unrelated consanguineous families, where the index cases presented with classical DC or the more severe variant, Hoyeraal-Hreidarsson (HH) syndrome. These TERT mutations resulted in reduced telomerase activity and extremely short telomeres. As these mutations are homozygous, these patients are predicted to have significantly reduced telomerase activity in vivo. Interestingly, in contrast to patients with heterozygous TERT mutations or hemizygous DKC1 mutations, these 2 homozygous TERT patients were observed to have higher-than-expected TERC levels compared with controls. Collectively, the findings from this study demonstrate that homozygous TERT mutations, resulting in a pure but severe telomerase deficiency, produce a phenotype of classical AR-DC and its severe variant, the HH syndrome.

Published

2007

13. Mutations in dyskeratosis congenita: their impact on telomere length and the diversity of clinical presentation.

Author

Vulliamy TJ, Marrone A, Knight SW, Walne A, Mason PJ, and Dokal I

Subjects

Chromosomes, Human, X, Female, Genes, Dominant, Humans, Male, Models, Molecular, RNA chemistry, Siblings, Telomerase chemistry, Telomere ultrastructure, Dyskeratosis Congenita genetics, Genetic Variation, Mutation, RNA genetics, Telomerase genetics, Telomere genetics

Abstract

The two genes mutated in the bone marrow failure syndrome dyskeratosis congenita (DC) both encode components of the telomerase complex responsible for maintaining the ends of chromosomes in stem cells and in the germ line. In reviewing the mutation profile that is found in DC, we describe 9 novel mutations in the DKC1 gene and 3 novel TERC mutations responsible for the X-linked and autosomal dominant forms of the disease, respectively, but find that two thirds of the families do not have mutations in either of these genes. In a significant subset of these uncharacterized families, the index case presents with severe disease previously defined as the Hoyeraal Hreidarsson (HH) syndrome. The diverse clinical phenotype seen in patients with X-linked DC is not explained by the different amino acid substitutions: Presentation of the recurrent A353V substitution ranges from classic DC to the severe HH variant. However, we do see that patients with HH have significantly shorter telomeres than those with a relatively mild presentation. In the new families described with TERC mutations, there is further evidence of disease anticipation associated with shorter telomeres in the younger generations. This study highlights the considerable genetic and phenotypic diversity of DC.

Published

2006

14. Heterozygous telomerase RNA mutations found in dyskeratosis congenita and aplastic anemia reduce telomerase activity via haploinsufficiency.

Author

Marrone A, Stevens D, Vulliamy T, Dokal I, and Mason PJ

Subjects

Adult, Anemia, Aplastic enzymology, Base Sequence, Cell Line, Child, Dyskeratosis Congenita enzymology, Female, Genetic Carrier Screening, Humans, Infant, Newborn, Male, Nucleic Acid Conformation, RNA metabolism, Sequence Deletion, Telomerase metabolism, Transfection, Anemia, Aplastic genetics, Dyskeratosis Congenita genetics, Mutation, RNA genetics, Telomerase genetics

Abstract

Mutations in TERC, encoding the RNA component of telomerase, have been found in autosomal dominant dyskeratosis congenita (DC) and aplastic anemia (AA). Several polymorphisms also exist in the TERC gene, making functional testing of potential pathogenic mutations essential. Here, we have tested normal and mutant TERC molecules in 2 telomerase reconstitution assays, 1 in vitro and 1 in transfected telomerase-negative cells. We find that 2 polymorphic mutations G58A and G228A have no effect on telomerase activity in these assays, whereas 6 mutations found in DC and AA cause reduction or abolition of telomerase activity. Mutations in the pseudoknot region of the TERC molecule, C72G, 96-7DeltaCT, GC107-8AG and 110-3DeltaGACT reduce the catalytic activity of reconstituted telomerase, whereas mutations in the 3' portion of the molecule C408G and a deletion of the 3' 74 bases have normal activity in vitro but reduced intracellular activity. By analyzing second site mutations that recreate regions of secondary structure but retain the pathogenic mutations we show that mutations C72G, GC107-8AG, and C408G act by disrupting the secondary structure or folding of TERC. Finally, experiments reconstituting telomerase with both normal and mutant TERC molecules suggest the mutations act via haploinsufficiency rather than by a dominant-negative mechanism.

Published

2004

15. Dyskeratosis congenita: its link to telomerase and aplastic anaemia.

Author

Dokal I and Vulliamy T

Subjects

Anemia, Aplastic etiology, Cell Cycle Proteins metabolism, Chromosome Mapping, Dyskeratosis Congenita etiology, Family Health, Humans, Inheritance Patterns, Mutation, Nuclear Proteins metabolism, RNA metabolism, Telomerase metabolism, Anemia, Aplastic genetics, Dyskeratosis Congenita genetics, RNA genetics, Telomerase genetics

Abstract

Dyskeratosis congenita (DC) is an inherited bone marrow failure syndrome exhibiting considerable clinical and genetic heterogeneity. X-linked recessive, autosomal dominant and autosomal recessive forms are recognised. The gene mutated in X-linked DC (DKC1) encodes a highly conserved nucleolar protein called dyskerin. Dyskerin associates with the H/ACA class of small nucleolar RNAs which are important in guiding the conversion of uracil to pseudouracil in ribosomal RNA. Dyskerin also associates with the RNA component of telomerase (hTR) which is important in the maintenance of telomeres. Mutations in hTR were recently demonstrated in patients with autosomal dominant DC and in a subset of patients with aplastic anaemia (AA) but without other diagnostic features of DC. This discovery demonstrates that both DC and a subset of AA are due to a defect in telomerase. The link between DC and AA and in turn to defective telomerase suggests that treatments directed at correction of telomerase activity might benefit DC/AA patients who do not respond to conventional therapy.

Published

2003

16. Association between aplastic anaemia and mutations in telomerase RNA.

Author

Vulliamy T, Marrone A, Dokal I, and Mason PJ

Subjects

Adolescent, Adult, Anemia, Aplastic classification, Case-Control Studies, Child, Child, Preschool, Female, Humans, Infant, Male, Middle Aged, Mutation genetics, RNA isolation & purification, Telomerase isolation & purification, Anemia, Aplastic genetics, Polymerase Chain Reaction methods, RNA genetics, Telomerase genetics

Abstract

The main cause of aplastic anaemia remains elusive. Germline mutations in the gene encoding the RNA component of telomerase (hTR) have been seen in the autosomal dominant form of dyskeratosis congenita--an inherited syndrome characterised by aplastic anaemia. By screening the hTR gene, we identified mutations in two of 17 patients with idiopathic aplastic anaemia, three of 27 patients with constitutional aplastic anaemia, but in none of 214 normal controls (p<0.0001). Furthermore, patients with hTR mutations had significantly shorter telomeres than age-matched controls (p=0.027). These data indicate that, in a subset of patients with aplastic anaemia, the disorder might be associated with a genetic lesion in the telomere maintenance pathway.

Published

2002