Your search keyword '"Leggo, Jayne"' showing total 2 results

1. The mutational spectrum of type 1 von Willebrand disease: Results from a Canadian cohort study.

Author

James PD, Notley C, Hegadorn C, Leggo J, Tuttle A, Tinlin S, Brown C, Andrews C, Labelle A, Chirinian Y, O'Brien L, Othman M, Rivard G, Rapson D, Hough C, and Lillicrap D

Subjects

ABO Blood-Group System genetics, Adolescent, Adult, Aged, Amino Acid Substitution, Canada epidemiology, Child, Child, Preschool, Cohort Studies, DNA Mutational Analysis, Family Health, Female, Gene Frequency, Genotype, Humans, Infant, Male, Middle Aged, Mutation, Missense, Phenotype, Point Mutation, von Willebrand Diseases blood, von Willebrand Diseases classification, von Willebrand Diseases epidemiology, von Willebrand Factor analysis, Mutation, von Willebrand Diseases genetics, von Willebrand Factor genetics

Abstract

In order to evaluate the changes within the VWF gene that might contribute to the pathogenesis of type 1 von Willebrand disease (VWD), a large multicenter Canadian study was undertaken. We present data from the sequence analysis of the VWF gene in 123 type 1 VWD index cases and their families. We have identified putative mutations within the VWF gene in 63% (n = 78) of index cases, leaving 37% (n = 45) with no identified changes. These changes comprise 50 different putative mutations: 31 (62%) missense mutations, 8 (16%) changes involving the VWF transcriptional regulatory region, 5 (10%) small deletions/insertions, 5 (10%) splicing consensus sequence mutations, and 1 nonsense mutation. Twenty-one of the index cases had more than one putative VWF mutation identified. We were somewhat more likely to identify putative mutations in cases with lower VWF levels, and the contribution of other factors, such as ABO blood group, seems more important in milder cases. Taken as a whole, our data support a complex spectrum of molecular pathology resulting in type 1 VWD. In more severe cases, genetic changes are common within the VWF gene and are highly penetrant. In milder cases, the genetic determinants are more complex and involve factors outside of the VWF gene.

Published

2007

2. Aminoglycoside suppression of nonsense mutations in severe hemophilia.

Author

James PD, Raut S, Rivard GE, Poon MC, Warner M, McKenna S, Leggo J, and Lillicrap D

Subjects

Factor IX metabolism, Factor VIII metabolism, Gentamicins pharmacology, Humans, Partial Thromboplastin Time, Aminoglycosides pharmacology, Codon, Nonsense genetics, Hemophilia A genetics

Abstract

Aminoglycoside antibiotics exhibit their bactericidal effect by interfering with normal ribosomal activity. In this pilot study, we have evaluated the effect of the aminoglycoside antibiotic gentamicin on the factor VIII (FVIII) and IX levels of severe hemophiliacs with known nonsense mutations. Five patients were enrolled and each patient was given 3 consecutive days of gentamicin at a dose of 7 mg/kg intravenously every 24 hours. Two patients (patient no. 1: hemophilia A, Ser1395Stop; and patient no. 5: hemophilia B, Arg333Stop) showed a decrease in their activated partial thromboplastin time (aPTT), an increase in their FVIII (0.016 IU/mL, 1.6%) or FIX (0.02 IU/mL, 2%) levels, and an increase in thrombin generation. The remaining 3 patients (patient no. 2: hemophilia B, Arg252Stop; patient no. 3: hemophilia A, Arg2116Stop; and patient no. 4: hemophilia A, Arg427Stop) showed no response in the aPTTs or factor levels, but one (patient no. 2: hemophilia B, Arg252Stop) showed an increase in the factor IX antigen level (2%-5.5%) that persisted throughout the period of the study and was concordant with an increase in thrombin generation. Gentamicin is unlikely to be an effective treatment for severe hemophilia due to its potential toxicities and the minimal response documented in this report. This study, however, does provide a proof of principle, suggesting that ribosomal interference with a less toxic agent may be a potential therapeutic mechanism for severe hemophilia patients with nonsense mutations.

Published

2005