NOTCH2 mutations in Alagille syndrome

Binita Maya Kamath; Robert C Bauer; Kathleen M Loomes; Grace Chao; Jennifer Gerfen; Anne Hutchinson; Winita Hardikar; Gideon Hirschfield; Paloma Jara; Ian D Krantz; Pablo Lapunzina; Laura Leonard; Simon Ling; Vicky Lee Ng; Phuc Le Hoang; David A Piccoli; Nancy Bettina Spinner

doi:10.1136/jmedgenet-2011-100544

NOTCH2 mutations in Alagille syndrome

Binita Maya Kamath, Robert C Bauer, Kathleen M Loomes, Grace Chao, Jennifer Gerfen, Anne Hutchinson, Winita Hardikar, Gideon Hirschfield, Paloma Jara, Ian D Krantz, Pablo Lapunzina, Laura Leonard, Simon Ling, Vicky Lee Ng, Phuc Le Hoang, David A Piccoli, Nancy Bettina Spinner

Immunology and Immunotherapy

Research output: Contribution to journal › Article › peer-review

131 Citations (Scopus)

Abstract

BACKGROUND: Alagille syndrome (ALGS) is a dominant, multisystem disorder caused by mutations in the Jagged1 (JAG1) ligand in 94% of patients, and in the NOTCH2 receptor in <1%. There are only two NOTCH2 families reported to date. This study hypothesised that additional NOTCH2 mutations would be present in patients with clinical features of ALGS without a JAG1 mutation.

METHODS: The study screened a cohort of JAG1-negative individuals with clinical features suggestive or diagnostic of ALGS for NOTCH2 mutations.

RESULTS: Eight individuals with novel NOTCH2 mutations (six missense, one splicing, and one non-sense mutation) were identified. Three of these patients met classic criteria for ALGS and five patients only had a subset of features. The mutations were distributed across the extracellular (N=5) and intracellular domains (N=3) of the protein. Functional analysis of four missense, one nonsense, and one splicing mutation demonstrated decreased Notch signalling of these proteins. Subjects with NOTCH2 mutations demonstrated highly variable expressivity of the affected systems, as with JAG1 individuals. Liver involvement was universal in NOTCH2 probands and they had a similar prevalence of ophthalmologic and renal anomalies to JAG1 patients. There was a trend towards less cardiac involvement in the NOTCH2 group (60% vs 100% in JAG1). NOTCH2 (+) probands exhibited a significantly decreased penetrance of vertebral abnormalities (10%) and facial features (20%) when compared to the JAG1 (+) cohort.

CONCLUSIONS: This work confirms the importance of NOTCH2 as a second disease gene in ALGS and expands the repertoire of the NOTCH2 related disease phenotype.

Original language	English
Pages (from-to)	138-44
Number of pages	7
Journal	Journal of Medical Genetics
Volume	49
Issue number	2
DOIs	https://doi.org/10.1136/jmedgenet-2011-100544
Publication status	Published - Feb 2012

Keywords

Alagille Syndrome
Animals
Cell Line
DNA Mutational Analysis
Facies
Gene Expression
Genetic Association Studies
HEK293 Cells
Humans
Mice
Mutation
Phenotype
Receptor, Notch2
Signal Transduction

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Kamath, B. M., Bauer, R. C., Loomes, K. M., Chao, G., Gerfen, J., Hutchinson, A., Hardikar, W., Hirschfield, G., Jara, P., Krantz, I. D., Lapunzina, P., Leonard, L., Ling, S., Ng, V. L., Hoang, P. L., Piccoli, D. A., & Spinner, N. B. (2012). NOTCH2 mutations in Alagille syndrome. Journal of Medical Genetics, 49(2), 138-44. https://doi.org/10.1136/jmedgenet-2011-100544

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abstract = "BACKGROUND: Alagille syndrome (ALGS) is a dominant, multisystem disorder caused by mutations in the Jagged1 (JAG1) ligand in 94% of patients, and in the NOTCH2 receptor in <1%. There are only two NOTCH2 families reported to date. This study hypothesised that additional NOTCH2 mutations would be present in patients with clinical features of ALGS without a JAG1 mutation.METHODS: The study screened a cohort of JAG1-negative individuals with clinical features suggestive or diagnostic of ALGS for NOTCH2 mutations.RESULTS: Eight individuals with novel NOTCH2 mutations (six missense, one splicing, and one non-sense mutation) were identified. Three of these patients met classic criteria for ALGS and five patients only had a subset of features. The mutations were distributed across the extracellular (N=5) and intracellular domains (N=3) of the protein. Functional analysis of four missense, one nonsense, and one splicing mutation demonstrated decreased Notch signalling of these proteins. Subjects with NOTCH2 mutations demonstrated highly variable expressivity of the affected systems, as with JAG1 individuals. Liver involvement was universal in NOTCH2 probands and they had a similar prevalence of ophthalmologic and renal anomalies to JAG1 patients. There was a trend towards less cardiac involvement in the NOTCH2 group (60% vs 100% in JAG1). NOTCH2 (+) probands exhibited a significantly decreased penetrance of vertebral abnormalities (10%) and facial features (20%) when compared to the JAG1 (+) cohort.CONCLUSIONS: This work confirms the importance of NOTCH2 as a second disease gene in ALGS and expands the repertoire of the NOTCH2 related disease phenotype.",

keywords = "Alagille Syndrome, Animals, Cell Line, DNA Mutational Analysis, Facies, Gene Expression, Genetic Association Studies, HEK293 Cells, Humans, Mice, Mutation, Phenotype, Receptor, Notch2, Signal Transduction",

author = "Kamath, {Binita Maya} and Bauer, {Robert C} and Loomes, {Kathleen M} and Grace Chao and Jennifer Gerfen and Anne Hutchinson and Winita Hardikar and Gideon Hirschfield and Paloma Jara and Krantz, {Ian D} and Pablo Lapunzina and Laura Leonard and Simon Ling and Ng, {Vicky Lee} and Hoang, {Phuc Le} and Piccoli, {David A} and Spinner, {Nancy Bettina}",

year = "2012",

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doi = "10.1136/jmedgenet-2011-100544",

language = "English",

volume = "49",

pages = "138--44",

journal = "Journal of Medical Genetics",

issn = "0022-2593",

publisher = "BMJ Publishing Group",

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T1 - NOTCH2 mutations in Alagille syndrome

AU - Kamath, Binita Maya

AU - Bauer, Robert C

AU - Loomes, Kathleen M

AU - Chao, Grace

AU - Gerfen, Jennifer

AU - Hutchinson, Anne

AU - Hardikar, Winita

AU - Hirschfield, Gideon

AU - Jara, Paloma

AU - Krantz, Ian D

AU - Lapunzina, Pablo

AU - Leonard, Laura

AU - Ling, Simon

AU - Ng, Vicky Lee

AU - Hoang, Phuc Le

AU - Piccoli, David A

AU - Spinner, Nancy Bettina

PY - 2012/2

Y1 - 2012/2

N2 - BACKGROUND: Alagille syndrome (ALGS) is a dominant, multisystem disorder caused by mutations in the Jagged1 (JAG1) ligand in 94% of patients, and in the NOTCH2 receptor in <1%. There are only two NOTCH2 families reported to date. This study hypothesised that additional NOTCH2 mutations would be present in patients with clinical features of ALGS without a JAG1 mutation.METHODS: The study screened a cohort of JAG1-negative individuals with clinical features suggestive or diagnostic of ALGS for NOTCH2 mutations.RESULTS: Eight individuals with novel NOTCH2 mutations (six missense, one splicing, and one non-sense mutation) were identified. Three of these patients met classic criteria for ALGS and five patients only had a subset of features. The mutations were distributed across the extracellular (N=5) and intracellular domains (N=3) of the protein. Functional analysis of four missense, one nonsense, and one splicing mutation demonstrated decreased Notch signalling of these proteins. Subjects with NOTCH2 mutations demonstrated highly variable expressivity of the affected systems, as with JAG1 individuals. Liver involvement was universal in NOTCH2 probands and they had a similar prevalence of ophthalmologic and renal anomalies to JAG1 patients. There was a trend towards less cardiac involvement in the NOTCH2 group (60% vs 100% in JAG1). NOTCH2 (+) probands exhibited a significantly decreased penetrance of vertebral abnormalities (10%) and facial features (20%) when compared to the JAG1 (+) cohort.CONCLUSIONS: This work confirms the importance of NOTCH2 as a second disease gene in ALGS and expands the repertoire of the NOTCH2 related disease phenotype.

AB - BACKGROUND: Alagille syndrome (ALGS) is a dominant, multisystem disorder caused by mutations in the Jagged1 (JAG1) ligand in 94% of patients, and in the NOTCH2 receptor in <1%. There are only two NOTCH2 families reported to date. This study hypothesised that additional NOTCH2 mutations would be present in patients with clinical features of ALGS without a JAG1 mutation.METHODS: The study screened a cohort of JAG1-negative individuals with clinical features suggestive or diagnostic of ALGS for NOTCH2 mutations.RESULTS: Eight individuals with novel NOTCH2 mutations (six missense, one splicing, and one non-sense mutation) were identified. Three of these patients met classic criteria for ALGS and five patients only had a subset of features. The mutations were distributed across the extracellular (N=5) and intracellular domains (N=3) of the protein. Functional analysis of four missense, one nonsense, and one splicing mutation demonstrated decreased Notch signalling of these proteins. Subjects with NOTCH2 mutations demonstrated highly variable expressivity of the affected systems, as with JAG1 individuals. Liver involvement was universal in NOTCH2 probands and they had a similar prevalence of ophthalmologic and renal anomalies to JAG1 patients. There was a trend towards less cardiac involvement in the NOTCH2 group (60% vs 100% in JAG1). NOTCH2 (+) probands exhibited a significantly decreased penetrance of vertebral abnormalities (10%) and facial features (20%) when compared to the JAG1 (+) cohort.CONCLUSIONS: This work confirms the importance of NOTCH2 as a second disease gene in ALGS and expands the repertoire of the NOTCH2 related disease phenotype.

KW - Alagille Syndrome

KW - Animals

KW - Cell Line

KW - DNA Mutational Analysis

KW - Facies

KW - Gene Expression

KW - Genetic Association Studies

KW - HEK293 Cells

KW - Humans

KW - Mice

KW - Mutation

KW - Phenotype

KW - Receptor, Notch2

KW - Signal Transduction

U2 - 10.1136/jmedgenet-2011-100544

DO - 10.1136/jmedgenet-2011-100544

M3 - Article

C2 - 22209762

SN - 0022-2593

VL - 49

SP - 138

EP - 144

JO - Journal of Medical Genetics

JF - Journal of Medical Genetics

IS - 2

ER -

NOTCH2 mutations in Alagille syndrome

Abstract

Keywords

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