Heterogeneity of familial medulloblastoma and contribution of germline PTCH1 and SUFU mutations to sporadic medulloblastoma
Heterogeneity of familial medulloblastoma and contribution of germline PTCH1 and SUFU mutations to sporadic medulloblastoma
PTCH1 and SUFU are both regulators of the sonic hedgehog signalling pathway. Germline inactivating mutations in both genes are associated with multisystem phenotypes including medulloblastoma. Somatic inactivating mutations in PTCH1 and SUFU each occur in approximately 10% of medulloblastomas. Recently, SUFU mutations were reported in familial medulloblastoma pedigrees without additional phenotypic features. We sought to further investigate the contribution of germline PTCH1 and SUFU mutations to familial and sporadic medulloblastoma. We performed full-gene mutational analysis of both PTCH1 and SUFU in three familial medulloblastoma pedigrees and 83 individuals with sporadic non-familial medulloblastoma. We identified no mutations in PTCH1 or SUFU in the three familial medulloblastoma pedigrees. We identified no PTCH1 mutations and two SUFU mutations that cause premature protein truncating in the series of sporadic non-familial medulloblastomas. The SUFU mutations were identified in two of the 16 individuals with desmoplastic medulloblastomas. These data indicate that familial medulloblastoma is a genetically heterogeneous disorder with at least one further susceptibility gene to be discovered. Furthermore, although both PTCH1 and SUFU play a key role in the sonic hedgehog signalling pathway, PTCH1 does not make an appreciable contribution to non-familial sporadic medulloblastoma, whereas inactivating germline mutations of SUFU cause ~2-3% of sporadic medulloblastomas and > 10% of desmoplastic medulloblastomas.
Adult, Aged, Cerebellar Neoplasms/genetics, Child, Child, Preschool, Female, Germ-Line Mutation, Humans, Male, Medulloblastoma/genetics, Middle Aged, Patched Receptors, Patched-1 Receptor, Receptors, Cell Surface/genetics, Repressor Proteins/genetics
337-342
Slade, Ingrid
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Murray, Anne
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Hanks, Sandra
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Kumar, Ajith
a96ad09d-96cf-41be-9783-51951f260470
Walker, Lisa
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Hargrave, Darren
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Douglas, Jenny
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Stiller, Charles
98444775-29a2-4d2b-8bed-9dccc5218115
Izatt, Louise
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Rahman, Nazneen
d5eded76-0af9-4d72-8fea-84986bf49c51
18 June 2011
Slade, Ingrid
264e62f4-7c1e-4522-93f2-917de23e31d3
Murray, Anne
a60386d9-1d47-4bc1-83ee-a7d5927b6cc2
Hanks, Sandra
69252af9-4d09-4c6c-987e-5965a21a58c7
Kumar, Ajith
a96ad09d-96cf-41be-9783-51951f260470
Walker, Lisa
682b9d2c-3469-416e-b9dc-a5c68626fba7
Hargrave, Darren
753b0c7b-3008-437c-a02a-59327ebe5b7e
Douglas, Jenny
0af40e1f-3a73-4d8c-9e14-3c78f1eb37f7
Stiller, Charles
98444775-29a2-4d2b-8bed-9dccc5218115
Izatt, Louise
5d6201a8-8a56-4923-ac9d-75dca6be0a40
Rahman, Nazneen
d5eded76-0af9-4d72-8fea-84986bf49c51
Slade, Ingrid, Murray, Anne, Hanks, Sandra, Kumar, Ajith, Walker, Lisa, Hargrave, Darren, Douglas, Jenny, Stiller, Charles, Izatt, Louise and Rahman, Nazneen
(2011)
Heterogeneity of familial medulloblastoma and contribution of germline PTCH1 and SUFU mutations to sporadic medulloblastoma.
Familial Cancer, 10 (2), .
(doi:10.1007/s10689-010-9411-0).
Abstract
PTCH1 and SUFU are both regulators of the sonic hedgehog signalling pathway. Germline inactivating mutations in both genes are associated with multisystem phenotypes including medulloblastoma. Somatic inactivating mutations in PTCH1 and SUFU each occur in approximately 10% of medulloblastomas. Recently, SUFU mutations were reported in familial medulloblastoma pedigrees without additional phenotypic features. We sought to further investigate the contribution of germline PTCH1 and SUFU mutations to familial and sporadic medulloblastoma. We performed full-gene mutational analysis of both PTCH1 and SUFU in three familial medulloblastoma pedigrees and 83 individuals with sporadic non-familial medulloblastoma. We identified no mutations in PTCH1 or SUFU in the three familial medulloblastoma pedigrees. We identified no PTCH1 mutations and two SUFU mutations that cause premature protein truncating in the series of sporadic non-familial medulloblastomas. The SUFU mutations were identified in two of the 16 individuals with desmoplastic medulloblastomas. These data indicate that familial medulloblastoma is a genetically heterogeneous disorder with at least one further susceptibility gene to be discovered. Furthermore, although both PTCH1 and SUFU play a key role in the sonic hedgehog signalling pathway, PTCH1 does not make an appreciable contribution to non-familial sporadic medulloblastoma, whereas inactivating germline mutations of SUFU cause ~2-3% of sporadic medulloblastomas and > 10% of desmoplastic medulloblastomas.
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Published date: 18 June 2011
Keywords:
Adult, Aged, Cerebellar Neoplasms/genetics, Child, Child, Preschool, Female, Germ-Line Mutation, Humans, Male, Medulloblastoma/genetics, Middle Aged, Patched Receptors, Patched-1 Receptor, Receptors, Cell Surface/genetics, Repressor Proteins/genetics
Identifiers
Local EPrints ID: 506562
URI: http://eprints.soton.ac.uk/id/eprint/506562
ISSN: 1389-9600
PURE UUID: 73d3ef67-ecbd-498d-bb52-12d31d9e3fad
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Date deposited: 11 Nov 2025 17:49
Last modified: 12 Nov 2025 03:09
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Author:
Ingrid Slade
Author:
Anne Murray
Author:
Sandra Hanks
Author:
Ajith Kumar
Author:
Lisa Walker
Author:
Darren Hargrave
Author:
Jenny Douglas
Author:
Charles Stiller
Author:
Louise Izatt
Author:
Nazneen Rahman
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