RUNX1-mutated families show phenotype heterogeneity and a somatic mutation profile unique to germline predisposed AML

Anna L. Brown; Peer Arts; Catherine L. Carmichael; Milena Babic; Julia Dobbins; Chan Eng Chong; Andreas W. Schreiber; Jinghua Feng; Kerry Phillips; Paul P.S. Wang; Thuong Ha; Claire C. Homan; Sarah L. King-Smith; Lesley Rawlings; Cassandra Vakulin; Andrew Dubowsky; Jessica Burdett; Sarah Moore; Grace McKavanagh; Denae Henry; Amanda Wells; Belinda Mercorella; Mario Nicola; Jeffrey Suttle; Ella Wilkins; Xiao Chun Li; Joelle Michaud; Peter Brautigan; Ping Cannon; Meryl Altree; Louise Jaensch; Miriam Fine; Carolyn Butcher; Richard J. D'Andrea; Ian D. Lewis; Devendra K. Hiwase; Elli Papaemmanuil; Marshall S. Horwitz; Georges Natsoulis; Hugh Y. Rienhoff; Nigel Patton; Sally Mapp; Rachel Susman; Susan Morgan; Julian Cooney; Mark Currie; Uday Popat; Tilmann Bochtler; Shai Izraeli; Kenneth Bradstock; Lucy A. Godley; Alwin Krämer; Stefan Fröhling; Andrew H. Wei; Cecily Forsyth; Helen Mar Fan; Nicola K. Poplawski; Christopher N. Hahn; Hamish S. Scott

doi:10.1182/bloodadvances.2019000901

RUNX1-mutated families show phenotype heterogeneity and a somatic mutation profile unique to germline predisposed AML

Anna L. Brown^*, Peer Arts, Catherine L. Carmichael, Milena Babic, Julia Dobbins, Chan Eng Chong, Andreas W. Schreiber, Jinghua Feng, Kerry Phillips, Paul P.S. Wang, Thuong Ha, Claire C. Homan, Sarah L. King-Smith, Lesley Rawlings, Cassandra Vakulin, Andrew Dubowsky, Jessica Burdett, Sarah Moore, Grace McKavanagh, Denae HenryAmanda Wells, Belinda Mercorella, Mario Nicola, Jeffrey Suttle, Ella Wilkins, Xiao Chun Li, Joelle Michaud, Peter Brautigan, Ping Cannon, Meryl Altree, Louise Jaensch, Miriam Fine, Carolyn Butcher, Richard J. D'Andrea, Ian D. Lewis, Devendra K. Hiwase, Elli Papaemmanuil, Marshall S. Horwitz, Georges Natsoulis, Hugh Y. Rienhoff, Nigel Patton, Sally Mapp, Rachel Susman, Susan Morgan, Julian Cooney, Mark Currie, Uday Popat, Tilmann Bochtler, Shai Izraeli, Kenneth Bradstock, Lucy A. Godley, Alwin Krämer, Stefan Fröhling, Andrew H. Wei, Cecily Forsyth, Helen Mar Fan, Nicola K. Poplawski, Christopher N. Hahn, Hamish S. Scott

^*Corresponding author for this work

Medicine, Hematology Oncology Division

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

110 Scopus citations

Abstract

First reported in 1999, germline runt-related transcription factor 1 (RUNX1) mutations are a well-established cause of familial platelet disorder with predisposition to myeloid malignancy (FPD-MM). We present the clinical phenotypes and genetic mutations detected in 10 novel RUNX1-mutated FPD-MM families. Genomic analyses on these families detected 2 partial gene deletions, 3 novel mutations, and 5 recurrent mutations as the germline RUNX1 alterations leading to FPD-MM. Combining genomic data from the families reported herein with aggregated published data sets resulted in 130 germline RUNX1 families, which allowed us to investigate whether specific germline mutation characteristics (type, location) could explain the large phenotypic heterogeneity between patients with familial platelet disorder and different HMs. Comparing the somatic mutational signatures between the available familial (n 5 35) and published sporadic (n 5 137) RUNX1-mutated AML patients showed enrichment for somatic mutations affecting the second RUNX1 allele and GATA2. Conversely, we observed a decreased number of somatic mutations affecting NRAS, SRSF2, and DNMT3A and the collective genes associated with CHIP and epigenetic regulation. This is the largest aggregation and analysis of germline RUNX1 mutations performed to date, providing a unique opportunity to examine the factors underlying phenotypic differences and disease progression from FPD to MM.

Original language	English (US)
Pages (from-to)	1131-1144
Number of pages	14
Journal	Blood Advances
Volume	4
Issue number	6
DOIs	https://doi.org/10.1182/bloodadvances.2019000901
State	Published - Mar 24 2020

Funding

This work was supported by project grants APP1145278 and APP1164601 from the National Health and Medical Research Council of Australia, Principal Research Fellowship APP1023059 (H.S.S.), and the Royal Adelaide Hospital Research Foundation. This project is proudly supported by the Leukaemia Foundation of Australia, the Beat Cancer Project of the Cancer Council SA on behalf of its donors, and the State Government of South Australia through the Department of Health (project grant APP1125849). P.A. is supported by a fellowship from The Hospital Research Foundation.

ASJC Scopus subject areas

Hematology

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Brown, A. L., Arts, P., Carmichael, C. L., Babic, M., Dobbins, J., Chong, C. E., Schreiber, A. W., Feng, J., Phillips, K., Wang, P. P. S., Ha, T., Homan, C. C., King-Smith, S. L., Rawlings, L., Vakulin, C., Dubowsky, A., Burdett, J., Moore, S., McKavanagh, G., ... Scott, H. S. (2020). RUNX1-mutated families show phenotype heterogeneity and a somatic mutation profile unique to germline predisposed AML. Blood Advances, 4(6), 1131-1144. https://doi.org/10.1182/bloodadvances.2019000901

@article{fa19e25ad9cd4842a0407f625ad41af7,

title = "RUNX1-mutated families show phenotype heterogeneity and a somatic mutation profile unique to germline predisposed AML",

abstract = "First reported in 1999, germline runt-related transcription factor 1 (RUNX1) mutations are a well-established cause of familial platelet disorder with predisposition to myeloid malignancy (FPD-MM). We present the clinical phenotypes and genetic mutations detected in 10 novel RUNX1-mutated FPD-MM families. Genomic analyses on these families detected 2 partial gene deletions, 3 novel mutations, and 5 recurrent mutations as the germline RUNX1 alterations leading to FPD-MM. Combining genomic data from the families reported herein with aggregated published data sets resulted in 130 germline RUNX1 families, which allowed us to investigate whether specific germline mutation characteristics (type, location) could explain the large phenotypic heterogeneity between patients with familial platelet disorder and different HMs. Comparing the somatic mutational signatures between the available familial (n 5 35) and published sporadic (n 5 137) RUNX1-mutated AML patients showed enrichment for somatic mutations affecting the second RUNX1 allele and GATA2. Conversely, we observed a decreased number of somatic mutations affecting NRAS, SRSF2, and DNMT3A and the collective genes associated with CHIP and epigenetic regulation. This is the largest aggregation and analysis of germline RUNX1 mutations performed to date, providing a unique opportunity to examine the factors underlying phenotypic differences and disease progression from FPD to MM.",

author = "Brown, {Anna L.} and Peer Arts and Carmichael, {Catherine L.} and Milena Babic and Julia Dobbins and Chong, {Chan Eng} and Schreiber, {Andreas W.} and Jinghua Feng and Kerry Phillips and Wang, {Paul P.S.} and Thuong Ha and Homan, {Claire C.} and King-Smith, {Sarah L.} and Lesley Rawlings and Cassandra Vakulin and Andrew Dubowsky and Jessica Burdett and Sarah Moore and Grace McKavanagh and Denae Henry and Amanda Wells and Belinda Mercorella and Mario Nicola and Jeffrey Suttle and Ella Wilkins and Li, {Xiao Chun} and Joelle Michaud and Peter Brautigan and Ping Cannon and Meryl Altree and Louise Jaensch and Miriam Fine and Carolyn Butcher and D'Andrea, {Richard J.} and Lewis, {Ian D.} and Hiwase, {Devendra K.} and Elli Papaemmanuil and Horwitz, {Marshall S.} and Georges Natsoulis and Rienhoff, {Hugh Y.} and Nigel Patton and Sally Mapp and Rachel Susman and Susan Morgan and Julian Cooney and Mark Currie and Uday Popat and Tilmann Bochtler and Shai Izraeli and Kenneth Bradstock and Godley, {Lucy A.} and Alwin Kr{\"a}mer and Stefan Fr{\"o}hling and Wei, {Andrew H.} and Cecily Forsyth and Fan, {Helen Mar} and Poplawski, {Nicola K.} and Hahn, {Christopher N.} and Scott, {Hamish S.}",

note = "Publisher Copyright: {\textcopyright} 2020 by The American Society of Hematology.",

year = "2020",

month = mar,

day = "24",

doi = "10.1182/bloodadvances.2019000901",

language = "English (US)",

volume = "4",

pages = "1131--1144",

journal = "Blood Advances",

issn = "2473-9529",

publisher = "American Society of Hematology",

number = "6",

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Brown, AL, Arts, P, Carmichael, CL, Babic, M, Dobbins, J, Chong, CE, Schreiber, AW, Feng, J, Phillips, K, Wang, PPS, Ha, T, Homan, CC, King-Smith, SL, Rawlings, L, Vakulin, C, Dubowsky, A, Burdett, J, Moore, S, McKavanagh, G, Henry, D, Wells, A, Mercorella, B, Nicola, M, Suttle, J, Wilkins, E, Li, XC, Michaud, J, Brautigan, P, Cannon, P, Altree, M, Jaensch, L, Fine, M, Butcher, C, D'Andrea, RJ, Lewis, ID, Hiwase, DK, Papaemmanuil, E, Horwitz, MS, Natsoulis, G, Rienhoff, HY, Patton, N, Mapp, S, Susman, R, Morgan, S, Cooney, J, Currie, M, Popat, U, Bochtler, T, Izraeli, S, Bradstock, K, Godley, LA, Krämer, A, Fröhling, S, Wei, AH, Forsyth, C, Fan, HM, Poplawski, NK, Hahn, CN & Scott, HS 2020, 'RUNX1-mutated families show phenotype heterogeneity and a somatic mutation profile unique to germline predisposed AML', Blood Advances, vol. 4, no. 6, pp. 1131-1144. https://doi.org/10.1182/bloodadvances.2019000901

TY - JOUR

T1 - RUNX1-mutated families show phenotype heterogeneity and a somatic mutation profile unique to germline predisposed AML

AU - Brown, Anna L.

AU - Arts, Peer

AU - Carmichael, Catherine L.

AU - Babic, Milena

AU - Dobbins, Julia

AU - Chong, Chan Eng

AU - Schreiber, Andreas W.

AU - Feng, Jinghua

AU - Phillips, Kerry

AU - Wang, Paul P.S.

AU - Ha, Thuong

AU - Homan, Claire C.

AU - King-Smith, Sarah L.

AU - Rawlings, Lesley

AU - Vakulin, Cassandra

AU - Dubowsky, Andrew

AU - Burdett, Jessica

AU - Moore, Sarah

AU - McKavanagh, Grace

AU - Henry, Denae

AU - Wells, Amanda

AU - Mercorella, Belinda

AU - Nicola, Mario

AU - Suttle, Jeffrey

AU - Wilkins, Ella

AU - Li, Xiao Chun

AU - Michaud, Joelle

AU - Brautigan, Peter

AU - Cannon, Ping

AU - Altree, Meryl

AU - Jaensch, Louise

AU - Fine, Miriam

AU - Butcher, Carolyn

AU - D'Andrea, Richard J.

AU - Lewis, Ian D.

AU - Hiwase, Devendra K.

AU - Papaemmanuil, Elli

AU - Horwitz, Marshall S.

AU - Natsoulis, Georges

AU - Rienhoff, Hugh Y.

AU - Patton, Nigel

AU - Mapp, Sally

AU - Susman, Rachel

AU - Morgan, Susan

AU - Cooney, Julian

AU - Currie, Mark

AU - Popat, Uday

AU - Bochtler, Tilmann

AU - Izraeli, Shai

AU - Bradstock, Kenneth

AU - Godley, Lucy A.

AU - Krämer, Alwin

AU - Fröhling, Stefan

AU - Wei, Andrew H.

AU - Forsyth, Cecily

AU - Fan, Helen Mar

AU - Poplawski, Nicola K.

AU - Hahn, Christopher N.

AU - Scott, Hamish S.

PY - 2020/3/24

Y1 - 2020/3/24

N2 - First reported in 1999, germline runt-related transcription factor 1 (RUNX1) mutations are a well-established cause of familial platelet disorder with predisposition to myeloid malignancy (FPD-MM). We present the clinical phenotypes and genetic mutations detected in 10 novel RUNX1-mutated FPD-MM families. Genomic analyses on these families detected 2 partial gene deletions, 3 novel mutations, and 5 recurrent mutations as the germline RUNX1 alterations leading to FPD-MM. Combining genomic data from the families reported herein with aggregated published data sets resulted in 130 germline RUNX1 families, which allowed us to investigate whether specific germline mutation characteristics (type, location) could explain the large phenotypic heterogeneity between patients with familial platelet disorder and different HMs. Comparing the somatic mutational signatures between the available familial (n 5 35) and published sporadic (n 5 137) RUNX1-mutated AML patients showed enrichment for somatic mutations affecting the second RUNX1 allele and GATA2. Conversely, we observed a decreased number of somatic mutations affecting NRAS, SRSF2, and DNMT3A and the collective genes associated with CHIP and epigenetic regulation. This is the largest aggregation and analysis of germline RUNX1 mutations performed to date, providing a unique opportunity to examine the factors underlying phenotypic differences and disease progression from FPD to MM.

AB - First reported in 1999, germline runt-related transcription factor 1 (RUNX1) mutations are a well-established cause of familial platelet disorder with predisposition to myeloid malignancy (FPD-MM). We present the clinical phenotypes and genetic mutations detected in 10 novel RUNX1-mutated FPD-MM families. Genomic analyses on these families detected 2 partial gene deletions, 3 novel mutations, and 5 recurrent mutations as the germline RUNX1 alterations leading to FPD-MM. Combining genomic data from the families reported herein with aggregated published data sets resulted in 130 germline RUNX1 families, which allowed us to investigate whether specific germline mutation characteristics (type, location) could explain the large phenotypic heterogeneity between patients with familial platelet disorder and different HMs. Comparing the somatic mutational signatures between the available familial (n 5 35) and published sporadic (n 5 137) RUNX1-mutated AML patients showed enrichment for somatic mutations affecting the second RUNX1 allele and GATA2. Conversely, we observed a decreased number of somatic mutations affecting NRAS, SRSF2, and DNMT3A and the collective genes associated with CHIP and epigenetic regulation. This is the largest aggregation and analysis of germline RUNX1 mutations performed to date, providing a unique opportunity to examine the factors underlying phenotypic differences and disease progression from FPD to MM.

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JO - Blood Advances

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RUNX1-mutated families show phenotype heterogeneity and a somatic mutation profile unique to germline predisposed AML

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