A transient myelodysplastic/myeloproliferative neoplasm in a patient with cardio‐facio‐cutaneous syndrome and a germline <i>BRAF</i> mutation

Sekiguchi, Kazuhito; Maeda, Tomoki; Suenobu, So Ichi; Kunisaki, Nobutaka; Shimizu, Miki; Kiyota, Kyoko; Handa, Yo Suke; Akiyoshi, Kensuke; Korematsu, Seigo; Aoki, Yoko; Matsubara, Yoichi; Izumi, Tatsuro

doi:10.1002/ajmg.a.36107

Cited by 2 publications

(1 citation statement)

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“…We are also aware of two other patients with TL without mutations in GATA1 . Although the causative mutation was not identified in one of these patients , the last case was associated with a germ line mutation in BRAF . The importance of context (size) and the hematopoietic stem cell pool as depicted in our model, is also illustrated by the cumulative incidence of acute leukemia in children born with Fanconi anemia (FA), a rare form of inherited marrow failure syndrome.…”

Section: Discussionmentioning

confidence: 91%

Ontogenic growth as the root of fundamental differences between childhood and adult cancer

2015

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Cancer, the unregulated proliferation of cells, can occur at any age and may arise from almost all cell types. However, the incidence and types of cancer differ with age. Some cancers are predominantly observed in children, others are mostly restricted to older ages. Treatment strategies of some cancers are very successful and cure is common in childhood, while treatment of the same cancer type is much more challenging in adults. Here, we develop a stochastic model of stem cell proliferation that considers both tissue development and homeostasis and discuss the disturbance of such a system by mutations. Due to changes in population size, mutant fitness becomes context dependent and consequently the effects of mutations on the stem cell population can vary with age. We discuss different mutant phenotypes and show the age dependency of their expected abundances. Most importantly, fitness of particular mutations can change with age and advantageous mutations can become deleterious or vice versa. This perspective can explain unique properties of childhood disorders, for example, the frequently observed phenomenon of a self-limiting leukemia in newborns with trisomy 21, but also explains other puzzling observations such as the increased risk of leukemia in patients with bone marrow failure or chemotherapy induced myelodysplasia. STEM CELLS 2016;34:543-550 SIGNIFICANCE STATEMENTWe use a mathematical model to show that the stage of development of a person from a newborn until they reach adult life has a major impact on the behavior of mutations within stem cells that can lead to cancer. We show how at different stages, various mutational patterns can provide a fitness advantage or even disadvantage depending on their context. We illustrate this with specific examples from acute leukemia in children and adults.

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Section: Discussionmentioning

confidence: 91%