Her constitutional deletion was later found to span 13.2 Mb by chromosome microarray analysis, encompassing the RUNX1 gene that has been implicated in thrombocytopenia and predisposition to acute myelogenous leukemia (AML) when in the haploinsufficient state.
Recently, Braddock-Carey syndrome was demonstrated to be caused by chromosomal microdeletion in 21q22 including the RUNX1 gene, whose haploinsufficiency is responsible for thrombocytopenia phenotype.
Altogether, RUNX1 dosage could explain the differential phenotype according to RUNX1 mutations, with a haploinsufficiency leading to thrombocytopenia alone in a majority of cases whereas a more complete gene deletion predisposes to leukemia.
In conclusion, we identified a C-terminal AML1 mutation that leads to a decrease in Mpl receptor expression, providing a potential explanation for thrombocytopenia in this FPD/AML pedigree.
Regardless of age of presentation and severity of symptoms related to thrombocytopenia and/or platelet dysfunction, a subset of patients with IT are at increased risk of developing myeloid neoplasms during their life time, particularly those with germline autosomal dominant mutations in RUNX1, ANKRD26, and ETV6.
We report on two novel germline RUNX1 mutations: (1) an out-of-frame 8 bp heterozygous deletion (c.442_449del) in an FPD/AML pedigree and (2) a de novo 3.5 Mb deletion in the 21q22.11.21q22.12 region encompassing the RUNX1 gene in a mentally retarded female patient with short stature and thrombocytopenia.