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. 2023 Jul 11;9(3):a006289.
doi: 10.1101/mcs.a006289. Print 2023 Jun.

Perinatal-lethal nonimmune fetal hydrops attributed to MECOM-associated bone marrow failure

Camille A Dash  1 Jill A Madden  2   3 Christy Cummings  1 Melissa Rose  4 Sheria D Wilson  5   6 Mari Mori  6 Pankaj B Agrawal  3   7 Bimal P Chaudhari  5   6   8 Monica H Wojcik  9   2   3
Affiliations

Perinatal-lethal nonimmune fetal hydrops attributed to MECOM-associated bone marrow failure

Camille A Dash et al. Cold Spring Harb Mol Case Stud. .

Abstract

Pathogenic variants in MECOM, a gene critical to the self-renewal and proliferation of hematopoietic stem cells, are known to cause a rare bone marrow failure syndrome associated with amegakaryocytic thrombocytopenia and bilateral radioulnar synostosis known as RUSAT2. However, the spectrum of disease seen with causal variants in MECOM is broad, ranging from mildly affected adults to fetal loss. We report two cases of infants born preterm who presented at birth with symptoms of bone marrow failure including severe anemia, hydrops, and petechial hemorrhages; radioulnar synostosis was not observed in either patient, and, unfortunately, neither infant survived. In both cases, genomic sequencing revealed de novo variants in MECOM considered to be responsible for their severe presentations. These cases add to the growing body of literature that describe MECOM-associated disease, particularly MECOM as a cause of fetal hydrops due to bone marrow failure in utero. Furthermore, they support the use of a broad sequencing approach for perinatal diagnosis, as MECOM is absent from available targeted gene panels for hydrops, and highlight the importance of postmortem genomic investigation.

Keywords: amegakaryocytic thrombocytopenia; congenital hypoplastic anemia; leukopenia; nonimmune hydrops fetalis.

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