Sphingolipid dysregulation due to lack of functional KDSR impairs proplatelet formation causing thrombocytopenia

Bariana, Tadbir K; Labarque, Veerle; Heremans, Jessica; Thys, Chantal; De Reys, Mara; Greene, Daniel; Jenkins, Benjamin; Grassi, Luigi; Seyres, Denis; Burden, Frances; Whitehorn, Deborah; Shamardina, Olga; Papadia, Sofia; Gomez, Keith; Van Geet, Chris; Koulman, Albert; Ouwehand, Willem H; Ghevaert, Cedric; Frontini, Mattia; Turro, Ernest; Freson, Kathleen

doi:10.3324/haematol.2018.204784

Sphingolipid dysregulation due to lack of functional KDSR impairs proplatelet formation causing thrombocytopenia

Author:

Bariana, Tadbir K

Labarque, Veerle ; Heremans, Jessica ; Thys, Chantal ; De Reys, Mara ; Greene, Daniel ; Jenkins, Benjamin ; Grassi, Luigi ; Seyres, Denis ; Burden, Frances ; Whitehorn, Deborah ; Shamardina, Olga ; Papadia, Sofia ; Gomez, Keith ; Van Geet, Chris ; Koulman, Albert ; Ouwehand, Willem H ; Ghevaert, Cedric ; Frontini, Mattia ; Turro, Ernest ; Freson, Kathleen

Keywords:

Science & Technology, Life Sciences & Biomedicine, Hematology, MUTATIONS, SPHINGOSINE, METABOLISM, DISORDERS, DISEASE, Alcohol Oxidoreductases, Animals, Blood Platelets, Cell Differentiation, Cells, Cultured, Child, Female, Humans, Induced Pluripotent Stem Cells, Male, Megakaryocytes, Metabolomics, Mutation, Pedigree, Prognosis, Sphingolipids, Thrombocytopenia, Zebrafish, Platelets, induced pluripotent stem cell, megakaryocyte, proplatelet, sphingolipid, 1102 Cardiorespiratory Medicine and Haematology, Immunology, 3201 Cardiovascular medicine and haematology

Abstract:

Sphingolipids are fundamental to membrane trafficking, apoptosis, and cell differentiation and proliferation. KDSR or 3-keto-dihydrosphingosine reductase is an essential enzyme for de novo sphingolipid synthesis, and pathogenic mutations in KDSR result in the severe skin disorder erythrokeratodermia variabilis et progressiva-4 Four of the eight reported cases also had thrombocytopenia but the underlying mechanism has remained unexplored. Here we expand upon the phenotypic spectrum of KDSR deficiency with studies in two siblings with novel compound heterozygous variants associated with thrombocytopenia, anemia, and minimal skin involvement. We report a novel phenotype of progressive juvenile myelofibrosis in the propositus, with spontaneous recovery of anemia and thrombocytopenia in the first decade of life. Examination of bone marrow biopsies showed megakaryocyte hyperproliferation and dysplasia. Megakaryocytes obtained by culture of CD34+ stem cells confirmed hyperproliferation and showed reduced proplatelet formation. The effect of KDSR insufficiency on the sphingolipid profile was unknown, and was explored in vivo and in vitro by a broad metabolomics screen that indicated activation of an in vivo compensatory pathway that leads to normalization of downstream metabolites such as ceramide. Differentiation of propositus-derived induced pluripotent stem cells to megakaryocytes followed by expression of functional KDSR showed correction of the aberrant cellular and biochemical phenotypes, corroborating the critical role of KDSR in proplatelet formation. Finally, Kdsr depletion in zebrafish recapitulated the thrombocytopenia and showed biochemical changes similar to those observed in the affected siblings. These studies support an important role for sphingolipids as regulators of cytoskeletal organization during megakaryopoiesis and proplatelet formation.