Lorena Díaz-Ajenjo scite author profile

Lorena Díaz-Ajenjo

3Publications

8Citation Statements Received

104Citation Statements Given

How they've been cited

How they cite others

150

102

Affiliations

Instituto de Investigación Biomédica de Salamanca, Universidad de Salamanca, Centro de Investigación del Cáncer

Publications

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Novel variants in GALE cause syndromic macrothrombocytopenia by disrupting glycosylation and thrombopoiesis

Marín-Quílez

Buduo

Díaz-Ajenjo

et al. 2023

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Glycosylation is recognized as a key process for proper megakaryopoiesis and platelet formation. The enzyme UDP-galactose-4-epimerase, encoded by GALE, is involved in galactose metabolism and protein glycosylation. Here, we studied three patients from two unrelated families who showed lifelong severe thrombocytopenia, bleeding diathesis, mental retardation, mitral valve prolapse, and jaundice. Whole-exome sequencing revealed four variants affecting GALE, three of them previously unreported (Pedigree A: p.Lys78ValfsX32 and p.Thr150Met; Pedigree B: p.Val128Met and p.Leu223Pro). Platelet phenotype analysis showed giant and/or grey platelets, impaired platelet aggregation, and severely reduced alpha and dense granule secretion. Enzymatic activity of the UDP-galactose-4-epimerase enzyme was severely decreased in all patients. Immunoblotting of platelet lysates revealed reduced GALE protein levels, a significant decrease of N-acetyl-lactosamine (LacNAc), demonstrating a hypoglycosylation pattern, reduced surface expression of GPIbα-IX-V complex, and mature β1 integrin, and increased apoptosis. In vitro studies performed with patients' derived megakaryocytes demonstrated normal ploidy and maturation but decreased proplatelet formation due to the impaired glycosylation of the GPIbα and β1 integrin, and reduced externalization to megakaryocyte and platelet membranes. Altered distribution of filamin A and actin and delocalization of the von Willebrand Factor were also demonstrated. Overall, this study expands our knowledge of GALE-related thrombocytopenia and emphasized the critical role of GALE in the physiological glycosylation of key proteins involved in platelet production and function.

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P1644: Novel Variants in Gale Caused Syndromic Macrothrombocytopenia Disrupting Thrombopoiesis and Glycosylation

Quilez

Buduo

Díaz-Ajenjo

et al. 2022

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Inherited Thrombocytopenia Caused by Variants in Crucial Genes for Glycosylation

Marín-Quílez

Díaz-Ajenjo

Buduo

et al. 2023

IJMS

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Protein glycosylation, including sialylation, involves complex and frequent post-translational modifications, which play a critical role in different biological processes. The conjugation of carbohydrate residues to specific molecules and receptors is critical for normal hematopoiesis, as it favors the proliferation and clearance of hematopoietic precursors. Through this mechanism, the circulating platelet count is controlled by the appropriate platelet production by megakaryocytes, and the kinetics of platelet clearance. Platelets have a half-life in blood ranging from 8 to 11 days, after which they lose the final sialic acid and are recognized by receptors in the liver and eliminated from the bloodstream. This favors the transduction of thrombopoietin, which induces megakaryopoiesis to produce new platelets. More than two hundred enzymes are responsible for proper glycosylation and sialylation. In recent years, novel disorders of glycosylation caused by molecular variants in multiple genes have been described. The phenotype of the patients with genetic alterations in GNE, SLC35A1, GALE and B4GALT is consistent with syndromic manifestations, severe inherited thrombocytopenia, and hemorrhagic complications.

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