Genomic variants in the ASS1 gene, involved in the nitric oxide biosynthesis and signaling pathway, predict hydroxyurea treatment efficacy in compound sickle cell disease/β-thalassemia patients-Reference-Cited by-同舟云学术

Genomic variants in the ASS1 gene, involved in the nitric oxide biosynthesis and signaling pathway, predict hydroxyurea treatment efficacy in compound sickle cell disease/β-thalassemia patients

Published:2016-03 Issue:4 Volume:17 Page:393-403
ISSN:1462-2416
Container-title:Pharmacogenomics
language:en
Short-container-title:Pharmacogenomics

Author:

Chalikiopoulou Constantina¹,Tavianatou Anastasia-Gerasimoula¹,Sgourou Argyro²,Kourakli Alexandra³,Kelepouri Dimitra¹,Chrysanthakopoulou Maria¹,Kanelaki Vasiliki-Kaliopi¹,Mourdoukoutas Evangelos¹,Siamoglou Stavroula¹,John Anne⁴,Symeonidis Argyris³,Ali Bassam R⁴,Katsila Theodora¹,Papachatzopoulou Adamantia⁵,Patrinos George P¹⁴

Affiliation:

1. University of Patras, School of Health Sciences, Department of Pharmacy, University Campus, Rion, Patras, Greece

2. Hellenic Open University, Patras, Greece

3. University of Patras, Faculty of Medicine, Department of Internal Medicine, Hematology Division, Patras, Greece

4. Department of Pathology, College of Medicine & Health Sciences, United Arab Emirates University, Al-Ain, United Arab Emirates

5. University of Patras, Faculty of Medicine, Laboratory of General Biology, Patras, Greece

Abstract

Aim: Hemoglobinopathies exhibit a remarkable phenotypic diversity that restricts any safe association between molecular pathology and clinical outcomes. Patients & methods: Herein, we explored the role of genes involved in the nitric oxide biosynthesis and signaling pathway, implicated in the increase of fetal hemoglobin levels and response to hydroxyurea treatment, in 119 Hellenic patients with β-type hemoglobinopathies. Results: We show that two ASS1 genomic variants (namely, rs10901080 and rs10793902) can serve as pharmacogenomic biomarkers to predict hydroxyurea treatment efficacy in sickle cell disease/β-thalassemia compound heterozygous patients. Conclusion: These markers may exert their effect by inducing nitric oxide biosynthesis, either via altering splicing and/or miRNA binding, as predicted by in silico analysis, and ultimately, increase γ-globin levels, via guanylyl cyclase targeting.

Publisher

Future Medicine Ltd

Subject

Pharmacology,Genetics,Molecular Medicine

Link

https://www.futuremedicine.com/doi/pdf/10.2217/pgs.16.1

Reference51 articles.

1. Phenotype—genotype relationships in monogenic disease: lessons from the thalassaemias

2. Fetal hemoglobin in sickle cell anemia

3. Butryic acid analogues augment γ globin gene expression in neonatal erythroid progenitors

4. 5-Azacytidine Selectively Increases γ-Globin Synthesis in a Patient with β+Thalassemia

5. Stimulation of F-Cell Production in Patients with Sickle-Cell Anemia Treated with Cytarabine or Hydroxyurea

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