Browsing by Author "Silva, Rute"
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- Endothelial factors and stroke risk in pediatric sickle cell anemia patients: insights from VCAM1 and ITGA4 variantsPublication . Silva, Marisa; Vargas, Sofia; Coelho, Andreia; Mendonça, Joana; Vieira, Luís; Kjollerstrom, Paula; Maia, Raquel; Silva, Rute; Dias, Alexandra; Ferreira, Teresa; Morais, Anabela; Mota Soares, Isabel; Lavinha, João; Faustino, PaulaSickle cell anemia (SCA) arises from homozygosity for the mutation c.20A>T in the HBB gene which originates hemoglobin S (HbS). In hypoxic conditions, HbS polymerizes inside erythrocytes deforming them and ultimately leading to hemolysis and vaso-occlusion. SCA shows a multifactorial-like behaviour with a high heterogeneity of clinical features, with stroke being the most severe of them. This heterogeneity may arise from underlying genetic modifiers, namely those affecting vascular adhesion/endothelial dysfunction. These include genes encoding the VCAM-1 molecule and its ligand VLA-4 (ITGA4 or integrin α4), increasingly studied due to their expression in activated human endothelium and leucocytes/stress reticulocytes, respectively. The aim of this study was to identify putative genetic modulators of stroke risk by analyzing 70 pediatric SCA patients, grouped according to their degree of cerebral vasculopathy. Molecular analysis was performed using Next-Generation Sequencing (NGS) and Sanger Sequencing. R software was used for statistical analyses and association studies. In silico studies were performed using PHASE, TFbind, PROMO and Human Splicing Finder software tools. We identified six different VCAM1 promoter variants and seven haplotypes. The VCAM1 promoter rs1409419_T allele was associated with stroke events (p=0.008; O.R.= 4.33; C.I.95% =1.391-14.257), while one VCAM1 promoter haplotype was found to be protective of stroke (p=0.011; O.R.=0.22; C.I.95% =0.048-0.784). On the ITGA4 gene, forty variants were found, six of them novel. All patients presented with at least one variant in this gene. We observed co-inheritance of specific sets of ITGA4 variants indicating the presence of haplotypes not previously described. Additionally the presence of specific variants seems to result in a predisposition for either high reticulocyte count, elevated lactate dehydrogenase, raised bilirubin levels or increased transcranial Doppler velocity values. Our results reinforce the role of endothelial molecules and blood cell interaction in SCA severity. The association between specific VCAM1, as well as ITGA4, variants with certain cerebral vasculopathy predictors, further enhances their putative modulating effect on pediatric stroke severity and prognosis. These findings provide additional clues on the SCA pathophysiology and uncover features of both genes that may prove to be crucial as potential therapeutic targets.
- Fetal hemoglobin level and stroke risk in children with sickle cell anemiaPublication . Nicolau, Marta; Vargas, Sofia; Coelho, Andreia; Silva, Marisa; Mendonça, Joana; Vieira, Luís; Kjollerstrom, Paula; Maia, Raquel; Silva, Rute; Dias, Alexandra; Ferreira, Teresa; Morais, Anabela; Mota Soares, Isabel; Lavinha, João; Faustino, PaulaSickle Cell Anemia (SCA) is a hereditary anemia caused by a missense mutation in HBB and it is characterized by chronic hemolysis, recurrent episodes of vaso-occlusion and infection. Cerebral vasculopathy is one of the most devastating complications of the disease and even young children with SCA have a high risk of stroke. It is known that both environmental and genetic determinants are able to modulate the onset, course and outcome of the disease. Among those, the level of fetal hemoglobin (HbF) has been proposed as the most significant disease modulator. Thus, in this work, we aimed to investigate if the level of HbF in SCA children is related with the risk of stroke and if it is modulated by variants in genes, such as HBG2, BCL11A, HBS1L-MYB, and KLF1. Sixty-seven children (3 years of age) with SCA were enrolled in this study. Hematological and imaging data were retrospectively obtained from patients’ medical records at Greater Lisbon area hospitals. Patients were grouped according to their degree of cerebral vasculopathy evaluated by transcranial Doppler velocities and magnetic resonance imaging. Molecular analyses were performed using Next-Generation Sequencing, Sanger sequencing and PCR-RFLP. In silico studies and statistical analyses were done using the PolyPhen-2 and SPSS softwares, respectively. The association studies revealed that low HbF levels were associated with stroke events in SCA children (p=0.005). At the molecular level, it was observed that patients with the rarest genotypes in HBG2 (rs7482144_TT+TC) presented higher levels of HbF (p=0.031). Additionally, the rs11886868_C and the rs4671393_A alleles in BCL11A also seemed to predispose to higher HbF levels. Moreover, eleven distinct variants in KLF1 were detected (one of them novel, the p.Q342H) with 83% of the patients having at least one variant in this gene. The group of patients who have co-inherited the above mentioned variants in HBG2 and BCL11A together with at least one KLF1 variant presented the highest HbF levels (p=0.021). Our results corroborate previous studies suggesting that a low level of HbF in SCA patients is a risk factor for stroke. Furthermore, we report for the first time the importance of KLF1 variants in combination with other genetic modifiers to the final phenotypic expression of HbF in SCA children with different degrees of cerebral vasculopathy. Consequently, this study allowed the delineation of a genetic pattern with prognostic value for SCA.