Pleiotropic Effects of Polymorphisms in the <em>BCL11A</em> Gene on Laboratory Parameters in Sickle Cell Anemia

Sickle cell anemia (SCA) is characterized by hematological events that lead to vaso-occlusion and the onset of clinical manifestations. Fetal hemoglobin (HbF) has been shown to positively influence the clinical outcomes of individuals with SCA. Genetic polymorphisms are known to modulate clinical phenotypes by increasing HbF levels, with the BCL11A gene being an important marker in this regard for future therapies. However, while the BCL11A gene plays a role in the regulation of several genes during hematopoiesis, its various effects are not yet fully understood. The study aimed to investigate association between laboratory biomarkers in the presence of rs766432 and rs6732518 polymorphisms in the BCL11A gene. Hematological and biochemical markers were analyzed using automated methods, while genetic markers were identified by PCR-RFLP techniques. Elevated HbF levels were significantly associated with the presence of rs766432 and rs6732518 polymorphisms. High concentrations of HDL were associated with rs766432 polymorphism, and elevated levels of alpha-1antitrypsin were linked to the rs6732518 polymorphism. No correlation was found between HbF and HDL concentrations. In conclusion, polymorphisms in the BCL11A gene are important for variations in HbF levels and may have a pleiotropic effect by influencing laboratory parameters unrelated to HbF levels.