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Sickle cell disease has varied clinical symptoms, and patients having high fetal hemoglobin (HbF) have milder symptoms. Various genetic factors are known to modulate the HbF levels. Krüppel-like factor 1 (KLF1) is a transcription factor that regulates the beta-like globin gene expression. Any variation in KLF1 gene may alter the sickle cell disease phenotype. Xmn-I polymorphism is also known to regulate the gamma globin gene expression. Present studies were carried out to investigate the effect of KLF1 gene mutations and Xmn-I polymorphism on the sickle cell disease severity and to ascertain the genotype-phenotype correlation. One hundred and eighteen sickle cell disease patients having a median follow-up of 5 years (3–10 years) were recruited. Clinical details were recorded from their retrospective medical records. Xmn-I polymorphism were analyzed using PCR-RFLP method. Variations in KLF1 gene were identified using Sanger sequencing. Out of 118 patients, 24 had acute chest syndrome and 21 patients had more than 2 pain episodes per year. There were no significant differences in sickle cell disease-related morbidities in male and females barring leg ulcers. A total of 6 polymorphism were observed in KLF1 gene, out of which 3 are novel (c.-304G > C, c.*141A > G and c.*178A > G). No statistically significant association of any of SNPs identified in KLF1 gene or Xmn-I polymorphism was seen with HbF levels as well as the sickle cell disease-related morbidities. No association exists between fetal hemoglobin or sickle cell disease-related morbidities and Xmn-I polymorphism or with SNPs identified in KLF1 gene in the studied cohort.

Sickle cell disease is a major public health problem in India. Lack of rapid and reliable diagnostic methods result in many avoidable deaths in affected population. Current diagnostic tools are laboratory based, expensive and need trained manpower. Here, we evaluated the performance of a microchip-based cellulose acetate electrophoresis test, “Gazelle” in the tribal-dominated Indian states of Chhattisgarh and Madhya Pradesh. A total of 1,050 patients were screened by sickle cell solubility, hemoglobin (cellulose acetate) electrophoresis, high-performance liquid chromatography (HPLC) and Gazelle. Of the total 1,027 test results obtained, 960 tests were “Valid” (93.5%) and included in the analysis. Gazelle identified all patients with disease (HbSS and Thalassemia Major) with 100% accuracy. Gazelle demonstrated 100% sensitivity when comparing sickle cell disease (SCD) vs. sickle cell trait and SCD vs. normal. Specificity was 98.9% and 99.5% when comparing SCD vs. trait and trait vs. normal, respectively. Specificity was 99.8% when comparing SCD vs. normal and sensitivity was 99.3% when comparing trait vs. normal. Overall, Gazelle yielded a high accuracy (99.0%) compared to reference standard tests (hemoglobin electrophoresis and HPLC). Gazelle is a low-cost, rapid diagnostic test with high accuracy for detecting SCD both quantitatively and qualitatively. Gazelle can be a potential screening tool for the rapid diagnosis in resource limited settings and developing countries with high burden of hemoglobin disorders.

Patients with sickle cell disease (SCD) produce significantly low levels of plasma nitric oxide (NO) during acute vaso-occlusive crisis. In transgenic sickle cell mice, NO synthesized by endothelial nitric oxide synthase (eNOS) enzyme of vascular endothelial cells has been found to protect the mice from vaso-occlusive events. Therefore, the present study aims to explore possible association of eNOS gene polymorphism as a potential genetic modifier in SCD patients. A case control study involving 150 SCD patients and age- and ethnicity-matched 150 healthy controls were genotyped by PCR-restriction fragment length polymorphism techniques for three important eNOS gene polymorphisms-eNOS 4a/b, eNOS 894G>T and eNOS -786T>C. It was observed that SCD patients had significantly higher frequencies of mutant alleles besides heterozygous and homozygous mutant genotypes of these three eNOS gene polymorphisms and low levels of plasma nitrite (NO2) as compared with control groups. The SCD severe group had significantly lower levels of plasma NO2 and higher frequencies of mutant alleles of these three SNPs of eNOS gene in contrast to the SCD mild group of patients. Haplotype analysis revealed that frequencies of one mutant haplotype '4a-T-C' (alleles in order of eNOS 4a/b, eNOS 894G>T and eNOS -786T>C) were significantly high in the severe SCD patients (P<0.0001), whereas the frequency of a wild haplotype '4b-G-T' was found to be significantly high (P<0.0001) in the SCD mild patients, which indicates that eNOS gene polymorphisms are associated with SCD patients in India and may act as a genetic modifier of the phenotypic variation of SCD patients.

The beta globin gene showed the presence of sickle cell mutation (HBB:c.20A>T) in homozygous condition (figure 1C) whereas the alpha globin gene carried a HBA2:c.193G>A (or HBA1:c.193G>A) in heterozygous state. (A) Cellulose acetate haemoglobin electrophoresis of Index case showing three haemoglobin variants, (B) CE-HPLC chromatogram of index case, (C) electropherogram of beta globin gene showing HBB: c.20A>T mutation in homozygous state, (D) electropherogram of alpha globin gene showing HBA2:c.193G>A mutation in heterozygous state, (E) Agarose gel electrophoresis picture of the variable number repeat marker Ha-ras(lane 2-4), Ig-Jh (lane 6-8) and ApoB (lane 10-12) for proband (lane 2, 6, 10), father (lane 3,7,11) and mother (lane 4,8,12). Hb G-Waimanalo was first described in 1971 in a 72-year-old man with Filipino ancestry from the Waimanalo area of the Hawaiian Island of Oahu.2 Later in 1978, this mutation was reported as Hb Aida in an Asian Indian wherein it co inherited with Hb D-LosAngeles.3 Hb G-Waimanalo has been sporadically reported in members of Japanese, Romanian, Italian (Sicily), Turkish, Chinese and Bulgarian origin (table 3).2–12 The present study reports for first time identification of Hb G-Waimanalo mutation in an ethnic Indian individual. [...]other causes of haemolytic anaemia (severe iron overload, congenital dyserythropoietic anaemia) were not tested and it is one of the limitations in the present study. Since the RT of Hb G-Waimanalo and HbS are similar and coelute in CE-HPLC,13 there is high probability of misdiagnosis with sickle Hb in high sickle cell endemic areas.