The molecular basis and hematological phenotype of adult Thai β-thalassemia intermedia (β-TI) patients encountered with inferior vena cava (IVC) thrombosis were investigated. Hematological and molecular analysis revealed a trait previously not described. The disease was caused by interaction of the β(+)-thalassemia (β(+)-thal) gene with the -90 (C > T) (HBB: c.-140C > T) transition within the erythroid Krüppel-like factor (EKLF) binding site of the β-globin gene promoter with Hb E (HBB: c.79G > A) and α(+)-thalassemia (α(+)-thal). Hematological data of the patient were compared with those of heterozygous forms of these defects found in his family members and different genotype-phenotype interactions are illustrated. Globin gene haplotype analysis indicates an independent origin of this Thai β(+)-thal gene. Accurate diagnoses as well as knowledge of genotype-phenotype relationships were required for providing appropriate management of such cases.
We have developed methods based on PCR and denaturing high performance liquid chromatography (DHPLC) for rapid identifications of common β-thalassemia mutations found in Thailand. The β-globin gene was separately amplified by PCR on four different fragments covering eight most common β-thalassemia mutations including nucleotide -28 A-G, codon 17 (A-T), IVSI-1 (G-T), IVSI-5 (G-C), codon 26 (G-A or Hb E), codons 41/42 (-TTCT), codons 71/72 (+A) and IVSII-654 (C-T). After PCR amplification, heteroduplex was generated by denaturation at 95 °C for 5 min followed by a slow reduction in temperature to 25 °C at 0.03 °C/s. Analysis of heteroduplex was done on an automated WAVE Nucleic Acid Fragment Analysis System. Specific DHPLC profile for each mutation was demonstrated which could be used in screening for all eight β-thalassemia mutations. Further validation was done on 42 pre- and post-natal DNA samples which demonstrated 100 % accuracy as compared to the result obtained with conventional PCR assays. In a remaining case with an unknown mutation, a different DHPLC profile was noted on one of the amplified fragment. Further DNA sequencing of this fragment revealed a T-G transversion at the IVSI-116, a previously un-described mutation in Thai population. The DHPLC assay developed should prove useful for rapid screening of known and unknown β-thalassemia mutations during carrier screening and pre-natal diagnosis which would facilitate an ongoing prevention and control program of thalassemia.
miR-21 expression stimulates osteoclast cells in the context of osteoclastogenesis. A previous report showed that NFκB-miR-21 pathway could serve as an innovative alternative to devise therapeutics for healing diabetic ulcers. Furthermore, our study demonstrated that a highly water-soluble curcuminoids-rich extract (CRE-Ter) inhibits osteoclastogenesis through NFκB pathway. The interplay between miR-21 and CRE-Ter in osteoclastogenesis has not yet been investigated. In this study, we examined the relation of CRE-Ter and miR-21 gene expression in receptor of the nuclear factor κB (NFκB) ligand (RANKL) - induced murine monocyte/macrophage RAW 264.7 cells, osteoclast cells, in osteoclastogenesis. Effect of CRE-Ter on generation of intracellular reactive oxygen species (ROS) was estimated by dichlorofluorescein diacetate (DCFH-DA). The results reveal that CRE-Ter reduced expression levels of miR-21 gene in osteoclasts. The inhibitory effects of CRE-Ter on
in vitro
osteoclastogenesis were evaluated by reduction in tartrate-resistant acid phosphatase (TRAP) content, and by reduction in expression levels of an osteoclast-specific gene, cathepsin K. Treatment of the osteoclast cells with CRE-Ter suppressed RANKL-induced NFκB activation including phospho-NFκB-p65, and phospho IκBα proteins. Western blot analysis revealed that NFκB inhibitor up-regulated CRE-Ter-promoted expression of phospho-NFκB-p65. In addition, CRE-Ter dose-dependently inhibited phospho-Akt expression. CRE-Ter also dose-dependently reduced DNA binding activity of NFκB and Akt as revealed by EMSA. ChIP assay revealed binding of NFκB-p65 to miR-21 promoters. In conclusion, our results demonstrate that CRE-Ter downregulates miR-21 gene expression in osteoclasts via a de novo mechanism, NFκB- Akt-miR-21 pathway.
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