PIP4KIIA and beta-globin: transcripts differentially expressed in reticulocytes and associated with high levels of Hb H in two siblings with Hb H disease.

We are reporting here the results of differential gene expression experiments comparing two siblings, a 21-yr-old male and a 19-yr-old female, with the same alpha-thalassemia genotype (-alpha(3.7)/(--SEA)) and quite different levels of Hb H in the peripheral blood (18.7 and 5%, respectively). By using mRNA differential-display reverse-transcription-PCR and suppression subtractive hybridization, two main transcripts were selected in both procedures and validated by qRT-PCR, one corresponding to the phosphatidylinositol phosphate 4-kinase type II-alpha (PIP4KIIA) gene and the other to the beta-globin gene, both over expressed in the patient with the higher percentage of Hb H. Type II PIP kinases produce phosphatidylinositol 4,5 biphosphate, a critical and pleiotropic regulatory molecule involved in diverse cellular activities, including gene expression. Our results suggest that PIP4KIIA may be one of the factors related to the regulation of the beta-globin gene expression and the different levels of Hb H in alpha-thalassemic patients.

The alpha-chain-termination mutants and their relation to the alpha-thalassaemias.

The structure, synthesis, genetic transmission, clinical associations and distribution of the elongated alpha-chain haemoglobin variants has been described. The data indicate that the most likely molecular basis for these common abnormal haemoglobins is a single base substitution in the alpha-chain termination codon. Because these variants are produced inefficiently they give rise to the clinical picture of alpha-thalassaemia. When these findings are taken together with recent work regarding the molecular basis for other forms of alpha-thalassaemia it is possible to build up a fairly complete picture of the molecular pathology of the alpha-thalassaemias.