A link between apoptosis and degree of phosphorylation of high mobility group A1a protein in leukemic cells.

Nuclear phosphoprotein HMGA1a, high mobility group A1a, (previously HMGI) has been investigated during apoptosis. A change in the degree of phosphorylation of HMGA1a has been observed during apoptosis induced in four leukemic cell lines (HL60, K562, NB4, and U937) by drugs (etoposide, camptothecin) or herpes simplex virus type-1. Both hyper-phosphorylation and de-phosphorylation of HMGA1a have been ascertained by liquid chromatography-mass spectrometry. Hyper-phosphorylation (at least five phosphate groups/HMGA1a molecule) occurs at the early apoptotic stages and is probably related to HMGA1a displacement from DNA and chromatin release from the nuclear scaffold. De-phosphorylation (one phosphate or no phosphate groups/HMGA1a molecule) accompanies the later formation of highly condensed chromatin in the apoptotic bodies. We report for the first time a direct link between the degree of phosphorylation of HMGA1a protein and apoptosis according to a process that involves the entire amount of HMGA1a present in the cells and, consequently, whole chromatin. At the same time we report that variously phosphorylated forms of HMGA1a protein are also mono-methylated.

DNA binding of NF-Y: the effect of HMGI proteins depends upon the CCAAT box.

NF-Y is a conserved sequence-specific transcription factor binding to CCAAT boxes. The chromatin-associated HMGI proteins influence promoter activities through positive and negative effects on binding of transcription factors. It was previously shown that HMGI(Y) synergizes the binding of NF-Y to the alpha2-collagen CCAAT box [Currie, R.A. (1997) J. Biol Chem. 272, 30880-30888]. Using recombinant proteins, we confirm that at low concentrations of NF-Y, HMGI(Y) acts synergistically on the alpha2-collagen CCAAT and we extend this observation to HMGI and HMGI-C. However, enhancement of DNA binding to gamma-globin, alpha-globin and MHC class II Ea CCAAT boxes was not observed. At high concentrations, HMGI proteins inhibit binding to alpha2-collagen and to gamma-globin, but not to high affinity Ea or a-globin CCAAT. In none of our experiments did we see a ternary complex between NF-Y, HMGI(Y) and DNA. In protein competition experiments, NF-Y affinity was at least two orders of magnitude higher, even in the context of the suboptimal gamma-globin CCAAT. Our data prove that HMGI proteins have complex positive and negative effects on NF binding to some, but not to all CCAAT boxes, suggesting that this phenomenon is dictated by the sequences flanking the pentanucleotide rather than direct protein-protein interactions.

NF-kappaB mediated transcriptional activation is enhanced by the architectural factor HMGI-C.

High mobility group I proteins (HMGI, HMGY and HMGI-C) are a family of low molecular mass non-histone nuclear proteins which constitute an important component of the active chromatin structure. Two members of this family, HMGI and HMGY, have been demonstrated to contribute to the transcriptional regulation of several promoters by interacting with the DNA and with different transcription factors. On the contrary, very little is known about the third member, HMGI-C, which plays an important role during embryonic growth and in the process of cell transformation, its gene being rearranged in a large number of mesenchimal tumors. In this paper we show for the first time that HMGI-C is also able to function as architectural factor, enhancing the activity of a transcription factor, NF-kappaB, through the PRDII element of the beta-interferon enhancer. Moreover we show that this enhancement is absolutely dependent on the binding of HMGI-C to its target sequence. The demonstration that HMGI-C is able to modulate transcription is thus an important initial step in the identification of genes regulated by this factor.