Immunolocalization of HP1 proteins in metaphasic mammalian chromosomes.

HP1 proteins are conserved non histone chromosomal proteins involved in the epigenetic repression of transcription. Three HP1 proteins, HP1alpha, HP1beta and HP1gamma are expressed in mammalian cells. Polyclonal antibodies directed against peptides specific for HP1alpha and HP1gamma were elicited in rabbits, affinity purified, then used to localize both proteins on spreads of unfixed metaphasic chromosomes. We show here, by conventional and confocal microscopy, that both proteins are localized at centromeres and pericentromeres, and that HP1gamma is also present on euchromatic sites of chromosome arms.

HP1gamma associates with euchromatin and heterochromatin in mammalian nuclei and chromosomes.

Heterochromatin protein 1 (HP1) is a nonhistone chromosomal protein, first identified in Drosophila, that plays a dose-dependent role in gene silencing. Three orthologs, HP1alpha, HP1beta, and HP1gamma, have been characterized in mammals. While HP1alpha and HP1beta have been unambiguously localized in heterochromatin by immunocytochemical methods, HP1gamma has been found either exclusively associated with euchromatin or present in both euchromatin and heterochromatin. Here, using an antibody directed against a peptide epitope at the carboxyl-terminal end of the molecule, we localize HP1gamma in both euchromatin and heterochromatin compartments of interphase nuclei, as well as in the pericentromeric chromatin and arms of mitotic chromosomes of 3T3 cells. This dual location was also observed in nuclei expressing HP1gamma as a fusion protein with green fluorescent protein. In contrast, when the distribution of HP1gamma was analyzed with antibodies directed against an amino-terminal epitope, the protein was detectable in euchromatin and not in heterochromatin, except for transient heterochromatin staining during the late S phase, when the heterochromatin undergoes replication. These data suggest that the controversial immunolocalization of HP1gamma in chromatin is due to the use of antibodies directed against topologically distinct epitopes, those present at the amino-terminal end of the molecule being selectively masked in nonreplicative heterochromatin.

Localization and phosphorylation of HP1 proteins during the cell cycle in mammalian cells.

Mammalian heterochromatin proteins 1 (HP1alpha, HP1beta, and HP1gamma) are nonhistone proteins that interact in vitro with a set of proteins that play a role in chromatin silencing, transcription, and chromatin remodeling. Using antibodies specific for each HP1 isoform, we showed that they segregate in distinct nuclear domains of human HeLa cells. By contrast, in mouse 3T3 interphase cells, HP1alpha and HP1beta are strictly colocalized. In mitotic HeLa cells, all of HP1alpha and a fraction of HP1beta and HP1gamma remain associated with chromosomes. Immunostaining of spread HeLa chromosomes showed that HP1alpha is mainly localized on centromeres as shown previously for HP1beta, while HP1gamma is distributed on discrete sites on the arms of chromosomes. Biochemical analysis showed that HP1alpha and HP1gamma are phosphorylated throughout the cell cycle, although more extensively in mitosis than in interphase, while HP1beta apparently remains unphosphorylated. Therefore, despite their extensive sequence conservation, mammalian HP1 isoforms differ widely in their nuclear localization, mitotic distribution and cell cycle-related phosphorylation. Thus, subtle differences in primary sequence and in posttranslational modifications may promote their targeting at different chromatin sites, generating pleiotropic effects.

The human copper-zinc superoxide dismutase gene (SOD1) proximal promoter is regulated by Sp1, Egr-1, and WT1 via non-canonical binding sites.

Human copper-zinc superoxide dismutase (Cu,Zn-SOD) participates in the control of reactive oxygen intermediate intracellular concentration. In this study, we show that phorbol 12-myristate 13-acetate (PMA) increases Cu,Zn-SOD mRNA expression within 30 min. The sequence between nucleotides -71 and -29 is essential for both basal and PMA-induced gene expression. This region includes an Sp1-binding site that is also recognized by a possible Sp1-like protein and by Egr-1 in a PMA-inducible manner. Egr-1 and two splicing variants of the Egr-related protein WT1 were able to transactivate the SOD1 promoter in co-transfection experiments. Sp1 and the possible Sp1-like proteins bind to two overlapping, but distinct sequences. However, Egr-1 and Sp1 seem to interact with two sites that are either identical or very close to each other. None of these sites fit the consensus sequences previously reported for these proteins. Analysis of various mutants of the SOD1 proximal promoter revealed that the region that binds Sp1 and Egr-1 is required for both basal and Egr-1-driven expression. Interplay between different members of the Sp1 family, Egr-1, and different splicing variants of WT1 in the SOD1 proximal promoter may provide clues about the physiological function of Cu,Zn-SOD.

Consecutive stages of arthropathy progression in patients with gout.

During observation of 250 patients with gout in the Institute of Rheumatology in Warsaw in the years 1962-1975 several patterns of joint destruction stages in gouty arthropathy have been recognized on the basis of serial roentgenograms. Histological examination of joints and bones suggests with a considerable probability that the progression of arthropathy depends on the extension of sodium urate deposits in articular tissues. Histological documentation of consecutive stages of joint distruction corresponding to the above mentioned patterns of radiological changes is presented.