1,721,005 research outputs found
Interaction of p53 with prolyl isomerases: Healthy and unhealthy relationships
No full textBACKGROUND:
The p53 protein family, comprising p53, p63 and p73, is primarily involved in preserving genome integrity and preventing tumor onset, and also affects a range of physiological processes. Signal-dependent modifications of its members and of other pathway components provide cells with a sophisticated code to transduce a variety of stress signaling into appropriate responses. TP53 mutations are highly frequent in cancer and lead to the expression of mutant p53 proteins that are endowed with oncogenic activities and sensitive to stress signaling.
SCOPE OF REVIEW:
p53 family proteins have unique structural and functional plasticity, and here we discuss the relevance of prolyl-isomerization to actively shape these features.
MAJOR CONCLUSIONS:
The anti-proliferative functions of the p53 family are carefully activated upon severe stress and this involves the interaction with prolyl-isomerases. In particular, stress-induced stabilization of p53, activation of its transcriptional control over arrest- and cell death-related target genes and of its mitochondrial apoptotic function, as well as certain p63 and p73 functions, all require phosphorylation of specific S/T-P motifs and their subsequent isomerization by the prolyl-isomerase Pin1. While these functions of p53 counteract tumorigenesis, under some circumstances their activation by prolyl-isomerases may have negative repercussions (e.g. tissue damage induced by anticancer therapies and ischemia-reperfusion, neurodegeneration). Moreover, elevated Pin1 levels in tumor cells may transduce deregulated phosphorylation signaling into activation of mutant p53 oncogenic functions.
GENERAL SIGNIFICANCE:
The complex repertoire of biological outcomes induced by p53 finds mechanistic explanations, at least in part, in the association between prolyl-isomerases and the p53 pathway. This article is part of a Special Issue entitled Proline-directed foldases: Cell signaling catalysts and drug targets
HMGI proteins interfere with homeodomains binding to DNA.
No full textJOURNAL OF BIOLOGICAL CHEMISTRY
Isolation and characterization of the gene coding for murine high-mobility-group protein HMGI-C.
No full textIn the present study, we report the genomic reconstruction of the human homeobox-containing gene HHEX by the use of the data available in public databases. This analysis allowed characterization of the gene organization showing that it is very similar to the mouse gene. Moreover the gene was mapped using FISH to 10q24
Sp1 and CTF/NF-1 transcription factors are involved in the basal expression of the Hmgi-c proximal promoter.
No full textHMGI-C is a nuclear architectural factor which is expressed during embryogenesis but not in adult tissues while it becomes re-expressed following neoplastic transformation. In this paper we identify the promoter region of the mouse Hmgi-c gene and by stepwise deletion of the 5' sequences we map the promoter activity of the most abundant transcript to a very short fragment containing a long polypyrimidine/polypurine (ppyr/ppur) tract. We demonstrate that this tract is a multiple binding site for the transcription factors Sp1 and Sp3 and that in Drosophila SL2 cells, Sp1 activates the Hmgi-c promoter. In addition, another transcription factor, CTF/NF-1, binds the proximal promoter immediately downstream of this region and its mutation decreases transcription in NIH-3T3 cells. This study identifies factors responsible for the basal activity of Hmgi-c gene and provides a foundation for further analysis of the mechanism of its regulation
Isolation and characterisation of the gene coding for murine high-mobility-group protein HMGI-C.
No full textGenomic organization and chromosome mapping of the human homeobox gene HHEX
No full textIn the present study, we report the genomic reconstruction of the human homeobox-containing gene HHEX by the use of the data available in public databases. This analysis allowed characterization of the gene organization showing that it is very similar to the mouse gene. Moreover the gene was mapped using FISH to 10q24
A link between apoptosis and degree of phosphorylation of high mobility group A1a protein in leukemic cells.
No full textNuclear 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
Giant cell tumor of bonelike lesion in a Trp53 mutant mouse.
No full textGiant cell tumor of bone (GCTB) is a common primary neoplasm of bone characterized by distinctive clinicopathological features. GCTB is exceedingly rare in nonhuman species, and it has been sporadically reported in cats, dogs, rats, and birds. This report describes a primary murine bone tumor that shares striking clinicopathological similarities with human GCTB. The neoplasm occurred in a 71-week-old C57BL/6 mouse heterozygous for the specific Trp53 R172H point mutation. Grossly, the tumor presented as a mono-ostotic nodular mass arising from the distal metaphysis of the right femur. Microscopically, the affected bone was effaced by an osteolytic neoplasm with focal infiltrations into the surrounding tissues. Similarly to what was reported for human GCTB, the murine neoplasm consisted of 3 main cell populations: (1) bundles of pleomorphic spindle-shaped mononuclear cells displaying an indefinite mesenchymal histogenesis with immunohistochemical expression of vimentin and smooth muscle actin, (2) scattered multinucleated giant cells exhibiting osteoclast differentiation with prominent tartrate-resistant acid phosphatase activity and immunoreactivity for monocyte/macrophage markers including CD45 and lysozyme, and (3) scattered round mononuclear cells consistent with activated macrophages and expressing CD45, lysozyme, and F4/80. Based on these morphological and immunohistological results, the murine bone tumor described in this study has been putatively classified as GCTB
During apoptosis of tumor cells HMGA1a protein undergoes methylation: identification of the modification site by mass spectrometry.
No full textProgrammed cell death is characterized by posttranslational modifications of a limited and specific set of nuclear proteins. We demonstrate that during apoptosis of different types of tumor cells there is a monomethylation of the nuclear protein HMGA1a that is associated to its previously described hyperphosphorylation/dephosphorylation process. HMGA1a methylation is strictly related to the execution of programmed cell death and is a massive event that involves large amounts of the protein. In some tumor cells, HMGA1a protein is already methylated to an extent that depends on cell type. The degree of methylation in any case definitely increases during apoptosis. In the studied cell systems (human leukaemia, human prostate tumor, and rat thyroid transformed cells) among the low-molecular-mass HMG proteins, only HMGA1a was found to be methylated. A tryptic digestion map of HPLC-purified HMGA1a protein showed that methylation occurs at arginine 25 in the consensus G(24)R(25)G(26) that belongs to one of the DNA-binding AT-hooks of the protein. An increase of HMGA1a methylation could be related to heterochromatin and chromatin remodeling of apoptotic cells
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