Identification of a low‐<i>M</i><sub>r</sub> acidic nuclear protein as prothymosin α

Palvimo, Jorma J.; Linnala-Kankkunen, Annikka

doi:10.1016/0014-5793(90)80860-l

Cited by 22 publications

(19 citation statements)

References 25 publications

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“…A down-regulation of the ProT gene by TBTO was also observed in rat primary thymocytes (Baken, personal communication). The Western blot analysis result lends support to the observed downregulation of ProT in the TBTO-exposed cells (Figure 3) though further study is required to shed light on whether ProT selectively binds with another protein, or forms an oligomer on SDS-PAGE electrophoresis as previously reported (Palvimo and Linnala-Kankkunen, 1990;Codero et al, 1992) This small nuclear protein (M r = 12122 Da) is found in all mammalian tissues (Evstafieva et al, 2000).…”

Section: Discussionsupporting

confidence: 80%

“…A specific interaction of ProT with the basic histone H1 in vitro was previously reported (Papamarcaki and Tsolas, 1994;Karetsou et al, 1998). Alternatively, the observed band may be an oligomeric form of ProT, since previous studies showed that proT exhibits anomalous behavior on SDSelectrophoresis, forming oligomers even under denaturing and reducing conditions (Palvimo and Linnala-Kankkunen, 1990;Codero et al, 1992).…”

Section: Protein Identificationmentioning

confidence: 95%

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Proteomic analysis of mouse thymoma EL4 cells treated with bis(tri-n-butyltin)oxide (TBTO)

Osman¹,

Kol²,

Peijnenburg³

et al. 2009

Journal of Immunotoxicology

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Section: Discussionsupporting

confidence: 80%

Section: Protein Identificationmentioning

confidence: 95%

Proteomic analysis of mouse thymoma EL4 cells treated with bis(tri-n-butyltin)oxide (TBTO)

Osman¹,

Kol²,

Peijnenburg³

et al. 2009

Journal of Immunotoxicology

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“…Certain aspects of PTa structure may be useful in understanding the transcriptional regulatory function of PTa. Because of the high acidity of the protein (Palvimo and Linnala-Kankkunen, 1990) it is unlikely to be a DNA binding protein. There are structural similarities between PTa and nuclear proteins known to be involved in chromatin activity, and it has been reported that PTa interacts specifically with histone H1 (Diaz-Jullien et al, 1996;GomezMarquez and Rodriguez, 1998;Karetsou et al, 1998).…”

Section: Discussionmentioning

confidence: 99%

Regulation of prothymosin α by estrogen receptor α: molecular mechanisms and relevance in estrogen-mediated breast cell growth

Bianco

Montano

2002

Oncogene

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Prothymosin a (PTa) is a small highly acidic protein found in the nuclei of virtually all mammalian tissues. Its high conservation in mammals and wide tissue distribution suggest an essential biological role. While the exact mechanism of action of PTa remains elusive, the one constant has been its relationship with the proliferative state of the cell and its requirement for cellular growth and survival. Recently PTa was found to promote transcriptional activity by sequestering the anticoactivator, REA from the Estrogen Receptor (ER) complex. We now report that Estradiol (E 2 ) upregulates PTa mRNA and protein expression. Further studies indicate that ERa regulates PTa gene transcriptional activity. We have also delimited the region of PTa gene promoter involved in ERa-mediated transcriptional regulation and identified a novel ERabinding element. Increased intracellular PTa expression in the presence of estrogens is accompanied by increased nuclear/decreased cytoplasmic localization. Increased nuclear expression of PTa is correlated with increased proliferation as measured by expression of Ki67 nuclear antigen. Conversely, inhibition of nuclear PTa expression in breast cancer cells using antisense methodology resulted in the inhibition of E 2 -induced breast cancer cell proliferation. Overall these studies underscore the importance of PTa in estrogen-induced breast cell proliferation.

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“…Prothymosin ␣ is found in the nuclei of virtually all mammalian cells (17,39,43,58) in amounts which correlate with the proliferative activity of the tissue (24,27). The thymus, with its self-renewing pool of precursor cells (2), is usually the richest source, with large amounts of the protein found in the spleen, lungs, and kidneys (16,32).…”

mentioning

confidence: 99%

Do Products of the myc Proto-Oncogene Play a Role in Transcriptional Regulation of the Prothymosin α Gene?

Mol

Wang

Batey

et al. 1995

Molecular and Cellular Biology

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The Myc protein has been reported to activate transcription of the rat prothymosin ␣ gene by binding to an enhancer element or E box (CACGTG) located in the first intron (S. Gaubatz et al., Mol. Cell. Biol. 14:3853-3862, 1994). The human prothymosin ␣ gene contains two such motifs: in the promoter region at kb ؊1.2 and in intron 1, ϳ2 kb downstream of the transcriptional start site in a region which otherwise bears little homology to the rat gene. Using chloramphenicol acetyltransferase (CAT) reporter constructs driven either by the 5-kb human prothymosin ␣ promoter or by a series of truncated promoters, we showed that removal of the E-box sequence had no effect on transient expression of CAT activity in mouse L cells. When intron 1 of the prothymosin ␣ gene was inserted into the most extensive promoter construct downstream of the CAT coding region, a diminution in transcription, which remained virtually unchanged upon disruption of the E boxes, was observed. CAT constructs driven by the native prothymosin ␣ promoter or the native promoter and intron were indifferent to Myc; equivalent CAT activity was observed in the presence of ectopic normal or mutant Myc genes. Similarly, expression of a transiently transfected wild-type prothymosin ␣ gene as the reporter was not affected by a repertoire of myc-derived genes, including myc itself and dominant or recessive negative myc mutants. In COS-1 cells, equivalent amounts of the protein were produced from transfected prothymosin ␣ genes regardless of whether genomic E boxes were disrupted, intron 1 was removed, or a repertoire of myc-derived genes was included in the transfection cocktail. More importantly, cotransfection of a dominant negative Max gene failed to reduce transcription of the endogenous prothymosin ␣ gene in COS cells or the wild-type transfected gene in COS or L cells. Taken together, the data do not support the idea that Myc activates transcription of the intact human prothymosin ␣ gene or reporter constructs that mimic its structure. Rather, they suggest that the human prothymosin ␣ promoter and downstream elements are buffered so as to respond poorly, if at all, to transient fluctuations in transcription factors which regulate other genes.

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Identification of a low‐M_r acidic nuclear protein as prothymosin α

Cited by 22 publications

References 25 publications

Proteomic analysis of mouse thymoma EL4 cells treated with bis(tri-n-butyltin)oxide (TBTO)

Proteomic analysis of mouse thymoma EL4 cells treated with bis(tri-n-butyltin)oxide (TBTO)

Regulation of prothymosin α by estrogen receptor α: molecular mechanisms and relevance in estrogen-mediated breast cell growth

Do Products of the myc Proto-Oncogene Play a Role in Transcriptional Regulation of the Prothymosin α Gene?

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Identification of a low‐Mr acidic nuclear protein as prothymosin α

Cited by 22 publications

References 25 publications

Proteomic analysis of mouse thymoma EL4 cells treated with bis(tri-n-butyltin)oxide (TBTO)

Proteomic analysis of mouse thymoma EL4 cells treated with bis(tri-n-butyltin)oxide (TBTO)

Regulation of prothymosin α by estrogen receptor α: molecular mechanisms and relevance in estrogen-mediated breast cell growth

Do Products of the myc Proto-Oncogene Play a Role in Transcriptional Regulation of the Prothymosin α Gene?

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Identification of a low‐M_r acidic nuclear protein as prothymosin α