Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:2.5.1.18 (
glutathione S-transferase
)
22,582
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
CIGB-300, formerly known as P15-tat, is a proapoptotic peptide with established antiproliferative activity in vitro and antitumoral activity in vivo. This hypothesis-driven peptide was initially selected for its ability to impair the in vitro CK2-mediated phosphorylation in one of its substrates through direct binding to the conserved acidic phosphoaceptor domain. However, the actual in vivo target(s) on human cancer cells among the hundreds of CK2 substrates as well as the subsequent events that lead to apoptosis on tumor cells remains to be determined. In this work, we identified the multifunctional oncoprotein nucleophosmin/
B23
as a major target for CIGB-300. In vivo, the CIGB-300-
B23
interaction was shown by pull-down experiments and confirmed by the early in situ colocalization of both molecules in the cell nucleolus. Moreover, CIGB-300 inhibits the CK2-mediated phosphorylation of
B23
in a dose-dependent fashion both in vitro and in vivo as shown using the recombinant
GST
fusion protein and the metabolic labeling approach, respectively. Such phosphorylation impairment was correlated with the ability of CIGB-300 to induce nucleolar disassembly as documented by the use of established markers for nucleolar structure. Finally, we showed that such a sequence of events leads to the rapid and massive onset of apoptosis both at the molecular and cellular levels. Collectively, these findings provide important clues by which the CIGB-300 peptide exerts its proapoptotic effect on tumor cells and highlights the suitability of the
B23
/CK2 pathway for cancer-targeted therapy.
...
PMID:Anticancer peptide CIGB-300 binds to nucleophosmin/B23, impairs its CK2-mediated phosphorylation, and leads to apoptosis through its nucleolar disassembly activity. 1941 60
Using mass spectrometric analysis we found that oncogenic transcription factor FOXM1 that is overexpressed in a majority of human cancers interacts with multifunctional protein
NPM
, which is also overexpressed in a variety of human tumors. Coimmunoprecipitation and
glutathione S-transferase
pull-down experiments demonstrated that
NPM
forms a complex with FOXM1 and also identified the regions responsible for their interaction. Immunofluorescence microscopy confirmed the interaction between FOXM1 and
NPM
in cancer and immortal cells. Furthermore, knockdown of
NPM
in immortal and cancer cells led to significant down-regulation of FOXM1 similar to its levels in normal cells, suggesting that
NPM
might modulate FOXM1 level. In addition, in OCI/AML3 leukemia cells where mutant
NPM
is localized in the cytoplasm we found that typically nuclear FOXM1 was predominantly co-localized with
NPM
in the cytoplasm, while
NPM
knockdown led to the disappearance of FOXM1 from the cytoplasm, suggesting that
NPM
may also determine intracellular localization of FOXM1. Knockdown of FOXM1 or
NPM
in MIA PaCa-2 pancreatic cancer cells inhibited anchorage-dependent and independent growth in cell culture, and tumor growth in nude mice. In addition, over-expression of FOXM1 reversed the effect of
NPM
knockdown in vitro. Our data suggest that in cancer cells
NPM
interacts with FOXM1 and their interaction is required for sustaining the level and localization of FOXM1. Targeting the interaction between FOXM1 and
NPM
by peptides or small molecules may represent a novel therapeutic strategy against cancer.
...
PMID:Nucleophosmin interacts with FOXM1 and modulates the level and localization of FOXM1 in human cancer cells. 2197 56
Nucleophosmin (
NPM
, also known as
B23
), mainly localized in the nucleolus, has been reported to be overexpressed in many types of human cancer, including colon, ovarian, prostate and gastric cancer.
NPM
was identified while screening the differential nuclear matrix proteins during HMBA-induced differentiation of human liver cancer cells. We investigated the aberrant expression and subcellular localization of
NPM
in clinical liver cancer tissues and a cell line with the aim of providing more evidence for revealing the roles of
NPM
on regulating liver cancer cell proliferation and differentiation. In addition, we studied the potential interaction between
NPM
and several important proteins. Our results revealed that
NPM
protein was overexpressed in cancer cells, which was in accordance with the overexpressed mRNA in cancer tissues compared to the corresponding non-cancer tissues. We also found a decrease of
NPM
in protein and mRNA levels upon treatment with the differentiation reagent HMBA. We focused on the aberrant localization of
NPM
. Immunochemistry and immunofluorescence revealed aberrant cytoplasmic and nucleoplasm localization of
NPM
in liver cancer tissues and its colocalization with c-Myc, c-Fos, P53 and Rb in the SMMC-7721 cell line. The interactions between
NPM
and the above proteins were confirmed by
GST
pull-down assay and co-immunoprecipitation assay. These findings indicate that
NPM
plays a regulatory role in liver cancer, which deserves in-depth investigation.
...
PMID:Regulatory role of nucleophosmin during the differentiation of human liver cancer cells. 2478 60
The eukaryotic proteins comprising the SURF6 protein family are evolutionary conservative and housekeeping proteins however, functional roles of human SURF6 have not been studied so far. To shed light to this question in the present work we applied
GST
pull-down assay and used two proteins fused with
GST
, namely human
GST
-SURF6 and the conservative C-terminal domain of mouse Surf6 that has 85% homology with the C-terminus of the human SURF6 conservative domain (
GST
-Surf6-dom), to identify SURF6-interacting proteins in human HeLa cells. The results obtained showed that
GST
-SURF6 interacts with several key nucleolar RNA processing factors (
B23
/nucleophosmin, nucleolin, EBP2), and also with the specific cofactor of RNA polymerase I, protein UBE These results are the first experimental evidences in favor of participation of the human SURF6 protein in ribosome biogenesis, including transcription of rDNA and processing of rRNAs. The same results were obtained, when
GST
-Surf6-dom was used to pull-down proteins in HeLa cells. In addition, the panel of the
GST
-Surf6-dom protein partners, which were identified by mass-spectrometry, points to putative interactions of human SURF6 with a number of nuclear and nucleolar, proteins of other functional groups, i.e. to the protein plurifunctionality.
...
PMID:[Identification of the protein partners of the human nucleolar protein SURF6 in HeLa cells by GST pull-down assay]. 2589 52
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