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Enzyme
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Query: UMLS:C0699790 (
colon cancer
)
28,837
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mortalin (mot-2) induces inactivation of the tumor suppressor p53's transcriptional and apoptotic functions by cytoplasmic sequestration of p53 in select cancers. The mot-2-dependent cytoprotective function enables cancer cells to support malignant transformation. Abrogating the p53-mot-2 interaction can control or slow down the growth of cancer cells. In this study, we report the discovery of a ubiquitin-like (UBX)-domain-containing protein,
UBXN2A
, which binds to mot-2 and consequently inhibits the binding between mot-2 and p53. Genetic analysis showed that
UBXN2A
binds to mot-2's substrate binding domain, and it partly overlaps p53's binding site indicating
UBXN2A
and p53 likely bind to mot-2 competitively. By binding to mot-2,
UBXN2A
releases p53 from cytosolic sequestration, rescuing the tumor suppressor functions of p53. Biochemical analysis and functional assays showed that the overexpression of
UBXN2A
and the functional consequences of unsequestered p53 trigger p53-dependent apoptosis. Cells expressing shRNA against
UBXN2A
showed the opposite effect of that seen with
UBXN2A
overexpression. The expression of
UBXN2A
and its apoptotic effects were not observed in normal colonic epithelial cells and p53-/-
colon cancer
cells. Finally, significant reduction in tumor volume in a xenograft mouse model in response to
UBXN2A
expression was verified in vivo. Our results introduce
UBXN2A
as a home defense response protein, which can reconstitute inactive p53-dependent apoptotic pathways. Inhibition of mot-2-p53 interaction by
UBXN2A
is an attractive therapeutic strategy in mot-2-elevated tumors.
...
PMID:Ubiquitin-like (UBX)-domain-containing protein, UBXN2A, promotes cell death by interfering with the p53-Mortalin interactions in colon cancer cells. 2462 77
Veratridine (VTD), an alkaloid derived from the Liliaceae plant shows anti-tumor effects; however, its molecular targets have not been thoroughly studied. Using a high-throughput drug screen, we found that VTD enhances transactivation of
UBXN2A
, resulting in upregulation of
UBXN2A
in the cytoplasm, where
UBXN2A
binds and inhibits the oncoprotein mortalin-2 (mot-2). VTD-treated cancer cells undergo cell death in
UBXN2A
- and mot-2-dependent manners. The cytotoxic function of VTD is grade-dependent, and the combined treatment with a sub-optimal dose of the standard chemotherapy, 5-Fluorouracil (5-FU) and etoposide, demonstrated a synergistic effect, resulting in higher therapeutic efficacy. VTD influences the CD44+ stem cells, possibly through
UBXN2A
-dependent inhibition of mot-2. The VTD-dependent expression of
UBXN2A
is a potential candidate for designing novel strategies for
colon cancer
treatment because: 1) In 50% of
colon cancer
patients, UBXN2A protein levels in tumor tissues are significantly lower than those in the adjacent normal tissues. 2) Cytoplasmic expression of the mot-2 protein is very low in non-cancerous cells; thus, VTD can produce tumor-specific toxicity while normal cells remain intact. 3) Finally, VTD or its modified analogs offer a valuable adjuvant chemotherapy strategy to improve the efficacy of 5-FU-based chemotherapy for
colon cancer
patients harboring WT-p53.
...
PMID:A plant alkaloid, veratridine, potentiates cancer chemosensitivity by UBXN2A-dependent inhibition of an oncoprotein, mortalin-2. 2618 24
The subcellular localization, expression level, and activity of anti-cancer proteins alter in response to intrinsic and extrinsic cellular stresses to reverse tumor progression. The purpose of this study is to determine whether
UBXN2A
, an activator of the p53 tumor suppressor protein, has different subcellular compartmentalization in response to the stress of DNA damage. We measured trafficking of the UBXN2A protein in response to two different DNA damage stresses, UVB irradiation and the genotoxic agent Etoposide, in
colon cancer
cell lines. Using a cytosol-nuclear fractionation technique followed by western blot and immunofluorescence staining, we monitored and quantitated
UBXN2A
and p53 proteins as well as p53's downstream apoptotic pathway. We showed that the anti-cancer protein
UBXN2A
acts in the early phase of cell response to two different DNA damage stresses, being induced to translocate into the cytoplasm in a dose- and time-dependent manner. UVB-induced cytoplasmic
UBXN2A
binds to mortalin-2 (mot-2), a known oncoprotein in colon tumors. UVB-dependent upregulation of
UBXN2A
in the cytoplasm decreases p53 binding to mot-2 and activates apoptotic events in
colon cancer
cells. In contrast, the shRNA-mediated depletion of
UBXN2A
leads to significant reduction in apoptosis in
colon cancer
cells exposed to UVB and Etoposide. Leptomycin B (LMB), which was able to block
UBXN2A
nuclear export following Etoposide treatment, sustained p53-mot-2 interaction and had partially antagonistic effects with Etoposide on cell apoptosis. The present study shows that nucleocytoplasmic translocation of
UBXN2A
in response to stresses is necessary for its anti-cancer function in the cytoplasm. In addition, LMB-dependent suppression of
UBXN2A
's translocation to the cytoplasm upon stress allows the presence of an active mot-2 oncoprotein in the cytoplasm, resulting in p53 sequestration as well as activation of other mot-2-dependent growth promoting pathways.
...
PMID:Nucleocytoplasmic Translocation of UBXN2A Is Required for Apoptosis during DNA Damage Stresses in Colon Cancer Cells. 2651 53
Overexpression of the oncoprotein mortalin in cancer cells and its protein partners enables mortalin to promote multiple oncogenic signaling pathways and effectively antagonize chemotherapy-induced cell death. A UBX-domain-containing protein,
UBXN2A
, acts as a potential mortalin inhibitor. This current study determines whether
UBXN2A
effectively binds to and occupies mortalin's binding pocket, resulting in a direct improvement in the tumor's sensitivity to chemotherapy. Molecular modeling of human mortalin's binding pocket and its binding to the SEP domain of
UBXN2A
followed by yeast two-hybrid and His-tag pull-down assays revealed that three amino acids (PRO442, ILE558, and LYS555) within the substrate-binding domain of mortalin are crucial for
UBXN2A
binding to mortalin. As revealed by chase experiments in the presence of cycloheximide, overexpression of
UBXN2A
seems to interfere with the mortalin-CHIP E3 ubiquitin ligase and consequently suppresses the C-terminus of the HSC70-interacting protein (CHIP)-mediated destabilization of p53, resulting in its stabilization in the cytoplasm and upregulation in the nucleus. Overexpression of
UBXN2A
causes a significant inhibition of cell proliferation and the migration of
colon cancer
cells. We silenced
UBXN2A
in the human osteosarcoma U2OS cell line, an enriched mortalin cancer cell, followed by a clinical dosage of the chemotherapeutic agent 5-fluorouracil (5-FU). The
UBXN2A
knockout U2OS cells revealed that UBXNA is essential for the cytotoxic effect achieved by 5-FU.
UBXN2A
overexpression markedly increased the apoptotic response of U2OS cells to the 5-FU. In addition, silencing of UBXN2A protein suppresses apoptosis enhanced by
UBXN2A
overexpression in U2OS. The knowledge gained from this study provides insights into the mechanistic role of
UBXN2A
as a potent mortalin inhibitor and as a potential chemotherapy sensitizer for clinical application.
...
PMID:Structural studies of UBXN2A and mortalin interaction and the putative role of silenced UBXN2A in preventing response to chemotherapy. 2663 71
