Pulmonary Arterial Hypertension KnowledgeBase (bioinfom_tsdb)
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Pulmonary Arterial Hypertension KnowledgeBase
General information | Literature | Expression | Regulation | Mutation | Interaction

Basic Information

Gene ID

10628

Name

TXNIP

Synonymous

EST01027|HHCPA78|THIF|VDUP1;thioredoxin interacting protein;TXNIP;thioredoxin interacting protein

Definition

thioredoxin binding protein 2|thioredoxin-binding protein 2|thioredoxin-interacting protein|upregulated by 1,25-dihydroxyvitamin D-3|vitamin D3 up-regulated protein 1

Position

1q21.1

Gene type

protein-coding

Title

Abstract

Tumor suppressor VDUP1 increases p27(kip1) stability by inhibiting JAB1.

Vitamin D3 up-regulated protein 1 (VDUP1) is a stress-response gene that is up-regulated by 1,25(OH)2D3 in many cells. It has been reported that VDUP1 expression is reduced in many tumor cells and the enforced expression of VDUP1 inhibits cell proliferation by arresting cell cycle progression. Here, we found that VDUP1-/- fibroblast cells proliferated more rapidly compared with wild-type cells with reduced expression of p27(kip1), a cyclin-dependent kinase inhibitor. JAB1 is known to interact with p27(kip1) and to decrease the stability of p27(kip1). VDUP1 interacted with JAB1 and restored JAB1-induced suppression of p27(kip1) stability. In this process, VDUP1 blocked the JAB1-mediated translocation of p27(kip1) from the nucleus to the cytoplasm. In addition, VDUP1 inhibited JAB1-mediated activator protein-1 activation and cell proliferation. Taken together, these results indicate that VDUP1 is a novel factor of p27(kip1) stability via regulating JAB1.

hnRNP G elicits tumor-suppressive activity in part by upregulating the expression of Txnip.

Heterogeneous nuclear ribonuclearproteins (hnRNPs) are nucleic acid-binding proteins and have critical roles in DNA repair, telomere regulation, and transcriptional gene regulation. Previously, we showed that hnRNP G has tumor-suppressive activity in human oral squamous cell carcinoma cells. Therefore, the identification of hnRNP G target genes is important for understanding the function of hnRNP G and its tumor-suppressive activity. In this study, we identify a known tumor suppressor gene, thioredoxin-interacting protein (Txnip) gene as a novel target of hnRNP G. expression of Txnip is upregulated by wild-type (wt) hnRNP G but not by a suppression-defective mutant hnRNP G (K22R) in human squamous cell carcinoma. Wt hnRNP G binds and transactivates the Txnip promoter in vivo, whereas the K22R mutant does not. Furthermore, overexpression of Txnip alone in cancer cells leads to the inhibition of anchorage-independent growth and in vivo tumorigenicity in immunocompromised mice, suggesting a reversion of the transformation phenotype. These studies indicate that hnRNP G promotes the expression of Txnip and mediates its tumor-suppressive effect.

Thioredoxin-binding protein-2 (TBP-2/VDUP1/TXNIP) regulates T-cell sensitivity to glucocorticoid during HTLV-I-induced transformation.

Although glucocorticoid (GC) is widely used for treating hematopoietic malignancies including adult T-cell leukemia (ATL), the mechanism by which leukemic cells become resistant to GC in the clinical course remains unclear. Using a series of T-cell lines infected with human T lymphotropic virus type-I (HTLV-I), the causative virus of ATL, we have dissected the transformation from interleukin (IL)-2-dependent to -independent growth stage. The transformation associates the loss of thioredoxin-binding protein-2 (TBP-2), a tumor suppressor and regulator of lipid metabolism. Here we show that TBP-2 is responsible for GC-induced apoptosis in ATL cells. In the IL-2-dependent stage, dexamethasone induced TBP-2 expression and apoptosis, both of which were blocked by GC receptor (GR) antagonist RU486. Knockdown of TBP-2 consistently reduced the amount of GC-induced apoptosis. In IL-2-independent stage, however, expression of GR and TBP-2 was suppressed and GC failed to induce apoptosis. Forced expression of GR led the cells to mild sensitivity to GC, which was also accomplished by treatment with suberoylanilide hydroxamic acid, a TBP-2 inducer. A transfection experiment showed that TBP-2 expression induced apoptosis in IL-2-independent ATL cells. Thus, TBP-2 is likely to be one of the key molecules for GC-induced apoptosis and a potential target for treating the advanced stage of ATL.

TXNIP (VDUP-1, TBP-2): a major redox regulator commonly suppressed in cancer by epigenetic mechanisms.

TXNIP (also named as VDUP-1 or TBP-2) was originally isolated in HL60 cells treated with Vitamin D3. Subsequently, it has been identified as a major redox regulator and a tumor suppressor gene (TSG) in various solid tumors and hematological malignancies. In the present review, we will first provide an overview of TXNIP gene and protein structures, followed by a summary of the studies that have demonstrated its frequent repression in human cancers and relevant clinical significance, as well as functional characterization in animal models. We will then highlight our current knowledge of TXNIP signaling and biological functions. Next, we will discuss the evidence that clearly have demonstrated that the epigenetic silencing of TXNIP in cancer through various molecular mechanisms. The therapeutic use of small molecular inhibitors to reactivate TXNIP expression for cancer treatment will also be discussed in this review.

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