Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.4.21.5 (
thrombin
)
33,306
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Thrombin stimulates the expression of multiple genes in endothelial cells (ECs), but the trans-acting factors responsible for this induction remain undefined. We have previously described a
thrombin
-inducible nuclear factor (TINF), which binds to an element in the PDGF B promoter and is responsible for the
thrombin
inducibility of this gene. Inactive cytoplasmic TINF is rapidly activated and translocated to nuclei of ECs upon stimulation with
thrombin
. We have now purified TINF from
thrombin
-treated ECs. Amino acid sequencing revealed it to be a member of the Y-box protein family, and the sole Y-box protein-encoding cDNA we detected in human or bovine ECs corresponded to
DNA-binding protein B
(dbpB). DbpB translocated to the nucleus after
thrombin
stimulation of ECs as shown by FACS analysis of nuclei from ECs expressing GFP-dbpB fusion proteins. During
thrombin
activation, dbpB was found to be cleaved, yielding a 30-kDa NH(2)-terminal fragment that recognized the
thrombin
-response element sequence, but not the Y-box consensus sequence. Preincubation of ECs with protein tyrosine phosphatase inhibitors completely blocked dbpB activation by
thrombin
and blocked induction of endogenous PDGF B-chain mRNA and promoter activation by
thrombin
. Y-box proteins are known to act constitutively to regulate the expression of several genes. Activation of this class of transcription factors in response to
thrombin
or any other agonist represents a novel signaling pathway.
...
PMID:Thrombin activates a Y box-binding protein (DNA-binding protein B) in endothelial cells. 1095 33
We have recently demonstrated that
thrombin
induces expression of the platelet-derived growth factor B-chain gene in endothelial cells (EC) through activation of the Y-box binding protein
DNA-binding protein B
(dbpB). We now present evidence that dbpB is activated by a novel mechanism: proteolytic cleavage leading to release from mRNA, nuclear translocation, and induction of
thrombin
-responsive genes. Cytosolic, full-length dbpB (50 kDa) was rapidly cleaved to a 30-kDa species upon
thrombin
stimulation of EC. This truncated, "active" dbpB exhibited nuclear localization and binding affinity for the
thrombin
response element sequence, which is distinct from the Y-box sequence. Oligo(dT) affinity chromatography revealed that cytosolic dbpB from control EC, but not active dbpB from
thrombin
-treated EC, was bound to mRNA. Latent dbpB immunoprecipitated from cytosolic extracts of control EC was activated by ribonuclease treatment. Furthermore, when EC cytosolic extracts were subjected to Nycodenz gradient centrifugation, latent dbpB fractionated with mRNA, whereas active dbpB fractionated with free proteins. The cytosolic retention domain of dbpB, which we localized to the region 247-267, was proteolytically cleaved during its activation. In contrast to full-length dbpB, truncated dbpB stimulated platelet-derived growth factor B-chain and tissue factor promoter activity by over 5-fold when transiently cotransfected with reporter constructs. These results suggest a novel mode of transcription factor activation in which an agonist causes release from mRNA of a latent transcription factor leading to its transport to the nucleus and its regulation of target gene expression.
...
PMID:Thrombin induces the release of the Y-box protein dbpB from mRNA: a mechanism of transcriptional activation. 1139 Sep 77
Molecules differentially expressed or overexpressed by malignant cells can serve in detecting and tracking of tumor. Additionally, they potentially can be applied in histologic-specific antitumor therapy. Few breast cancer-associated candidate molecules have been identified. Here we describe the use of combinatorial immunoglobulin [antigen-binding fragment of immunoglobulin molecule (Fab) fragment] phage libraries generated from patients with breast carcinoma to identify cancer-associated gene expression. The libraries were enriched for tumor-binding Fab by 3 logs and yielded a group of antibodies against
DNA-binding protein B
(DbpB), a 35-kDa
thrombin
-inducible nuclear factor and member of the Y-box family of proteins, which are known to act both negatively in selective gene suppression and positively as promoters of gene transcription. Sequencing of the anti-DbpB showed a degree of heterogeneity and bp substitutions suggesting that the Fabs selected from the combinatorial library represented a varied anti-DbpB immune response and did not simply arise from in vitro amplification by PCR of a single or limited numbers of immunoglobulin genes. Sequencing of the DbpB molecule expressed in malignant breast cancer showed no evidence of tumor-specific mutations. Evaluation of levels of DbpB gene product expression however showed the molecule to be constitutively expressed in normal nonmalignant breast tissues but to have consistently differentially higher expression in breast cancer. Immunohistological staining revealed DbpB to be present both intracellularly and on the cell surface, which suggests it may be a means whereby malignant cells repair and replicate DNA in a selectively advantageous manner as compared with nonmalignant cells. DbpB expression in breast cancer may advance the basic understanding of the role of Y-box binding proteins as regulatory agents, and in defining malignant cell phenotypes. In addition, DbpB and the antibodies generated against it may have direct application in tumor detection and in molecule-targeted immunotherapy.
...
PMID:Overexpression of DNA-binding protein B gene product in breast cancer as detected by in vitro-generated combinatorial human immunoglobulin libraries. 1220 50
