scholarly journals Small molecule nAS-E targeting cAMP response element binding protein (CREB) and CREB-binding protein interaction inhibits breast cancer bone metastasis

2018 ◽  
Vol 23 (2) ◽  
pp. 1224-1234 ◽  
Author(s):  
Min Jiang ◽  
Yufei Yan ◽  
Kai Yang ◽  
Zhuochao Liu ◽  
Jin Qi ◽  
...  
Keyword(s):  
Breast Cancer ◽  
Bone Metastasis ◽  
Small Molecule ◽  
Protein Interaction ◽  
Binding Protein ◽  
Camp Response Element Binding ◽  
Creb Binding Protein ◽  
Camp Response Element ◽  
Element Binding Protein ◽  
Breast Cancer Bone Metastasis

scholarly journals p300/cAMP-response-element-binding-protein ('CREB')-binding protein (CBP) modulates co-operation between myocyte enhancer factor 2A (MEF2A) and thyroid hormone receptor-retinoid X receptor

2003 ◽  
Vol 369 (3) ◽  
pp. 477-484 ◽  
Author(s):  
Antonio De LUCA ◽  
Anna SEVERINO ◽  
Paola De PAOLIS ◽  
Giuliano COTTONE ◽  
Luca De LUCA ◽  
...  
Keyword(s):  
Thyroid Hormone ◽  
Binding Protein ◽  
Camp Response Element Binding ◽  
Creb Binding Protein ◽  
Camp Response Element ◽  
Response Element ◽  
Adenovirus E1a ◽  
Element Binding Protein ◽  
Enhancer Factor

Thyroid hormone receptors (TRs) and members of the myocyte enhancer factor 2 (MEF2) family are involved in the regulation of muscle-specific gene expression during myogenesis. Physical interaction between these two factors is required to synergistically activate gene transcription. p300/cAMP-response-element-binding-protein ('CREB')-binding protein (CBP) interacting with transcription factors is able to increase their activity on target gene promoters. We investigated the role of p300 in regulating the TR—MEF2A complex. To this end, we mapped the regions of these proteins involved in physical interactions and we evaluated the expression of a chloramphenicol acetyltransferase (CAT) reporter gene in U2OS cells under control of the α-myosin heavy chain promoter containing the thyroid hormone response element (TRE). Our results suggested a role of p300/CBP in mediating the transactivation effects of the TR—retenoid X receptor (RxR)—MEF2A complex. Our findings showed that the same C-terminal portion of p300 binds the N-terminal domains of both TR and MEF2A, and our in vivo studies demonstrated that TR, MEF2A and p300 form a ternary complex. Moreover, by the use of CAT assays, we demonstrated that adenovirus E1A inhibits activation of transcription by TR—RxR—MEF2A—p300 but not by TR—RxR—MEF2A. Our data suggested that p300 can bind and modulate the activity of TR—RxR—MEF2A at TRE. In addition, it is speculated that p300 might modulate the activity of the TR—RxR—MEF2A complex by recruiting a hypothetical endogenous inhibitor which may act like adenovirus E1A.

scholarly journals Transcriptional regulation of the human glycoprotein hormone common α subunit gene by cAMP-response-element-binding protein (CREB)-binding protein (CBP)/p300 and p53

2002 ◽  
Vol 368 (1) ◽  
pp. 191-201 ◽  
Author(s):  
Xian ZHANG ◽  
Roger J.A. GRAND ◽  
Christopher J. McCABE ◽  
Jayne A. FRANKLYN ◽  
Phillip H. GALLIMORE ◽  
...  
Keyword(s):  
Binding Capacity ◽  
Binding Protein ◽  
Camp Response Element Binding ◽  
Creb Binding Protein ◽  
Camp Response Element ◽  
Glycoprotein Hormone ◽  
Response Element ◽  
Α Subunit ◽  
P53 Expression ◽  
Element Binding Protein

We have investigated the functional interactions between adenovirus early region 1A (AdE1A) protein, the co-activators cAMP-response-element-binding protein (CREB)-binding protein (CBP)/p300 and SUG1, and the transcriptional repressor retinoblastoma (Rb) in mediating T3-dependent repression. Utilizing the human glycoprotein hormone common α-subunit (α-subunit) promoter and AdE1A mutants with selective binding capacity to these molecules we have determined an essential role for CBP/p300. In normal circumstances, wild-type 12S AdE1A inhibited α-subunit activity. In contrast, adenovirus mutants that retain both the SUG1- and Rb-binding sites, but lack the CBP/p300-binding site, were unable to repress promoter activity. We have also identified a role for the tumour-suppressor gene product p53 in regulation of the α-subunit promoter. Akin to 12S AdE1A, exogenous p53 expression repressed α-subunit activity. This function resided in the ability of p53 to interact with CBP/p300; an N-terminal mutant incapable of interacting with CBP/p300 did not inhibit α-subunit activity. Stabilization of endogenous p53 by UV irradiation also correlated positively with reduced α-subunit activity. Intriguingly, T3 stimulated endogenous p53 transcriptional activity, implicating p53 in T3-dependent signalling pathways. These data indicate that CBP/p300 and p53 are key regulators of α-subunit activity.

scholarly journals The Src Kinase Pathway Promotes Tamoxifen Agonist Action in Ishikawa Endometrial Cells through Phosphorylation-Dependent Stabilization of Estrogen Receptor α Promoter Interaction and Elevated Steroid Receptor Coactivator 1 Activity

2005 ◽  
Vol 19 (3) ◽  
pp. 732-748 ◽  
Author(s):  
Yatrik M. Shah ◽  
Brian G. Rowan
Keyword(s):  
Breast Cancer ◽  
Estrogen Receptor ◽  
Binding Protein ◽  
Src Kinase ◽  
Camp Response Element Binding ◽  
Camp Response Element ◽  
Steroid Receptor Coactivator ◽  
Agonist Action ◽  
Element Binding Protein ◽  
Promoter Interaction

Abstract Tamoxifen is the most widely used selective estrogen receptor modulator for breast cancer in clinical use today. However, tamoxifen agonist action in endometrium remains a major hurdle for tamoxifen therapy. Activation of the nonreceptor tyrosine kinase src promotes tamoxifen agonist action, although the mechanisms remain unclear. To examine these mechanisms, the effect of src kinase on estrogen and tamoxifen signaling in tamoxifen-resistant Ishikawa endometrial adenocarcinoma cells was assessed. A novel connection was identified between src kinase and serine 167 phosphorylation in estrogen receptor (ER)-α via activation of AKT kinase. Serine 167 phosphorylation stabilized ER interaction with endogenous ER-dependent promoters. Src kinase exhibited the additional function of potentiating the transcriptional activity of Gal-steroid receptor coactivator 1 (SRC-1) and Gal-cAMP response element binding protein-binding protein in endometrial cancer cells while having no effect on Gal-p300-associated factor and Gal fusions of the other p160 coactivators glucocorticoid-interacting protein 1 (transcriptional intermediary factor 2/nuclear coactivator-2/SRC-2) and amplified in breast cancer 1 (receptor-associated coactivator 3/activator of transcription of nuclear receptor/SRC-3). Src effects on ER phosphorylation and SRC-1 activity both contributed to tamoxifen agonist action on ER-dependent gene expression in Ishikawa cells. Taken together, these data demonstrate that src kinase potentiates tamoxifen agonist action through serine 167-dependent stabilization of ER promoter interaction and through elevation of SRC-1 and cAMP response element binding protein-binding protein coactivation of ER.

Role of catecholamines and cyclic AMP systems in phencyclidine and morphine dependence. Study of mutant mice

2000 ◽  
Vol 72 (6) ◽  
pp. 1035-1044
Author(s):  
Toshitaka Nabeshima ◽  
Takayoshi Mamiya ◽  
Yukihiro Noda
Keyword(s):  
Binding Protein ◽  
Cyclic Adenosine Monophosphate ◽  
Adenosine Monophosphate ◽  
Camp Response Element Binding ◽  
Place Preference ◽  
Morphine Dependence ◽  
Creb Binding Protein ◽  
Wild Type ◽  
Camp Response Element ◽  
Element Binding Protein

To investigate an involvement of catecholamines and/or the cyclic adenosine monophosphate (cAMP) systems in the development of drug dependence, we examined whether phencyclidine (PCP) and morphine dependence were developed in tyrosine hydroxylase (TH) heterozygous (TH+/-) and cAMP response element binding protein (CREB) binding protein (CBP) heterozygous (CBP+/-) mice. PCP (8 mg/kg) induced place preference in wild-type mice pretreated with PCP (10 mg/kg/day for 28 days) and increased the level of cAMP in the striatum, but not in the thalamus/hypothalamus. In TH+/- and CBP+/- mice, however, we could not find PCP-induced place preference. The increased level of cAMP in the striatum was observed in CBP+/-, but not TH+/- mice. When wild-type mice pretreated with morphine (10 mg/kg) twice a day for 5 days were challenged with naloxone (5 mg/kg), they showed increased jumping, rearing, and forepaw tremor counts as a sign of withdrawal and an increased level of cAMP in the thalamus/hypothalamus, but not in the striatum. In TH+/- and CBP+/- mice, however, jumping and forepaw tremor counts were decreased compared to in wild-type mice. An increase in the level of cAMP in the thalamus/hypothalamus in CBP+/-, but not in TH+/- mice was observed. These results suggest that catecholamines and CBP are involved in the development of PCP and morphine dependence, and that changes in catecholaminergic and/or cAMP systems induced by repeated PCP and morphine treatments play an important role in the addiction to PCP and morphine.

scholarly journals Update and Potential Opportunities in CBP [Cyclic Adenosine Monophosphate (cAMP) Response Element-Binding Protein (CREB)-Binding Protein] Research Using Computational Techniques

2021 ◽  
Vol 40 (1) ◽  
pp. 19-27
Author(s):  
Oluwayimika E. Akinsiku ◽  
Opeyemi S. Soremekun ◽  
Mahmoud E. S. Soliman
Keyword(s):  
Inflammatory Diseases ◽  
Binding Protein ◽  
Cyclic Adenosine Monophosphate ◽  
Adenosine Monophosphate ◽  
Camp Response Element Binding ◽  
Computational Techniques ◽  
Creb Binding Protein ◽  
Camp Response Element ◽  
Response Element ◽  
Element Binding Protein

AbstractCBP [cyclic adenosine monophosphate (cAMP) response element-binding protein (CREB)-binding protein] is one of the most researched proteins for its therapeutic function. Several studies have identified its vast functions and interactions with other transcription factors to initiate cellular signals of survival. In cancer and other diseases such as Alzheimer’s, Rubinstein-taybi syndrome, and inflammatory diseases, CBP has been implicated and hence an attractive target in drug design and development. In this review, we explore the various computational techniques that have been used in CBP research, furthermore we identified computational gaps that could be explored to facilitate the development of highly therapeutic CBP inhibitors.

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