Creb Binding Protein

Information about Creb Binding Protein

E1A binding protein p300
Identifiers
Symbol	EP300
Alt. Symbols	(p300)
Entrez	2033
HUGO	3373
OMIM	602700
RefSeq	NM_001429
UniProt	Q09472
Other data
EC number	2.3.1.48
Locus	Chr. 22 q13.2

CREB binding protein (Rubinstein-Taybi syndrome)
Identifiers
Symbol	CREBBP
Alt. Symbols	(CBP, RSTS)
Entrez	1387
HUGO	2348
OMIM	600140
RefSeq	NM_004380
UniProt	Q92793
Other data
EC number	2.3.1.48
Locus	Chr. 16 p13.3

p300 (also EP300 or E1A binding protein p300) and CBP (also CREBBP or CREB binding protein) are two closely related transcriptional co-activating proteins (or coactivators). p300 and CBP interact with numerous transcription factors and act to increase the expression of their target genes.^[1]^[2]

Protein structure

p300 and CBP have similar structures. Both contain five protein interaction domains, the nuclear receptor interaction domain (RID), the CREB and MYB interaction domain (KIX), the cysteine/histidine regions (CH1 and CH3) and the interferon response binding domain (IBiD). In addition p300 and CBP each contain a protein or histone acetyltransferase (PAT/HAT) domain and a bromodomain that binds acetylated lysines and a PHD finger motif with unknown function.^[3]

Conserved domains

p300 and CBP share several conserved domains.

Impact on gene expression

p300 and CBP are thought to increase gene expression in three ways:

1) by relaxing the chromatin structure at the gene promoter through their intrinsic histone acetyltransferase (HAT) activity.
2) recruiting the basal transcriptional machinery including RNA polymerase II to the promoter.
3) acting as adaptor molecules.^[4]

Function in G protein signaling

An example of a process involving p300 and CBP is G protein signaling. Some G proteins stimulate adenylate cyclase that results in elevation of cAMP. cAMP stimulates PKA, which consists of four subunits, two regulatory and two catalytic. Binding of cAMP to the regulatory subunits causes release of the catalytic subunits. These subunits can then enter the nucleus to interact with transcriptional factors, thus affecting gene transcription. The transcription factor CREB, which interacts with a DNA sequence called a cAMP response element (or CRE), is phosphorylated by PKA on a serine in the KID domain. This modification promotes the interaction of the KID domain of CREB with the KIX domain of CBP or p300 and enhances transcription of CREB target genes, including genes that aid gluconeogenesis. This pathway is initiated by adrenaline binding to the cell of interest.^[5]

Clinical significance

Mutations in CBP, and to a lesser extent p300, are associated with Rubinstein-Taybi Syndrome, which is characterized by severe mental retardation. These mutations result in the loss of one copy of the gene in each cell, which reduces the amount of CBP or p300 protein by half. Some mutations lead to the production of a very short, nonfunctional version of the CBP or p300 protein, while others prevent one copy of the gene from making any protein at all. Although researchers do not know how a reduction in the amount of CBP or p300 protein leads to the specific features of Rubinstein-Taybi syndrome, it is clear that the loss of one copy of the CBP or p300 gene disrupts normal development. Defects in CBP HAT activity appears to cause problems in long-term memory formation.^[6] CBP and p300 have also been found to be involved in multiple rare chromosomal translocations that are associated with acute myeloid leukemia.<ref name="pmid10887150" /> For example, researchers have found a translocation between chromosomes 8 and 22 (in the region containing the p300 gene) in several people with a cancer of blood cells called acute myeloid leukemia (AML). Another translocation, involving chromosomes 11 and 22, has been found in a small number of people who have undergone cancer treatment. This chromosomal change is associated with the development of AML following chemotherapy for other forms of cancer. Mutations in the p300 gene have been identified in several other types of cancer. These mutations are somatic, which means they are acquired during a person's lifetime and are present only in certain cells. Somatic mutations in the p300 gene have been found in a small number of solid tumors, including cancers of the colon and rectum, stomach, breast and pancreas. Studies suggest that p300 mutations may also play a role in the development of some prostate cancers, and could help predict whether these tumors will increase in size or spread to other parts of the body. In cancer cells, p300 mutations prevent the gene from producing any functional protein. Without p300, cells cannot effectively restrain growth and division, which can allow cancerous tumors to form.

Mouse models

CBP and p300 are critical for normal embryonic development, as mice completely lacking either CBP or p300 protein, die at an early embryonic stage.^[7]^[8] In addition, mice which lack one functional copy (allele) of both the CBP and p300 genes (i.e. are heterozygous for both CBP and p300) and thus have half of the normal amount of both CBP and p300, also die early in embryogenesis.^[7] This indicates that the total amount of CBP and p300 protein is critical for embryo development. Interestingly, data suggest that some cell types can tolerate loss of CBP or p300 better than the whole organism can. Mouse B cells or T cells lacking either CBP and p300 protein develop fairly normally, but B or T cells that lack both CBP and p300 fail to develop in vivo.^[1]^[11] Together, the data indicates that while individual cell types require different amounts of CBP and p300 to develop or survive and that some cell types are more tolerant of loss of CBP or p300 than the whole organism; it appears that many, if not all cell types may require at least some p300 or CBP to develop.

References

1. ^ Kasper LH, Fukuyama T, Biesen MA, Boussouar F, Tong C, de Pauw A, Murray PJ, van Deursen JM, Brindle PK (2006). "Conditional knockout mice reveal distinct functions for the global transcriptional coactivators CBP and p300 in T-cell development". Mol. Cell. Biol. 26 (3): 789–809. DOI:10.1128/MCB.26.3.789-809.2006. PMID 16428436.
2. ^ Vo N, Goodman RH (2001). "CREB-binding protein and p300 in transcriptional regulation". J. Biol. Chem. 276 (17): 13505–8. DOI:10.1074/jbc.R000025200. PMID 11279224.
3. ^ Spiegelman BM, Heinrich R (2004). "Biological control through regulated transcriptional coactivators". Cell 119 (2): 157–67. DOI:10.1016/j.cell.2004.09.037. PMID 15479634.
4. ^ Goodman RH, Smolik S (2000). "CBP/p300 in cell growth, transformation, and development". Genes Dev. 14 (13): 1553–77. DOI:10.1101/gad.14.13.1553. PMID 10887150.
5. ^ Mayr B, Montminy M (2001). "Transcriptional regulation by the phosphorylation-dependent factor CREB". Nat. Rev. Mol. Cell Biol. 2 (8): 599–609. DOI:10.1038/35085068. PMID 11483993.
6. ^ Korzus E, Rosenfeld MG, Mayford M (2004). "CBP histone acetyltransferase activity is a critical component of memory consolidation". Neuron 42 (6): 961–72. DOI:10.1016/j.neuron.2004.06.002. PMID 15207240.
7. ^ Yao TP, Oh SP, Fuchs M, Zhou ND, Ch'ng LE, Newsome D, Bronson RT, Li E, Livingston DM, Eckner R (1998). "Gene dosage-dependent embryonic development and proliferation defects in mice lacking the transcriptional integrator p300". Cell 93 (3): 361–72. DOI:10.1016/S0092-8674(00)81165-4. PMID 9590171.
8. ^ Tanaka Y, Naruse I, Hongo T, Xu M, Nakahata T, Maekawa T, Ishii S (2000). "Extensive brain hemorrhage and embryonic lethality in a mouse null mutant of CREB-binding protein". Mech. Dev. 95 (1-2): 133–45. DOI:10.1016/S0925-4773(00)00360-9. PMID 10906457.
9. ^ Yao TP, Oh SP, Fuchs M, Zhou ND, Ch'ng LE, Newsome D, Bronson RT, Li E, Livingston DM, Eckner R (1998). "Gene dosage-dependent embryonic development and proliferation defects in mice lacking the transcriptional integrator p300". Cell 93 (3): 361–72. DOI:10.1016/S0092-8674(00)81165-4. PMID 9590171.
10. ^ Kasper LH, Fukuyama T, Biesen MA, Boussouar F, Tong C, de Pauw A, Murray PJ, van Deursen JM, Brindle PK (2006). "Conditional knockout mice reveal distinct functions for the global transcriptional coactivators CBP and p300 in T-cell development". Mol. Cell. Biol. 26 (3): 789–809. DOI:10.1128/MCB.26.3.789-809.2006. PMID 16428436.
11. ^ Xu W, Fukuyama T, Ney PA, Wang D, Rehg J, Boyd K, van Deursen JM, Brindle PK (2006). "Global transcriptional coactivators CREB-binding protein and p300 are highly essential collectively but not individually in peripheral B cells". Blood 107 (11): 4407–16. DOI:10.1182/blood-2005-08-3263. PMID 16424387.

External links

MeSH p300-CBP+Transcription+Factors

• • [ e] Transcription coregulators
Coactivators	CBP, NCOA1, NCOA2, NCOA3
Corepressors	NCOR1, NCOR2 (SMRT)
ATP-dependent remodeling factors	Chromatin Structure Remodeling (RSC) Complex, SWI/SNF

• • [ e] Transferases: acyltransferases (EC 2.3)
2.3.1: other than amino-acyl groups (mostly acetyltransferases)	N-Acetylglutamate synthase - Choline acetyltransferase - Acetyl-Coenzyme A acetyltransferase - Dihydrolipoyl transacetylase - Acetyl-CoA C-acyltransferase - Beta-galactoside transacetylase - Carnitine O-palmitoyltransferase (CPT1, CPT2) - Acyltransferase like 2 - Chloramphenicol acetyltransferase - Aminolevulinic acid synthase - Beta-ketoacyl-ACP synthase - Glyceronephosphate O-acyltransferase - Lecithin-cholesterol acyltransferase - Histone acetyltransferase (P300/CBP) - Serotonin N-acetyl transferase
2.3.2 - Aminoacyltransferases	Gamma glutamyl transpeptidase - Peptidyl transferase - Transglutaminase (Tissue transglutaminase, Keratinocyte transglutaminase, Factor XIII)
2.3.3 - converted into alkyl on transfer	Citrate synthase - ATP citrate lyase - HMG-CoA synthase

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A coactivator is a protein that increases gene expression by binding to an activator (or transcription factor) which contains a DNA binding domain. The coactivator is unable to bind DNA by itself.
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A gene is a locatable region of genomic sequence, corresponding to a unit of inheritance, which is associated with regulatory regions, transcribed regions and/or other functional sequence regions.
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In the field of molecular biology, nuclear receptors are a class of proteins found within the interior of cells that are responsible for sensing the presence of hormones and certain other molecules.
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CREB (cAMP response element-binding) proteins are transcription factors which bind to certain sequences called cAMP response elements (CRE) in DNA and thereby increase or decrease the transcription of certain genes.
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Cysteine (abbreviated as Cys or C)^[1] is an α-amino acid with the chemical formula HO₂CCH(NH₂)CH₂SH. It is not an essential amino acid, which means that humans can synthesize it. Its codons are UGU and UGC.
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Histone acetyltransferases (HAT) are enzymes that acetylate conserved lysine amino acids on histone proteins by transferring an acetyl group from acetyl CoA to lysine to form ε-N-acetyl lysine.

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bromodomain is a protein domain that recognizes acetylated lysine residues on the N-terminal tails of histones. This recognition is often a prerequisite for protein-histone association and chromatin remodeling.
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Introduction

The PHD finger (Plant Homeo Domain) was discovered in 1993 as a Cys₄-His-Cys₃ motif in the homeodomain protein HAT3 in Arabidopsis thaliana.
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P300 may mean:

P300, a neural evoked potential component of the electroencephalogram (EEG).
p300 (or EP300), a transcriptional coactivator

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CBP may mean:

U.S. Customs and Border Protection
Certified Building Professional, a designation used by trained swimming pool builders
CREB binding protein, a transcriptional coactivator

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For vocabulary, see Glossary of gene expression terms

Gene expression is the process by which the inheritable information in a gene, such as the DNA sequence, is made into a functional gene product, such as protein or RNA.
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promoter is a regulatory region of DNA located upstream (towards the 5' region) of a gene, providing a control point for regulated gene transcription.

Overview

The promoter contains specific DNA sequences that are recognized by proteins known as transcription factors.
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RNA polymerase II (also called RNAP II and Pol II) is an enzyme found in eukaryotic cells. It catalyzes the transcription of DNA to synthesize precursors of mRNA and most snRNA and microRNA.
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