- Cyclic adenosine monophosphate
Cyclic adenosine monophosphate Identifiers CAS number PubChem ChemSpider UNII DrugBank KEGG MeSH ChEBI ChEMBL IUPHAR ligand Jmol-3D images Image 1 Properties Molecular formula C10H12N5O6P Molar mass 329.206 (what is: /?)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Cyclic adenosine monophosphate (cAMP, cyclic AMP or 3'-5'-cyclic adenosine monophosphate) is a second messenger important in many biological processes. cAMP is derived from adenosine triphosphate (ATP) and used for intracellular signal transduction in many different organisms, conveying the cAMP-dependent pathway.
Earl Sutherland of Vanderbilt University won a Nobel Prize in Physiology or Medicine in 1971 "for his discoveries concerning the mechanisms of the action of hormones," especially epinephrine, via second messengers (such as cyclic adenosine monophosphate, cyclic AMP).
Synthesis and decomposition
cAMP is synthesised from ATP by adenylyl cyclase located on the inner side of the plasma membrane. Adenylyl cyclase is activated by a range of signaling molecules through the activation of adenylyl cyclase stimulatory G (Gs)-protein-coupled receptors and inhibited by agonists of adenylyl cyclase inhibitory G (Gi)-protein-coupled receptors. Liver adenylyl cyclase responds more strongly to glucagon, and muscle adenylyl cyclase responds more strongly to adrenaline.
cAMP is a second messenger, used for intracellular signal transduction, such as transferring the effects of hormones like glucagon and adrenaline, which cannot pass through the cell membrane. It is involved in the activation of protein kinases and regulates the effects of adrenaline and glucagon. It also regulates the passage of Ca2+ through ion channels.
In humans, cyclic AMP works by activating protein kinase A (PKA, cAMP-dependent protein kinase). PKA is normally inactive as a tetrameric holoenzyme, consisting of two catalytic and two regulatory units (C2R2), with the regulatory units blocking the catalytic centers of the catalytic units. Cyclic AMP binds to specific locations on the regulatory units of the protein kinase, and causes dissociation between the regulatory and catalytic subunits, thus activating the catalytic units and enabling them to phosphorylate substrate proteins.
The active subunits catalyze the transfer of phosphate from ATP to specific serine or threonine residues of protein substrates. The phosphorylated proteins may act directly on the cell's ion channels, or may become activated or inhibited enzymes. Protein kinase A can also phosphorylate specific proteins that bind to promoter regions of DNA, causing increased expression of specific genes. Not all protein kinases respond to cAMP. Several classes of protein kinases, including protein kinase C, are not cAMP-dependent.
Further effects mainly depend on cAMP-dependent protein kinase, which vary based on the type of cell.
Still, there are some minor PKA-independent functions of cAMP, e.g., activation of calcium channels, providing a minor pathway by which growth hormone-releasing hormone causes a release of growth hormone.
However, the view that the majority of the effects of cAMP are controlled by PKA is an outdated one. In 1998 a family of cAMP-sensitive proteins with guanine exchange factor (GEF) activity was discovered. These are termed Exchange proteins activated by cAMP (Epac) and the family comprises Epac1 and Epac2. The mechanism of activation is similar to that of PKA: the GEF domain is usually masked by the N-terminal region containing the cAMP binding domain. When cAMP binds, the domain dissociates and exposes the now-active GEF domain, allowing Epac to activate small Ras-like GTPase proteins, such as Rap1.
Role of cAMP in bacteria
In bacteria, the level of cAMP varies depending on the medium used for growth. In particular, cAMP is low when glucose is the carbon source. This occurs through inhibition of the cAMP-producing enzyme, adenylyl cyclase, as a side-effect of glucose transport into the cell. The transcription factor cAMP receptor protein (CRP) also called CAP (catabolite gene activator protein) forms a complex with cAMP and thereby is activated to bind to DNA. CRP-cAMP increases expression of a large number of genes, including some encoding enzymes that can supply energy independent of glucose.
cAMP, for example, is involved in the positive regulation of the lac operon. In an environment of a low glucose concentration, cAMP accumulates and binds to the allosteric site on CRP (cAMP receptor protein), a transcription activator protein. The protein assumes its active shape and binds to a specific site upstream of the lac promoter, making it easier for RNA polymerase to bind to the adjacent promoter to start transcription of the lac operon, increasing the rate of lac operon transcription. With a high glucose concentration, the cAMP concentration decreases, and the CRP disengages from the lac operon.
Role of cAMP in some slime moulds
In the species Dictyostelium discoideum, the chemotactic movement of cells is organized by periodic waves of cAMP that propagate through the cell. The waves are the result of a regulated production and secretion of extracellular cAMP and a spontaneous biological oscillator that initiates the waves at centers of territories.
Role of cAMP in human carcinoma
Role of cAMP in prefrontal cortex disorders
Recent research suggests that cAMP affects the function of higher-order thinking in the prefrontal cortex through its regulation of ion channels called hyperpolarization-activated cyclic nucleotide-gated channels (HCN). When cAMP stimulates the HCN, the channels open, closing the brain cell to communication and thus interfering with the function of the prefrontal cortex. This research, especially the cognitive deficits in age-related illnesses and ADHD, is of interest to researchers studying the brain.
- Cyclic guanosine monophosphate (cGMP)
- 8-Bromoadenosine 3',5'-cyclic monophosphate (8-Br-cAMP)
- Acrasin specific to chemotactic use in Dictyostelium discoideum.
- phosphodiesterase 4 (PDE 4) which degrades cAMP
- ^ GeneGlobe -> GHRH Signaling Retrieved on May 31, 2009
- ^ American Association for Cancer Research (cAMP-responsive Genes and Tumor Progression)
- ^ American Association for Cancer Research (cAMP Dysregulation and Melonoma)
- ^ American Association for Cancer Research (cAMP-binding Proteins' Presence in Tumors)
- ^ ScienceDaily ::Brain Networks Strengthened By Closing Ion Channels, Research Could Lead To ADHD Treatment
Nucleic acid constituents Nucleobase Nucleoside Nucleotide
Nucleoside diphosphate Nucleoside triphosphate
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Look at other dictionaries:
cyclic adenosine monophosphate — n CYCLIC AMP * * * (3‵,5‵ AMP) (cAMP) (cyclic AMP) a cyclic nucleotide, adenosine 3′,5′ cyclic monophosphate, that serves as an intracellular and, in some cases, extracellular â€œsecond messengerâ€ mediating the action of … Medical dictionary
cyclic adenosine monophosphate — cyclic adenosine monophosphate. = cyclic AMP (см.). (Источник: «Англо русский толковый словарь генетических терминов». Арефьев В.А., Лисовенко Л.А., Москва: Изд во ВНИРО, 1995 г.) … Молекулярная биология и генетика. Толковый словарь.
cyclic adenosine monophosphate — cyclic adenosine monophosphate. См. циклический аденозинмонофосфат. (Источник: «Англо русский толковый словарь генетических терминов». Арефьев В.А., Лисовенко Л.А., Москва: Изд во ВНИРО, 1995 г.) … Молекулярная биология и генетика. Толковый словарь.
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cyclic guanosine monophosphate — n CYCLIC GMP * * * a cyclic nucleotide, guanosine 3′,5′ cyclic monophosphate, an intracellular â€œsecond messengerâ€ similar in action to cyclic adenosine monophosphate (q.v.); the two cyclic nucleotides activate different protein… … Medical dictionary
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