Cyclic Adenosine Monophosphate

Information about Cyclic Adenosine Monophosphate

Cyclic adenosine monophosphate

Identifiers
CAS number	60-92-4
PubChem	6076
MeSH	Cyclic+AMP
Properties
Molecular formula	C₁₀H₁₂N₅O₆P
Molar mass	329.206
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 molecule that is important in many biological processes; it is derived from adenosine triphosphate (ATP).

Functions

cAMP is a second messenger, used for intracellular signal transduction, such as transferring the effects of hormones like glucagon and adrenaline, which cannot get through the cell membrane. Its main purpose is the activation of protein kinases; it is also used to regulate the passage of Ca²⁺ through ion channels.

cAMP synthesis and decomposition

cAMP is synthesised from ATP by adenylate cyclase which is located at the cell membranes. Adenylate cyclase is activated by the hormones glucagon and epinepherine through the activation of adenylate cyclase stimulatory G (G_s)-coupled receptors and inhibited by agonists of adenylate cyclase inhibitory G (G_i)-protein coupled receptors. Liver adenylate cyclase responds more strongly to glucagon, and muscle adenylate cyclase responds more strongly to adrenaline.

cAMP decomposition into AMP is catalyzed by the enzyme phosphodiesterase.

Protein kinase activation

Epinephrine (adrenaline) binds its receptor, that associates with an heterotrimeric G protein. The G protein associates with adenilate cyclase that converts ATP to cAMP, spreading the signal (more details...)

Cyclic AMP is involved in some protein kinases. For example, PKA (protein kinase A, also known as cAMP-dependent protein kinase) is normally inactive as a tetrameric holoenzyme, consisting of 2 catalytic and 2 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.

Glycogen decomposition regulation

cAMP controls many biological processes, including glycogen decomposition into glucose (glycogenolysis), and lipolysis.

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, adenylate cyclase, as a side effect of glucose transport into the cell. The transcription factor CRP (cAMP receptor protein) 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.

An example of cAMP's function is 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, a transcription activator protein. The protein assumes its active shape and binds to a specific site beside 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 specifically, the chemotactic movement of cells are 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

Some research has suggested that a deregulation of cAMP pathways and an aberrant activation of cAMP-controlled genes is linked to the growth of some cancers.^[1]^[2]^[3]

Role of cAMP in Prefrontal Cortex Disorders

Recent research may indicate 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, these gates open, rendering the brain cell closed to communication, thus interfering with prefrontal cortex function. This research is of interest to scientists studying the brain, especially the degradation of higher cognitive function in ADHD and aging.^[4]

References

1. ^ American Association for Cancer Research (cAMP-responsive Genes and Tumor Progression)
2. ^ American Association for Cancer Research (cAMP Dysregulation and Melonoma)
3. ^ American Association for Cancer Research (cAMP-binding Proteins' Presence in Tumors)
4. ^ ScienceDaily ::Brain Networks Strengthened By Closing Ion Channels, Research Could Lead To ADHD Treatment

External links

Additional images

cAMP represented in three ways

Adenosine triphosphate

• • [ e] Major families of biochemicals
Peptides \| Amino acids \| Nucleic acids \| Carbohydrates \| Lipids \| Terpenes \| Carotenoids \| Tetrapyrroles \| Enzyme cofactors \| Steroids \| Flavonoids \| Alkaloids \| Polyketides \| Glycosides
Analogues of nucleic acids:	Types of Nucleic Acids	Analogues of nucleic acids:
Nucleobases:	Purine (Adenine, Guanine) \| Pyrimidine (Uracil, Thymine, Cytosine)
Nucleosides:	Adenosine/Deoxyadenosine \| Guanosine/Deoxyguanosine \| Uridine \| Thymidine \| Cytidine/Deoxycytidine
Nucleotides:	monophosphates (AMP, UMP, GMP, CMP) \| diphosphates (ADP, UDP, GDP, CDP) \| triphosphates (ATP, UTP, GTP, CTP) \| cyclic (cAMP, cGMP, cADPR)
Deoxynucleotides:	monophosphates (dAMP, TMP, dGMP, dCMP) \| diphosphates (dADP, TDP, dGDP, dCDP) \| triphosphates (dATP, TTP, dGTP, dCTP)
Ribonucleic acids:	RNA \| mRNA \| piRNA \| tRNA \| rRNA \| ncRNA \| gRNA \| shRNA \| siRNA \| snRNA \| miRNA \| snoRNA
Deoxyribonucleic acids:	DNA \| mtDNA \| cDNA \| plasmid \| Cosmid \| BAC \| YAC \| HAC
Analogues of nucleic acids:	GNA \| PNA \| TNA \| Morpholino \| LNA

CAS registry numbers are unique numerical identifiers for chemical compounds, polymers, biological sequences, mixtures and alloys. They are also referred to as CAS numbers, CAS RNs or CAS #s.
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PubChem is a database of chemical molecules. The system is maintained by the National Center for Biotechnology Information (NCBI), a component of the National Library of Medicine, which is part of the United States National Institutes of Health (NIH).
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Medical Subject Headings (MeSH) is a huge controlled vocabulary (or metadata system) for the purpose of indexing journal articles and books in the life sciences. Created and updated by the United States National Library of Medicine (NLM), it is used by the MEDLINE/PubMed
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A chemical formula is a concise way of expressing information about the atoms that constitute a particular chemical compound. A chemical formula is also a short way of showing how a chemical reaction occurs.
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Molar mass, symbol M,^[1] is the mass of one mole of a substance (chemical element or chemical compound).^[2] It is a physical property which is characteristic of each pure substance.
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standard state of a material is its state at 1 bar (100 kilopascals exactly). This pressure was changed from 1 atm (101.325 kilopascals) by IUPAC in 1990.^[1] The standard state of a material can be defined at any given temperature, most commonly 25 degrees Celsius,
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Adenosine monophosphate, also known as 5'-adenylic acid and abbreviated AMP, is a nucleotide that is found in RNA. It is an ester of phosphoric acid with the nucleoside adenosine.
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molecule is defined as a sufficiently stable electrically neutral group of at least two atoms in a definite arrangement held together by strong chemical bonds.^[1]^[2] In organic chemistry and biochemistry, the term molecule
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Adenosine 5'-triphosphate (ATP) is a multifunctional nucleotide that is most important as a "molecular currency" of intracellular energy transfer. In this role, ATP transports chemical energy within cells for metabolism.
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In cell physiology, a secondary messenger system (also known as a second messenger system) is a method of cellular signalling where the signalling molecule does not enter the cell, but rather utilizes a cascade of events that transduces the signal into a cellular change.
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In biology, signal transduction refers to any process by which a cell converts one kind of signal or stimulus into another, most often involving ordered sequences of biochemical reactions inside the cell, that are carried out by enzymes, activated by second messengers resulting in
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hormone (from Greek όρμή - "to set in motion") is a chemical messenger that carries a signal from one cell (or group of cells) to another. All multicellular organisms produce hormones (including plants - see phytohormone).
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Glucagon is an important hormone involved in carbohydrate metabolism. Produced by the pancreas, it is released when the glucose level in the blood is low (hypoglycemia), causing the liver to convert stored glycogen into glucose and release it into the bloodstream.
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Epinephrine (INN) (IPA: [ˌɛpɪˈnɛfrən]) or adrenaline (European Pharmacopoeia and BAN) (IPA: [əˈdrɛnələn]
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protein kinase is a kinase enzyme that modifies other proteins by chemically adding phosphate groups to them (phosphorylation). This class of protein is further separated into subsets such as PKC alpha, PKC beta, and PKC gamma, each with specific functions.
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Calcium (IPA: /ˈkalsiəm/) is the chemical element in the periodic table that has the symbol Ca and atomic number 20. It has an atomic mass of 40.078.
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Ion channels are pore-forming proteins that help to establish and control the small voltage gradient across the plasma membrane of all living cells (see cell potential) by allowing the flow of ions down their electrochemical gradient.
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Adenylate cyclase (EC 4.6.1.1 , also known as adenylyl cyclase or AC) is a lyase enzyme.

Types

There are nine known adenylate cyclases in mammals:

ADCY1
ADCY2
ADCY3
ADCY4
ADCY5

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Epinephrine (INN) (IPA: [ˌɛpɪˈnɛfrən]) or adrenaline (European Pharmacopoeia and BAN) (IPA: [əˈdrɛnələn]
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The remainder of this article discusses the cyclic nucleotide phosphodiesterases:

The cyclic nucleotide phosphodiesterases (PDE) comprise a group of enzymes that degrade the phosphodiester bond in the second messenger molecules cAMP and cGMP.
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In cell biology, cAMP-dependent protein kinase (cAPK), also known as protein kinase A (PKA, EC 2.7.11.11 ), refers to a family of enzymes whose activity is dependent on the level of cyclic AMP (cAMP) in the cell.
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catalysis is the acceleration (increase in rate) of a chemical reaction by means of a substance called a catalyst, which is itself not consumed by the overall reaction.
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Glycogen is a polysaccharide of glucose (Glc) which functions as the primary short term energy storage in animal cells. It is made primarily by the liver and the muscles, but can also be made by the brain, uterus, and the vagina.
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Glucose (Glc), a monosaccharide (or simple sugar), is an important carbohydrate in biology. The living cell uses it as a source of energy and metabolic intermediate.
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Lipolysis is the breakdown of fat stored in fat cells. During this process, free fatty acids are released into the bloodstream and circulate throughout the body. Ketones are produced, and are found in large quantities in ketosis (an adaptive metabolic state that occurs when
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Bacteria

Phyla

Actinobacteria
Aquificae
Chlamydiae
Bacteroidetes/Chlorobi
Chloroflexi
Chrysiogenetes
Cyanobacteria
Deferribacteres
Deinococcus-Thermus
Dictyoglomi
Fibrobacteres/Acidobacteria
Firmicutes
Fusobacteria
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Enzymes are proteins that catalyze (i.e. accelerate) chemical reactions.^[1] In enzymatic reactions, the molecules at the beginning of the process are called substrates, and the enzyme converts them into different molecules, the products.
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The lac operon is an operon required for the transport and metabolism of lactose in Escherichia coli and some other enteric bacteria. It consists of three adjacent structural genes, a promoter, a terminator, and an operator.
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