Calcium signaling
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During calcium signaling calcium ions act as second messengers in signal transduction. Second messengers are intracellular signals that mediate physiological processes. Important physiological roles for calcium signalling include muscle contraction, and the cellular motility, including the movement of flagella and cilia. Other biochemical roles of calcium include regulating enzyme activity, ion pumps, and components of the cytoskeleton.[1]
Signaling occurs when the cell is stimulated to release calcium ions (Ca2+) from intracellular stores. The resting concentration of Ca2+ in the cytoplasm is normally maintained in the range of 10 - 100 nM. To maintain this low concentration, Ca2+ is actively pumped from the cytosol and accumulated in the endoplasmic reticulum (ER), and sometimes in the mitochondria. Certain proteins of the cytoplasm and organelles act as buffers by binding Ca2+.
Specific signals can trigger a sudden increase in the cytoplasmic Ca2+ level up to 500 - 1 000 nM by opening channels in the endoplasmic reticulum or the plasma membrane. Many of Ca2+-mediated events occur when the released Ca2+ binds to and activates the regulatory protein calmodulin.
After cytoplasmic calcium has been depleted, Ca2+ can be imported from outside the cell by activation of SOC channels. This inflowing calcium current that results after stored calcium reserves have been released is referred to as Ca2+-release-activated Ca2+ current (ICRAC). The mechanisms through which ICRAC occurs are currently still under investigation. Recent studies have cited the phospholipase A2 beta,[2] nicotinic acid adenine dinucleotide phosphate (NAADP),[3] and the protein STIM 1[4] as possible mediators of ICRAC.
[edit] External links
[edit] References
- ^ Koolman, Roehm. Color Atlas of Biochemistry. Thieme, 2005 ISBN 1-58890-247-1
- ^ Csutora P, Zarayskiy V, Peter K, Monje F, Smani T, Zakharov S, Litvinov D, Bolotina VM (2006) J Biol Chem 281 :34926-34945.
- ^ Moccia F, Lim D, Nusco GA, Ercolano E, Santella L (2003) FASEB J 17: 1907-1909
- ^ Baba Y, et al. (2006) Proc Natl Acad Sci USA 103:16704-9
Key concepts: Ligand - Receptor (Transmembrane, Intracellular) - Transcription factor (General, Preinitiation complex, TFIID, TFIIH) - Cell signaling networks - Signal transduction - Adaptor protein - Apoptosis - Second messenger system (Ca2+ signaling, Lipid signaling)
Paracrine - Autocrine - Juxtacrine - Neurotransmitters - Endocrine (Neuroendocrine)
Second messengers: IP3 | NAADP | cADPR
Intracellular calcium store gates: IP3 receptor | Ryanodine receptor | putative NAADP receptor
Calcium pumps and exchangers: SERCA | Na/Ca antiport | Ca/H antiport
calcium binding protein domains: EF hand domain |C2 domain
Calcium based molecular switches, and kinases: troponin c | CaM | CaM kinases | PKC | NCS
Intracellular Calcium chelators (calcium buffers) and calcium sensors: Calbindin | S100 | pervalbumin | Calretinin | Calsequestrin | Sarcalumenin | Phospholamban | Synaptotagmins
Calcium dependent proteases: Calpain
Calcium dependent cytoskeleton remodeling proteins: Gelsolin
Cell membrane calcium channels: VDCC | TRP | NMDA receptor | AMPA receptor | 5-HT3 receptor | P2X Receptor
Calcium regulated chaperones: calreticulin | calnexin
Calcium based adhesion molecules: cadherin
parathormone | Calcitonin | calcium receptor | vitamin D
