- SK3
protein
Name=potassium intermediate/small conductance calcium-activated channel, subfamily N, member 3
caption=
width=
HGNCid=6292
Symbol=KCNN3
AltSymbols=KCa2.3, hSK3, SKCA3
EntrezGene=3782
OMIM=602983
RefSeq=NM_002249
UniProt=Q9UGI6
PDB=
ECnumber=
Chromosome=1
Arm=q
Band=21.3
LocusSupplementaryData=SK3 is a small-conductance
calcium-activated potassium channel partly responsible for thecalcium -dependentafterhyperpolarisation current (IAHP). It belongs to a family of channels known as small-conductance potassium channels, which consists of three members – SK1, SK2 and SK3 (KCNN1, 2 and 3 respectively), which share a 60-70%sequence identity (Chen et al 2004). Small conductance channels are responsible for the medium and possibly the slow components of the IAHP.tructure
SK3 contains 6
transmembrane domain s, a pore-forming region, and intracellular N- and C- termini. (Kohler et al 1996, Chen et al 2004), and is readily blocked byapamin . The gene for SK3 is located onchromosome 1q21.Expression
SK3 is found in almost every tissue in the human body, with exceptions being the
pancreas ,placenta ,adipose tissue ,liver ,prostate andskin (Chen et al, 2004). SK3 is most abundant in regions of thebrain , but has also been found to be expressed in significant levels in many otherperipheral tissue s, particularly those rich insmooth muscle , including therectum ,corpus cavernosum ,colon ,small intestine andmyometirum (Chen et al 2004).The expression level of SK3 is dependent on hormonal regulation, particularly by the
sex hormone estrogen . Estrogen not only enhances transcription of the SK3 gene, but also affects the activity of SK3 channels on thecell membrane . InGABA ergic POA neurons, estrogen enhanced the ability of α1 adrenergic receptors to inhibit SK3 activity, increasing cell excitability (Jacobson et al 2003). Links between hormonal regulation ofsex organ function and SK3 expression have been established. The expression of SK3 in the corpus cavernosum in patients undergoing estrogen treatment as part ofgender reassignment surgery was found to be increased up to 5-fold (Chen et al 2004). The influence of estrogen on SK3 has also been established in thehypothalamus , uterine andskeletal muscle (Jacobson et al 2003).Physiology
SK3 channels play a major role in human physiology, particularly in
smooth muscle relaxation. The expression level of SK3 channels in theendothelium influences arterial tone by setting arterial smooth musclemembrane potential . The sustained activity of SK3 channels induces a sustained hyperpolarisation of the endothelial cell membrane potential, which is then carried to nearby smooth muscle through gap junctions (Taylor et al 2003). Blocking the SK3 channel or suppressing SK3 expression causes a greatly increased tone in resistance arteries, producing an increase in peripheral resistance andblood pressure .Pathology
Mutation s in SK3 are suspected to be a possible underlying cause for severalneurological disorder s, includingschizophrenia ,bipolar disorder ,Alzheimer’s disease ,anorexia nervosa andataxia (Koronyo-Hamaoui et al 2007, Koronyo-Hamaoui et al 2004, Tomita et al 2003), as well asmyotonic muscular dystrophy (Kimura et al 2003).References
* Chen, M.X, Gorman S, Benson B, Singh K, Hieble J.P, Michel M, Tate S, Trezise D. 2004. Small and intermediate conductance Ca2+ activated K+ channels confer distinctive patterns of distbribution in human tissues and differential cellular localisation in the colon and corpus cavernosum. Naunyn-Schmiedeberg’s Arch Pharmacol. 369:602-615
* Hamilton, K. 2007. Physiological Aspects of Health and Disease K+ Channelopathies Practical Experimental Protocol. University Press, Dunedin, NZ.
* Jacobson D, Pribnow D, Herson PS, Maylie J, Adelman JP. 2003. Determinants contributing to estrogen-regulated expression of SK3. Biochemical and Biophysical Research Communications 303:600-608
* Kimura T, Takahashi MP, Fujimura H, Sakoda S. 2003. Expression and distribution of a small-conductance calcium-activated potassium channel (SK3) protein in skeletal muscles from myotonic muscular dystrophy patients and congenital myotonic mice. Neuroscience Letters 347(3):191-5
* Kohler M, Hirschberg B, Band CT, Kinie JM, Marrion NV, Maylie J, Adelman JP. 1996. Small-conductance, calcium-activated potassium channels from mammalian brain. Science 273:1709-1714
* Koronyo-Hamaoui M, Frisch A, Stein D, Denziger Y, Leor S, Michaelovsky E, Laufer N, Carel C, Fennig S, Mimouni M, Ram A, Zubery E, Jeczmien P, Apter A, Weizman A, Gak E. 2007. Dual contribution of NR2B subunit of NMDA receptor and SK3 Ca(2+)-activated K+ channel to genetic predisposition to anorexia nervosa. J Psychiatr Res 41(1-2):160-7
* Koronyo-Hamaoui M, Gak E, Stein D, Frisch A, Danziger Y, Leor S, Michaelovsky E, Laufer N, Carel C, Fennig S, Mimouni M, Apter A, Goldman B, Barkai G, Weizman A. 2004. CAG repeat polymorphism within the KCNN3 gene is a significant contributor to susceptibility to anorexia nervosa: a case-control study of female patients and several ethnic groups in the Israeli Jewish population. Am J Med Genet B Neuropsychiatr Genet 131(1):76-80
* Taylor M, Bonev A, Gross TP, Eckman DM, Brayden J, Bond C, Adelman JP, Nelson MT. 2003. Altered expression of small-conductance Ca2+-activated K+ (SK3) channels modulates arterial tone and blood pressure. Circulation Research 93:124-131
* Tomita H, Shakkottai VG, Gutman GA, Sun G, Bunney WE, Cahalan MD, Chandy KG, Garjus JJ. 2003. Novel truncated isoform of SK3 potassium channel is a potent dominant-negative reguator of SK currents: implications in schizophrenia. Molecular psychiatry 8:524-535
* Wolfart J, Neuhoff H, Franz O, Roeper J. 2001. Differential expression of the small-conductance, calcium-activated potassium channel SK3 is critical for pacemaker control in dopaminergic midbrain neurons. Journal of Neuroscience 21(10):3443-3456
Wikimedia Foundation. 2010.