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Citron kinase

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CIT
Identifiers
AliasesCIT, CRIK, STK21, citron rho-interacting serine/threonine kinase, MCPH17, CITK
External IDsOMIM: 605629; MGI: 105313; HomoloGene: 21404; GeneCards: CIT; OMA:CIT - orthologs
Orthologs
SpeciesHumanMouse
Entrez
Ensembl
UniProt
RefSeq (mRNA)

NM_001206999
NM_007174

NM_007708

RefSeq (protein)

NP_001193928
NP_009105

NP_031734

Location (UCSC)Chr 12: 119.69 – 119.88 MbChr 5: 115.98 – 116.15 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse

Citron Rho-interacting kinase is an enzyme that in humans is encoded by the CIT gene.[5][6]

Structure

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Citron is a 183 kDa protein that contains a C6H2 zinc finger, a PH domain, and a long coiled-coil forming region including 4 leucine zippers and a rho / rac binding site. It was discovered as a rho/rac effector in 1995, interacting only with the GTP bound forms of rho and rac 1. Displaying a distinctive protein organization, this protein defines a separate class of rho partners.[7] Using a cloning approach based on the polymerase chain reaction (PCR), a splice variant of citron, citron kinase (citron-K) has been identified with an alternative amino terminus. This N-terminal extension contains a protein kinase domain that has approximately 50% sequence identity to the sequences of ROCK, ROK, myotonic dystrophy protein kinase (MDPK) and the CDC42 effector known as MRCK or GEK.[8] Citron kinase, which resembles the ROCK family of kinases and by comparison to it, is therefore a multiple domain protein containing an N-terminal kinase domain, an internal coiled-coil (CC) domain with Rho/Rac interacting site, and a C-terminal region consisting of a Zn finger, a pleckstrin homology (PH) domain, a Citron homology domain (CNH), a putative SH3 binding domain, and a PDZ-targeting motif. Its fly (Drosophila) ortholog is called Sticky.[9][10] the importance of different domains of citron-K in its localization at different stages is discussed below.

Tissue distribution, localization and dynamics

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Investigating the tissue distribution of the citron isoforms with and without the kinase domain, it has been shown that the non-kinase form is restricted to the brain region while the kinase form is widely expressed.[8] Immunofluorescence analyses determined the localization of citron-K and its behavior during cytokinesis. Citron-K first appeared at the equatorial cortex in anaphase, concentrated at the cleavage furrow in early telophase, accumulated in the middle of the intercellular bridge with full ingression of the cleavage furrow in mid telophase, and formed a ring-like structure in the midbody in late telophase, with negligible turnover rate at the midbody. In other words, the protein is much less dynamic at the midbody.[11] Using a series of deletions, it was observed that distinct regions of Citron-K CC (coiled- coil) domain differentially regulate the localizations of Citron-K during cytokinesis. The C terminal part of the CC domain localized at the cleavage furrow and the midbody while the N-terminal part of the CC domain localized at the central spindle in early telophase and on outer region of the midbody in late telophase.[11]

Function

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As previously mentioned, citron-K was believed to act in cytokinesis. Its depletion impairs maintenance of the midbody and its overexpression in HeLa cells rendered host cells multinucleated. Cytokinesis failure of Citron-K-depleted cells occurred after full ingression of the cleavage furrow,[12] at the abscission stage. Microtubule disassembly was not seen in any of Citron-K depleted cells with cytokinesis failure. The dominant mode of failure was the inability of daughter cells, which are connected with a shorter intercellular bridge, to separate well. As the midbody microtubules were displaced from the center toward either of the two daughter cells, the two cells fused again with the microtubules absorbed into that daughter cell. To sum the process, Citron-K is important to keep proper structure of the midbody which holds the intercellular bridge microtubules between the two daughter cells and is thus required for successful transition from constriction to abscission. In molecular terms, citron-K depletion impaired the accumulation of 3 key proteins: Rho, Anillin and septins (specifically septin 6 and 7) in the intercellular bridge in mid–late telophase, which in previous stages early to mid-telophase was found to co-localize with them.

Interactions

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CIT (gene) has been shown to interact with RHOB[7] and RHOA.[7][13]

Citron-K or its fly orthologue Sticky has been suggested to interact with several molecules in cytokinesis such as Kinesin-3 (KIF14),[14] actin, myosin light chain,[15] and anillin.[16]

KIF14

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The N- terminal of the coiled- coil domain of Citron-K directly interacts with the 2nd coiled-coil domain of KIF14. The localization of KIF14 and citron kinase to the central spindle and midbody is codependent, and they form a complex depending on the activation state of citron kinase.[14] This suggests that the regulation of the interaction between KIF14 and Citron-K is important for Citron-K localization to exert its function but this interaction alone cannot accomplish cytokinesis fully.

ASPM

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ASPM (abnormal spindle-like microcephaly associated) is localized to the spindle pole, and is essential for maintaining proliferative cell division. It has been reported that ASPM also localizes to the midbody ring in mammalian cells. This was due to the observed differential localization of the N-terminal and C-terminal regions of ASPM within mitotic cells to either spindle poles or to midbodies, respectively. Since, ASPM co-localizes with Citron-K at the midbody ring in HeLa cells and in developing neocortex, it has been proposed that ASPM may function to coordinate spindle rotation with localization of abscission through interaction with Citron-K.[17]

Actomyosin filaments

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In many organisms, the force that drives furrow ingression is the assembly and contraction of actomyosin filaments that often form a contractile ring. The contractile ring is a very dynamic structure in which actomyosin filaments are continuously assembled and disassembled. The small GTPase RhoA has been shown to be implicated, controlling CR assembly and dynamics during cytokinesis. This GTPase cycles between an inactive GDP-bound form and an active GTP-bound form, and this RhoA flux seems important for contractile ring dynamics. In drosophila, Sti (Sticky, ortholog of Citron-K) localizes to the cleavage furrow via association of a predicted coiled-coil region with actin and myosin. However, Sti depletion perturbs RhoA localization and causes excessive accumulation of phosphorylated MRLC (myosin regulatory light chain) at the cleavage site in late cytokinesis. Sti is believed to maintain correct RhoA localization at the cleavage site, which is in turn important for proper contractile ring organization at the end of cytokinesis.[15]

Anillin

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The scaffold protein anillin is one of the most crucial partners of RhoA during cytokinesis and plays a fundamental role in the assembly and stabilization of the contractile ring by interacting with RhoA, septins, F-actin, myosin II, and mDia2 and it has been shown that its depletion results in cleavage furrow instability.[18] Citron-K is capable of physically and functionally interacting with the actin-binding protein anillin. Like active RhoA, anillin is also displaced from the midbody in Citron-K-depleted cells. The overexpression of Citron-K and of anillin leads to abscission delay. These results stress that Citron-K is a crucial abscission regulator that may promote midbody stability through active RhoA and anillin.[16]

Clinical implications

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Citron-K is expressed during neurogenesis and plays important roles in neuronal progenitor cell division. Recessive mutations in Citron-K cause severe microcephaly both in rats and mice. In humans and rodents, loss of Citron-K expression results in defects in neurogenic cytokinesis. Similarly in Drosophila, RNAi knockdown of Citron-K results in a failure of cellular abscission.[17] CIT is associated with microlissencephaly.

References

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  1. ^ a b c GRCh38: Ensembl release 89: ENSG00000122966Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000029516Ensembl, May 2017
  3. ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  5. ^ Di Cunto F, Calautti E, Hsiao J, Ong L, Topley G, Turco E, Dotto GP (Nov 1998). "Citron rho-interacting kinase, a novel tissue-specific ser/thr kinase encompassing the Rho-Rac-binding protein Citron". The Journal of Biological Chemistry. 273 (45): 29706–11. doi:10.1074/jbc.273.45.29706. PMID 9792683.
  6. ^ "Entrez Gene: CIT citron (rho-interacting, serine/threonine kinase 21)".
  7. ^ a b c Madaule P, Furuyashiki T, Reid T, Ishizaki T, Watanabe G, Morii N, Narumiya S (Dec 1995). "A novel partner for the GTP-bound forms of rho and rac". FEBS Letters. 377 (2): 243–8. doi:10.1016/0014-5793(95)01351-2. PMID 8543060. S2CID 39746553.
  8. ^ a b Madaule P, Eda M, Watanabe N, Fujisawa K, Matsuoka T, Bito H, Ishizaki T, Narumiya S (Jul 1998). "Role of citron kinase as a target of the small GTPase Rho in cytokinesis". Nature. 394 (6692): 491–4. Bibcode:1998Natur.394..491M. doi:10.1038/28873. PMID 9697773. S2CID 4341439.
  9. ^ Cunto FD, Imarisio S, Camera P, Boitani C, Altruda F, Silengo L (Dec 2002). "Essential role of citron kinase in cytokinesis of spermatogenic precursors". Journal of Cell Science. 115 (Pt 24): 4819–4826. doi:10.1242/jcs.00163. PMID 12432070. S2CID 19005862.
  10. ^ Yamashiro S, Totsukawa G, Yamakita Y, Sasaki Y, Madaule P, Ishizaki T, Narumiya S, Matsumura F (May 2003). "Citron kinase, a Rho-dependent kinase, induces di-phosphorylation of regulatory light chain of myosin II". Molecular Biology of the Cell. 14 (5): 1745–1756. doi:10.1091/mbc.E02-07-0427. PMC 165073. PMID 12802051.
  11. ^ a b Watanabe S, De Zan T, Ishizaki T, Narumiya S (Apr 2013). "Citron kinase mediates transition from constriction to abscission through its coiled-coil domain". Journal of Cell Science. 126 (Pt 8): 1773–84. doi:10.1242/jcs.116608. PMID 23444367.
  12. ^ Echard A, Hickson GR, Foley E, O'Farrell PH (Sep 2004). "Terminal cytokinesis events uncovered after an RNAi screen". Current Biology. 14 (18): 1685–93. Bibcode:2004CBio...14.1685E. doi:10.1016/j.cub.2004.08.063. PMC 2899696. PMID 15380073.
  13. ^ Riento K, Guasch RM, Garg R, Jin B, Ridley AJ (Jun 2003). "RhoE binds to ROCK I and inhibits downstream signaling". Molecular and Cellular Biology. 23 (12): 4219–29. doi:10.1128/MCB.23.12.4219-4229.2003. PMC 156133. PMID 12773565.
  14. ^ a b Gruneberg U, Neef R, Li X, Chan EH, Chalamalasetty RB, Nigg EA, Barr FA (Jan 2006). "KIF14 and citron kinase act together to promote efficient cytokinesis". The Journal of Cell Biology. 172 (3): 363–372. doi:10.1083/jcb.200511061. PMC 2063646. PMID 16431929.
  15. ^ a b Bassi ZI, Verbrugghe KJ, Capalbo L, Gregory S, Montembault E, Glover DM, D'Avino PP (Nov 2011). "Sticky/Citron kinase maintains proper RhoA localization at the cleavage site during cytokinesis". The Journal of Cell Biology. 195 (4): 595–603. doi:10.1083/jcb.201105136. PMC 3257531. PMID 22084308.
  16. ^ a b Gai M, Camera P, Dema A, Bianchi F, Berto G, Scarpa E, Germena G, Di Cunto F (Oct 2011). "Citron kinase controls abscission through RhoA and anillin". Molecular Biology of the Cell. 22 (20): 3768–3778. doi:10.1091/mbc.E10-12-0952. PMC 3192857. PMID 21849473.
  17. ^ a b Paramasivam M, Chang YJ, LoTurco JJ (Jul 2007). "ASPM and citron kinase co-localize to the midbody ring during cytokinesis". Cell Cycle. 6 (13): 1605–12. doi:10.4161/cc.6.13.4356. PMID 17534152.
  18. ^ Straight AF, Field CM, Mitchison TJ (Jan 2005). "Anillin binds nonmuscle myosin II and regulates the contractile ring". Molecular Biology of the Cell. 16 (1): 193–201. doi:10.1091/mbc.E04-08-0758. PMC 539163. PMID 15496454.
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Further reading

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