Cyclin

Cyclin

Cyclins are a family of proteins that control the progression of cells through the cell cycle by activating cyclin-dependent kinase (Cdk) enzymes.[1]

Contents

Function

Expression of human cyclins through the cell cycle.

Cyclins were originally named because their concentration varies in a cyclical fashion during the cell cycle. (Note that the cyclins are now classified according to their conserved cyclin box structure, and not all these cyclins alter in level through the cell cycle [2].) The oscillations of the cyclins, namely fluctuations in cyclin gene expression and destruction by proteolysis, induce oscillations in Cdk activity to drive the cell cycle. A cyclin forms a complex with Cdk, which begins to activate the Cdk, but the complete activation requires phosphorylation, as well. Complex formation results in activation of the Cdk active site. Cyclins themselves have no enzymatic activity but have binding sites for some substrates and target the Cdks to specific subcellular locations. [3]

They were discovered by R. Timothy Hunt in 1982 while studying the cell cycle of sea urchins. [4][5]

Cyclins, when bound with the dependent kinases, such as the p34 (cdc2) or cdk1 proteins, form the maturation-promoting factor. MPFs activate other proteins through phosphorylation. These phosphorylated proteins, in turn, are responsible for specific events during cycle division such as microtubule formation and chromatin remodeling. Cyclins can be divided into four classes based on their behavior in the cell cycle of vertebrate somatic cells and yeast cells: G1/S cyclins, S cyclins, M cyclins, G1 cyclins. This division is useful when talking about most cell cycles, but it is not universal as some cyclins have different functions or timing in different cell types.

G1/S Cyclins rise in late G1 and fall in early S phase. The Cdk- G1/S cyclin complex begins to induce the initial processes of DNA replication, primarily by arresting systems that prevent S phase Cdk activity in G1. The cyclins also promote other activities to progress the cell cycle, like centrosome duplication in vertebrates or spindle pole body in yeast. The rise in presence of G1/S cyclins is paralleled by a rise in S cyclins.

S cyclins bind to Cdk and the complex directly induces DNA replication. The levels of S cyclins remain high, not only throughout S phase, but through G2 and early mitosis as well to promote early events in mitosis.

M cyclin concentrations rise as the cell begins to enter mitosis and the concentrations peak at metaphase. Cell changes in the cell cycle like the assembly of mitotic spindles and alignment of sister-chromatids along the spindles are induced by M cyclin- Cdk complexes. The destruction of M cyclins during metaphase and anaphase, after the Spindle Assembly Checkpoint is satisfied, causes the exit of mitosis and cytokinesis [6].

G1 cyclins do not behave like the other cyclins, in that the concentrations increase gradually (with no oscillation), throughout the cell cycle based on cell growth and the external growth-regulatory signals. The presence of G cyclins coordinate cell growth with the entry to a new cell cycle.

Domain structure

Cyclins are generally very different from each other in primary structure, or amino acid sequence. The similarity between members of the cyclin family are similar in the 100 amino acids that make up the cyclin box. Cyclins contain two domains of similar all-α fold, the first located at the N-terminus and the second at the C-terminus. All cyclins are believed to contain a similar tertiary structure of two compact domains of 5 α helices. The first of which is the conserved cyclin box, outside of which cyclins are divergent. For example, the amino-terminal regions of S and M cyclins contain short destruction-box motifs that target these proteins for proteolysis in mitosis.

Cyclin, N-terminal domain
PDB 1vin EBI.jpg
Structure of bovine cyclin A.[7]
Identifiers
Symbol Cyclin_N
Pfam PF00134
Pfam clan CL0065
InterPro IPR006671
PROSITE PDOC00264
SCOP 1vin
Cyclin, C-terminal domain
PDB 1e9h EBI.jpg
Structure of CDK2-cyclin A/indirubin-5-sulphonate.[8]
Identifiers
Symbol Cyclin_C
Pfam PF02984
Pfam clan CL0065
InterPro IPR004367
PROSITE PDOC00264
SCOP 1vin

Types

There are several different cyclins that are active in different parts of the cell cycle and that cause the Cdk to phosphorylate different substrates. There are also several "orphan" cyclins for which no Cdk partner has been identified. For example, cyclin F is an orphan cyclin that is essential for G2/M transition.[9][10]

Main groups

There are two main groups of cyclins:

  • G1/S cyclins – essential for the control of the cell cycle at the G1/S transition,
  • G2/M cyclins – essential for the control of the cell cycle at the G2/M transition (mitosis). G2/M cyclins accumulate steadily during G2 and are abruptly destroyed as cells exit from mitosis (at the end of the M-phase).
    • Cyclin B / CDK1 – regulates progression from G2 to M phase.

Subtypes

Specific cyclin subtypes include:

Species G1 G1/S S M
S. cerevisiae Cln3 (Cdk1) Cln 1,2 (Cdk1) Clb 5,6 (Cdk1) Clb 1,2,3,4 (Cdk 1)
S. pombe Puc1? (Cdk1) Puc1, Cig1? (Cdk1) Cig2, Cig1? (Cdk1) Cdc13 (Cdk1)
D. melanogaster cyclin D (Cdk4) cyclin E (Cdk2) cyclin E, A (Cdk2,1) cyclin A, B, B3 (Cdk1)
X. laevis either not known or not present cyclin E (Cdk2) cyclin E, A (Cdk2,1) cyclin A, B, B3 (Cdk1)
H. sapiens cyclin D 1,2,3 (Cdk4,6) cyclin E (Cdk2) cyclin A (Cdk2,1) cyclin B (Cdk1)
family members
A CCNA1, CCNA2
B CCNB1, CCNB2, CCNB3
C CCNC
D CCND1, CCND2, CCND3
E CCNE1, CCNE2
F CCNF
G CCNG1, CCNG2
H CCNH
I CCNI, CCNI2
J CCNJ, CCNJL
K CCNK
L CCNL1, CCNL2
O CCNO
T CCNT1, CCNT2
Y CCNY, CCNYL1, CCNYL2, CCNYL3

Other proteins containing this domain

In addition, the following human proteins contain a cyclin domain:

CABLES2, CNTD1, CNTD2

History

Leland H. Hartwell, R. Timothy Hunt, and Paul M. Nurse won the 2001 Nobel Prize in Physiology or Medicine for their discovery of cyclin and cyclin-dependent kinase.[11]

References

  1. ^ Galderisi U, Jori FP, Giordano A (August 2003). "Cell cycle regulation and neural differentiation". Oncogene 22 (33): 5208–19. doi:10.1038/sj.onc.1206558. PMID 12910258. 
  2. ^ Morgan, DO (2007) 'The Cell Cycle: Principles of Control, Oxford University Press
  3. ^ (Morgan, D.O. (2007) The Cell Cycle: Principles of Control. Oxford University Press.
  4. ^ Evans et al., 1983, Cell 33, p389-396
  5. ^ http://nobelprize.org/nobel_prizes/medicine/laureates/2001/hunt-autobio.html
  6. ^ Clute and Pines, (1999) Nature Cell Biology, 1, p82-87
  7. ^ Brown NR, Noble ME, Endicott JA, et al. (November 1995). "The crystal structure of cyclin A". Structure 3 (11): 1235–47. doi:10.1016/S0969-2126(01)00259-3. PMID 8591034. 
  8. ^ Davies TG, Tunnah P, Meijer L, et al. (May 2001). "Inhibitor binding to active and inactive CDK2: the crystal structure of CDK2-cyclin A/indirubin-5-sulphonate". Structure 9 (5): 389–97. doi:10.1016/S0969-2126(01)00598-6. PMID 11377199. 
  9. ^ Fung TK, Poon RY (2005). "A roller coaster ride with the mitotic cyclins". Semin. Cell Dev. Biol. 16 (3): 335–42. doi:10.1016/j.semcdb.2005.02.014. PMID 15840442. 
  10. ^ Gerald Karp, (2007). Cell and Molecular Biology: Concepts and Experiments. New York: Wiley. pp. 148, 165–170, and 624–664. ISBN 0-470-04217-6. 
  11. ^ "The Nobel Prize in Physiology or Medicine 2001". The Nobel Foundation. http://nobelprize.org/nobel_prizes/medicine/laureates/2001/index.html. Retrieved 2009-03-15. 

External Links

Further reading

  • Monty Krieger; Matthew P Scott; Matsudaira, Paul T.; Lodish, Harvey F.; Darnell, James E.; Lawrence Zipursky; Kaiser, Chris; Arnold Berk (2004). Molecular cell biology (Fifth ed.). New York: W.H. Freeman and CO. ISBN 0-7167-4366-3. 

This article includes text from the public domain Pfam and InterPro IPR006671


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