ADF/cofilin is a family of
actin-binding protein Actin-binding proteins (also known as ABPs) are proteins that bind to actin. This may mean ability to bind actin monomers, or polymers, or both.
Many actin-binding proteins, including α-actinin, β-spectrin, dystrophin, utrophin and fimbrin, do t ...
s associated with the rapid depolymerization of
actin microfilaments that give actin its characteristic
dynamic instability Dynamic instability may refer to any of several scientific phenomena:
* Aircraft dynamic modes, including aircraft dynamic instability
*Atmospheric instability
Atmospheric instability is a condition where the Earth's atmosphere is generally consi ...
. This dynamic instability is central to actin's role in muscle contraction, cell motility and transcription regulation.
Three highly conserved and highly (70%-82%) identical genes belonging to this family have been described in humans and mice:
*
CFL1, coding for
cofilin 1 (non-muscle, or n-cofilin)
*
CFL2, coding for
cofilin 2 (found in muscle: m-cofilin)
*
DSTN, coding for
destrin, also known as ADF or actin depolymerizing factor
Actin
Actin is a family of globular multi-functional proteins that form microfilaments in the cytoskeleton, and the thin filaments in muscle fibrils. It is found in essentially all eukaryotic cells, where it may be present at a concentration of o ...
-binding proteins regulate assembly and disassembly of actin filaments.
[Cooper, G. M. and R. E. Hausman. ''The Cell: A Molecular Approach,'' 3rd ed. Washington DC: ASM Press 2004 pp.436-440.] Cofilin, a member of the ADF/cofilin family is actually a protein with 70% sequence identity to
destrin, making it part of the ADF/cofilin family of small ADP-binding proteins.
The protein binds to actin monomers and filaments, G actin and F actin, respectively.
Cofilin causes depolymerization at the minus end of filaments, thereby preventing their reassembly. The protein is known to sever actin filaments by creating more positive ends on filament fragments.
Cofilin/ADF (destrin) is likely to sever F-actin without capping
and prefers ADP-actin. These
monomer
In chemistry, a monomer ( ; '' mono-'', "one" + '' -mer'', "part") is a molecule that can react together with other monomer molecules to form a larger polymer chain or three-dimensional network in a process called polymerization.
Classification ...
s can be recycled by
profilin
Profilin is an actin-binding protein involved in the dynamic turnover and reconstruction of the actin cytoskeleton. It is found in all eukaryotic organisms. Profilin is important for spatially and temporally controlled growth of actin microfilam ...
, activating monomers to go back into filament form again by an ADP-to-
ATP exchange. ATP-actin is then available for assembly.
Structure
The structure of actin depolymerizing factors is highly conserved across many organism due to actin's importance in many cellular processes.
Proteins of the actin depolymerizing factor family characteristically consist of five beta sheets, four antiparallel and one parallel, and four alpha helices with a central alpha helix providing the structure and stability of the proteins.
The actin depolymerizing factor homology domain (ADF-H domain) allows for binding to actin subunits and includes the central alpha helix, the
N-terminus
The N-terminus (also known as the amino-terminus, NH2-terminus, N-terminal end or amine-terminus) is the start of a protein or polypeptide, referring to the free amine group (-NH2) located at the end of a polypeptide. Within a peptide, the am ...
extension, and the C terminus helix.
* The N-terminus extension consists of a tilted loop that facilitates binding to G-actin but not F-actin due to steric hindrance present in F-actin.
* The C-terminus can form hydrogen bonds to F actin through its amide backbone and a serine at position S274. This serine is especially highly evolutionarily conserved due to its importance in actin binding.
* The central alpha helix is inserted into the hydrophobic cleft in between the first and third subunits of actin during actin binding.
Cofilin binds monomeric (G-actin) and filamentous actin (F-actin). Its binding affinities are higher for ADP-actin over ADP-Pi and ATP-actin. Its binding changes the twist of F-actin. The structure of ADF was first characterized in 1980 by James Bamburg. Four actin histidines near the cofilin binding site may be needed for cofilin/actin interaction, but pH sensitivity alone may not be enough of an explanation for the levels of interaction encountered. Cofilin is accommodated in ADP-F actin because of increased flexibility in this form of actin. Binding by both cofilin and ADF (destrin) causes the crossover length of the filament to be reduced. Therefore, strains increase filament dynamics and the level of filament fragmentation observed.
Function
Cofilin is a ubiquitous actin-binding factor required for the reorganization of actin filaments. ADF/Cofilin family members bind G-actin monomers and depolymerize actin filaments through two mechanisms: severing
and increasing the off-rate for actin monomers from the pointed end.
"Older" ADP/ADP-Pi actin filaments free of tropomyosin and proper pH are required for cofilin to function effectively. In the presence of readily available ATP-G-actin cofilin speeds up actin polymerization via its actin-severing activity (providing free barbed ends for further polymerization and nucleation by the Arp2/3 complex).
As a long-lasting ''in vivo'' effect, cofilin recycles older ADP-F-actin, helping cell to maintain ATP-G-actin pool for sustained motility. pH, phosphorylation and phosphoinositides regulate cofilin's binding and associating activity with actin
The
Arp2/3 complex
Arp2/3 complex (Actin Related Protein 2/3 complex) is a seven-subunit protein complex that plays a major role in the regulation of the actin cytoskeleton. It is a major component of the actin cytoskeleton and is found in most actin cytoskeleton- ...
and cofilin work together to reorganize the actin filaments in the
cytoskeleton
The cytoskeleton is a complex, dynamic network of interlinking protein filaments present in the cytoplasm of all cells, including those of bacteria and archaea. In eukaryotes, it extends from the cell nucleus to the cell membrane and is compose ...
. Arp 2/3, an actin binding proteins complex, binds to the side of ATP-F-actin near the growing barbed end of the filament, causing nucleation of a new F-actin branch,
while cofilin-driven depolymerization takes place after dissociating from the Arp2/3 complex.
They also work together to reorganize actin filaments in order to traffic more proteins by vesicle to continue the growth of filaments.
Cofilin also binds with other proteins such as
myosin
Myosins () are a superfamily of motor proteins best known for their roles in muscle contraction and in a wide range of other motility processes in eukaryotes. They are ATP-dependent and responsible for actin-based motility.
The first myosi ...
,
tropomyosin
Tropomyosin is a two-stranded alpha-helical, coiled coil protein found in actin-based cytoskeletons.
Tropomyosin and the actin skeleton
All organisms contain organelles that provide physical integrity to their cells. These type of organelles ar ...
,
α-actinin,
gelsolin
Gelsolin is an actin-binding protein that is a key regulator of actin filament assembly and disassembly. Gelsolin is one of the most potent members of the actin-severing gelsolin/villin superfamily, as it severs with nearly 100% efficiency.
Cellu ...
and
scruin. These proteins compete with cofilin for actin binding.
Сofilin also play role in innate immune response.
In a Model Organism
ADF/cofilin is found in ruffling membranes and at the leading edge of mobile cells.
In particular, ADF/cofilin promotes disassembly of the filament at the rear of the brush in ''
Xenopus laevis
The African clawed frog (''Xenopus laevis'', also known as the xenopus, African clawed toad, African claw-toed frog or the ''platanna'') is a species of African aquatic frog of the family Pipidae. Its name is derived from the three short claws ...
''
lamellipodia
The lamellipodium (plural lamellipodia) (from Latin ''lamella'', related to ', "thin sheet", and the Greek radical ''pod-'', "foot") is a cytoskeletal protein actin projection on the leading edge of the cell. It contains a quasi-two-dimension ...
, a protrusion from fibroblast cells characterized by actin networks. Subunits are added to barbed ends and lost from rear-facing pointed ends. Increasing the rate constant, k, for actin dissociation from the pointed ends was found to sever actin filaments. Through this experimentation, it was found that ATP or ADP-Pi are probably involved in binding to actin filaments.
Mechanism of Action
F-actin (filamentous actin) is stabilized when it is bound to ATP due to the presence of a serine on the second subunit of actin that is able to form hydrogen bonds to the last phosphate group in ATP and a nearby histidine attached to the main loop. This interaction stabilizes the structure internally due to the interactions between the main loop and the second subunit. When ATP is hydrolyzed to ADP, the serine can no longer form a hydrogen bond to ADP due to the loss of the inorganic phosphate which causes the serine side chain to twist, causing a conformational change in the second subunit.
This conformational change also causes the serine to no longer be able to form a hydrogen bond with the histidine attached to the main loop and this weakens the linkage between subunits one and three, causing the entire molecule to twist. This twisting puts strain on the molecule and destabilizes it.
Actin depolymerizing factor is able to bind to the destabilized F-actin by inserting the central helix into the cleft between the first and third subunits of actin. Actin depolymerizing factor binds F-actin cooperatively and induces a conformational change in F-actin that causes it to twist further and become more destabilized. This twisting causes severing of the bond between actin monomers, depolymerizing the filament.
Regulation
Phosphorylation
Actin depolymerization factor is regulated by the phosphorylation of a serine on the C terminus by
LIM kinases. Actin depolymerizing factor is activated when it is dephosphorylated and inhibited when it is phosphorylated.
pH
An alkaline environment stabilizes the inorganic phosphate released when ATP is hydrolyzed to ADP, so therefore a higher pH increases the favorability of the ATP bound to F-actin to be hydrolyzed to ADP resulting in the destabilization of actin.
Tropomyosin binding
F-actin binds the protein
Tropomyosin
Tropomyosin is a two-stranded alpha-helical, coiled coil protein found in actin-based cytoskeletons.
Tropomyosin and the actin skeleton
All organisms contain organelles that provide physical integrity to their cells. These type of organelles ar ...
and actin depolymerizing factor competitively and mutually exclusively. F-actin binding of Tropomyosin is uncooperative so therefore the binding of Tropomyosin does not induce a conformational change in F-actin and does not cause it to become destabilized.
However, because F-actin cannot bind both Tropomyosin and actin depolymerizing factor at the same time due to Tropomyosin blocking the binding site of actin depolymerizing factor when it is bound to actin, Tropomyosin acts as a protector of actin against depolymerization.
References
External links
MBInfo - Cofilin in Actin Filament Depolymerization
See also
*
Cofilin 1
{{Cytoskeletal Proteins
Protein families