Phalloidin belongs to a class of toxins called

phallotoxins The phallotoxins consist of at least seven compounds, all of which are bicyclic heptapeptides (seven amino acids), isolated from the death cap mushroom ''(Amanita phalloides)''. They differ from the closely related amatoxins by being one residue sma ...

, which are found in the death cap mushroom ''(

Amanita phalloides ''Amanita phalloides'' (), commonly known as the death cap, is a deadly poisonous basidiomycete fungus, one of many in the genus ''Amanita''. Widely distributed across Europe, but now sprouting in other parts of the world, ''A. phalloides ...

)''. It is a rigid

bicyclic In chemistry, a bicyclic molecule () is a molecule that features two joined rings. Bicyclic structures occur widely, for example in many biologically important molecules like α-thujene and camphor. A bicyclic compound can be carbocyclic (all o ...

heptapeptide Peptides (, ) are short chains of amino acids linked by peptide bonds. Long chains of amino acids are called proteins. Chains of fewer than twenty amino acids are called oligopeptides, and include dipeptides, tripeptides, and tetrapeptides. A p ...

that is lethal after a few days when injected into the bloodstream. The major symptom of phalloidin poisoning is acute hunger due to the destruction of liver cells. It functions by binding and stabilizing filamentous

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 over ...

(F-actin) and effectively prevents the depolymerization of actin fibers. Due to its tight and selective binding to F-actin, derivatives of phalloidin containing fluorescent tags are used widely in microscopy to visualize F-actin in biomedical research.

Discovery and background

Phalloidin was one of the first cyclic peptides to be discovered. It was isolated from the death cap mushroom and crystallized by

Feodor Lynen Feodor Felix Konrad Lynen (; 6 April 19116 August 1979) was a German biochemist. In 1964 he won the Nobel Prize in Physiology or Medicine together with Konrad Bloch for their discoveries concerning the mechanism and regulation of cholesterol and ...

and

Ulrich Wieland Ulrich (), is a German given name, derived from Old High German ''Uodalrich'', ''Odalric''. It is composed of the elements '' uodal-'' meaning "(noble) heritage" and ''-rich'' meaning "rich, powerful". Attested from the 8th century as the name of A ...

G. Semenza, E.C. Slater, R. Jaenicke
Selected Topics in the History of Biochemistry. Personal Recollections
- Google books in 1937. Its structure is unusual in that it contains a

cysteine Cysteine (symbol Cys or C; ) is a semiessential proteinogenic amino acid with the formula . The thiol side chain in cysteine often participates in enzymatic reactions as a nucleophile. When present as a deprotonated catalytic residue, sometime ...

tryptophan Tryptophan (symbol Trp or W) is an α-amino acid that is used in the biosynthesis of proteins. Tryptophan contains an α-amino group, an α- carboxylic acid group, and a side chain indole, making it a polar molecule with a non-polar aromatic ...

linkage to form a bicyclic heptapeptide. This linkage had not been characterized before and makes the structure elucidation of phalloidin significantly more difficult. They determined the presence of the sulfur atom using

UV spectroscopy Ultraviolet (UV) is a form of electromagnetic radiation with wavelength from 10 nm (with a corresponding frequency around 30 PHz) to 400 nm (750 THz), shorter than that of visible light, but longer than X-rays. UV radiation i ...

and found that this ring structure had a slightly shifted wavelength. Raney nickel experiments confirmed the presence of sulfur in the tryptophan ring. The researchers found the desulfurized phalloidin was still circular, which demonstrated that the structure of phalloidin is normally bicyclic. Once linearized, the amino acid sequence of de-sulfurized phalloidin was elucidated through

Edman degradation Edman degradation, developed by Pehr Edman, is a method of sequencing amino acids in a peptide. In this method, the amino-terminal residue is labeled and cleaved from the peptide without disrupting the peptide bonds between other amino acid resi ...

by Wieland and Schön in 1955. Due to its high affinity for actin, scientists discovered its potential use as a staining reagent for effective visualization of actin in microscopy. Derivatives conjugated with fluorophores are sold widely. Because of its ability to selectively bind filamentous actin (F-actin) and not actin monomers (G-actin), fluorescently labeled phalloidin is more effective than antibodies against actin.

Synthesis

Biosynthesis

Phalloidin is a bicyclic heptapeptide containing an unusual cysteine-tryptophan linkage. The gene coding for synthesis of phalloidin is part of the MSDIN family in the Death Cap mushroom and codes for a 34 amino acid propeptide. A

proline Proline (symbol Pro or P) is an organic acid classed as a proteinogenic amino acid (used in the biosynthesis of proteins), although it does not contain the amino group but is rather a secondary amine. The secondary amine nitrogen is in the prot ...

residue flanks the seven-residue region that will later become phalloidin. After translation, the peptide must be proteolyticly excised, cyclized, hydroxylated, Trp-Cys cross-linked to form tryptathionine, and epimerized to form a D-Thr. The order and exact biochemical mechanism for these steps is not yet fully understood. The current belief is that the necessary biosynthetic genes are clustered near the MSDIN genes. The first post-translational modification of the 34-mer is proteolytic cleavage via a prolyl oligopeptidase (POP) to remove the 10-amino acid "leader" peptide. The POP then cyclizes the heptapeptide Ala-Trp-Leu-Ala-Thr-Cys-Pro by transpeptidation between amino acid 1 (Ala) and amino acid 7 (Pro). It is believed that the formation of tryptathionine through Trp-Cys cross-linking occurs next.

Chemical synthesis

Since phalloidin is exploited for its ability to bind and stabilize actin polymers but cells cannot readily uptake it, scientists have found phalloidin derivatives to be more useful in research. Essentially, it follows typical small peptide synthesis, using hydroxyl-proline. The major difficulty in synthesis is the formation of the tryptathionine bond (cysteine - tryptophan cross-linkage). Below is the general synthetic mechanism carried out by Anderson et al. in 2005 for the solid phase synthesis of ala⁷-phalloidin, which differs at residue 7 from phalloidin as indicated below. THPP stands for tetrahydropyranyl polystyrene linker, which is used to connect the molecule with the solid support during synthesis. Note that the synthesis below is simply a general scheme to show the order of bond formation to connect the starting materials. Ala⁷-phalloidin as well as many other similar variants of phalloidin are useful to increase cell uptake relative to phalloidin and to attach a fluorophore to aid in the visualization of F-actin in microscopy. Phalloidin Synthetic Scheme

The first total synthesis of phalloidin was achieved through a combination of solid phase and solution phase synthesis (Baosheng Liu and Jianheng Zhang, United States Patent, US 8,569,452 B2). The physical and chemical properties of the synthetic phalloidin are the same as the naturally occurring phalloidin.

Mechanism of action

Phalloidin binds F-

, preventing its

depolymerization Depolymerization (or depolymerisation) is the process of converting a polymer into a monomer or a mixture of monomers. This process is driven by an increase in entropy. Ceiling temperature The tendency of polymers to depolymerize is indicated by ...

and poisoning the cell. Phalloidin binds specifically at the interface between F-actin subunits, locking adjacent subunits together. Phalloidin, a bicyclic heptapeptide, binds to actin filaments much more tightly than to actin monomers, leading to a decrease in the rate constant for the dissociation of actin subunits from filament ends, which essentially stabilizes actin filaments through the prevention of filament depolymerization. Moreover, phalloidin is found to inhibit the ATP hydrolysis activity of F-actin. Thus, phalloidin traps actin monomers in a conformation distinct from G-actin and it stabilizes the structure of F-actin by greatly reducing the rate constant for monomer dissociation, an event associated with the trapping of ADP. Overall, phalloidin is found to react stoichiometrically with actin, strongly promote actin polymerization, and stabilize actin polymers. Phalloidin functions differently at various concentrations in cells. When introduced into the cytoplasm at low concentrations, phalloidin recruits the less polymerized forms of cytoplasmic actin as well as filamin into stable "islands" of aggregated actin polymers, yet it does not interfere with stress fibers, i.e. thick bundles of microfilaments. Wehland ''et al.'' also notes that at higher concentrations, phalloidin induces cellular contraction.

Symptoms

Soon after its discovery, scientists injected phalloidin into mice and discovered its LD₅₀ is 2 mg/kg via IP injection. When exposed to the minimum lethal dose, it took several days for these mice to die. The only apparent side effect of phalloidin poisoning is extreme hunger. This is because phalloidin is only taken up by the liver via bile salt membrane transport proteins. Once inside the liver, phalloidin binds F-actin, preventing its depolymerization. It takes time for this process to destroy the liver cells. The kidneys can also take up phalloidin, but not as effectively as the liver. Here, phalloidin causes nephrosis. Focuses on the synthesis of biologically active polypeptides and analogues.

Use as an imaging tool

The properties of phalloidin make it a useful tool for investigating the distribution of F-actin in cells by labeling phalloidin with

fluorescent Fluorescence is the emission of light by a substance that has absorbed light or other electromagnetic radiation. It is a form of luminescence. In most cases, the emitted light has a longer wavelength, and therefore a lower photon energy, tha ...

analogs and using them to stain actin filaments for light microscopy. Fluorescent derivatives of phalloidin have turned out to be enormously useful in localizing actin filaments in living or fixed cells as well as for visualizing individual actin filaments ''in vitro''. A high-resolution technique was developed to detect F-actin at the light and electron microscopic levels by using phalloidin conjugated to the fluorophore

eosin Eosin is the name of several fluorescent acidic compounds which bind to and form salts with basic, or eosinophilic, compounds like proteins containing amino acid residues such as arginine and lysine, and stains them dark red or pink as a resul ...

which acts as the fluorescent tag. In this method known as fluorescence photo-oxidation, fluorescent molecules can be utilized to drive the oxidation of diaminobenzidine (DAB) to create a reaction product that can be rendered electron dense and detectable by electron microscopy. The amount of fluorescence visualized can be used as a quantitative measure of the amount of filamentous actin there is in cells if saturating quantities of fluorescent phalloidin are used. Consequently, immunofluorescence microscopy along with microinjection of phalloidin can be used to evaluate the direct and indirect functions of cytoplasmic actin in its different stages of polymer formation. Therefore, fluorescent phalloidin can be used as an important tool in the study of actin networks at high resolution.

Uses and limitations

Phalloidin is much smaller than an antibody that would typically be used to label cellular proteins for fluorescent microscopy which allows for much denser labeling of filamentous actin and much more detailed images can be acquired particularly at higher resolutions. Unmodified phalloidins do not permeate cell membranes, making them less effective in experiments with living cells. Derivatives of phalloidin with greatly increased cell permeability have been synthesized. Cells treated with phalloidins exhibit a number of toxic effects and frequently die. Furthermore, it is important to note that phalloidin-treated cells will have greater levels of actin associated with their plasma membranes, and the microinjection of phalloidin into living cells will change actin distribution as well as cell motility.

References

{{Poisonous Amanitas Mycotoxins found in Basidiomycota Actin inhibitors Tryptamines de:Phallotoxin#Phalloidin