A tetrapeptide is a peptide, classified as an oligopeptide, since it only consists of four amino acids joined by peptide bonds. Many tetrapeptides are pharmacologically active, often showing affinity and specificity for a variety of receptors in protein-protein signaling. Present in nature are both linear and cyclic tetrapeptides (CTPs), the latter of which mimics protein reverse turns which are often present on the surface of proteins and druggable targets. [1] [2] Tetrapeptides may be cyclized by a fourth peptide bond or other covalent bonds.
Examples of tetrapeptides are:
Cyclic tetrapeptides are a class of drugs that contain an α-epoxyketone group that has the potential to alkylate the HDAC active site. [5] The HDAC active site, also known as histone deacetylase, are isozymes that modulate numerous regulatory signals and pathways within biological systems. They serve as targets for drug design. [6] If the cyclic tetrapeptides were to alkylate the HDAC active site, they would deactivate the HDAC catalytic pocket. The tetra-peptide tuftsin (Thr–Lys–Pro–Arg), has been reported to affect a wide variety of biological responses in neutrophils and mononuclear phagocytes and also phagocytosis. It has also been reported that a tetra-peptide with the amino acid sequence, RGDS, that is from the cell-binding domain of the fibronectin molecule, is capable of blocking fibronectin from attaching to the cells. Based on that report, they were able to suggest that the RGDS tetra-peptide is capable of blocking RPE attachment to a variety of extracellular matrix component including; fibronectin, type I collagen, type II collagen, laminin, and lens capsule basement membrane. By utilizing time-lapse cinematography, it has been shown that the RGDS tetra-peptide inhibits the ability of cells to contract collagen. [5]
Tentoxin is most commonly known as a naturally occurring phytotoxic cyclic tetra-peptide that is excreted by fungi of the Alternaria alternata family. There were four total syntheses of tentoxin that were published to this day that gave very poor total yields. These poor yields were mainly due to the introduction of the dehydro amino acid, more specifically the cyclization step. There was a method developed in order to stereospecifically introduce Z-dehydrophenylalanine by a modified Erlenmeyer adolization reaction. [7] An aldol reaction is a transformation that is due to the dimerization of an aldehyde (or ketone) to a beta-hydroxy aldehyde (or ketone) by alpha C-H addition of one reactant molecule to the carbonyl group of a second reactant molecule. This reaction requires at least one of the reactants to have hydrogens. [8] The precursor of tentoxin, the linear tetrapeptide (Boc-R1Ala-Leu-R2ΔZPhe-Gly-OMe), was obtained from Boc-Leu-Gly-OH with a 72% yield. This linear tetrapeptide with carbon-14 was utilized to study the four cyclization reagents, DPPA, DCC-PfpOH, HBTU, and HATU. By doing so, this gave the tentoxin a 81% cyclization yield. [7]
In order to understand more about the mechanisms that are utilized to regulate the activation of caspases, a study was conducted to identify the conditions that would potentially lead to as complete and synchronous an induction of apoptosis as possible using a tetrapeptide inhibitor. This was achieved by utilizing HL-60 cells, which are a human promyelocytic cell line, in order to show that both anisomycin and geranylgeraniol are able to induce apoptosis in approximately 80% of the cells within two hours. [9] Anisomycin is a translational inhibitor that is secreted by Streptomyces spp., it strongly activates the stress-activated mitogen-activate protein kinases, JNK/SAPK and p38/RK in mammalian cells. This results in the rapid induction of immediate-early genes within the nuclease. [10] Geranylgeraniol is a diterpene alcohol that is used for perfume ingredients and as a raw material for synthesizing vitamins such as; vitamin A and E. It is also reported to prevent inhibition of the osteoclast formation as well as bone resorption in vitro. It has also show to induce anticancer, antiturmor, and antileishmanial potentials. [11]
The induction of apoptosis in the HL-60 cells is accompanied by the processing of activation of caspase-3 and potentially caspase-2. Benzyloxycarbonyl-Val-Ala-Asp-(OMe)-fluoromethylketone (zVAD.fmk), a tetrapeptide inhibitor of caspases, was added to prolong the induction of apoptosis that was induced by either agent. It also enabled some cells to continue to grow up to 72 hours after the treatment. This method was essential to the study to better understand the mechanisms of apoptosis. [9]
A novel vaccine adjuvant that's purpose is to evoke both humoral and cellular immune responses was reported. This vaccine adjuvant was found from a supramolecular hydrogel of a self-assembling D-tetra-peptide. Prior pioneering work has found that self-assembling peptides can serve as self-adjuvated vaccines through the covalent conjugation of peptide or protein antigens, but that cannot elicit strong CD8^+ T-cell responses. [12] However, in a recent study it has been found that the self-assembling L-peptide derivative (Nap-GFFY-NMe, naphthylacetic acid modified tetra-peptide of GFFY with C-terminal methyl amide group) that was formed fromm the phosphatase, could co-assemble with HIV DNA molecules and raise both humoral and cellular immune responses against HIV. It has been reported that the large-scale synthesis of the phosphorylated precursor (Nap-GFFpY-NMe or Nap-GFFpY-OMe (naphthylacetic acid modified phosphorylated tetra-peptide of GFFpY with C-terminal methyl ester group)) is extremely difficult. It has also been reported that the need of enzyme triggering could possibly cause side effects including; reproducibility problems and composition variation. [12] If they are able to develop a peptide hydrogel as a vaccine adjuvant that contains a well-defined molecular structure and a very simple formulation mode, it would be very promising.
Trapoxin, (cyclo-(L-phenylalanyl-L-phenylalanyl-D-pipecolinyl-L-2-amino-8- oxo-9,10-epoxy-decanoyl)), is commonly known as an anti-tumor cyclic tetra-peptide. In a prior study, it has been found that the fungal product, Trapoxin, can induce morphological reversion from transformed to normal in sis-transformed NIH3T3 fibroblasts. It was also found that trapoxin can cause highly acetylated core histones in many different mammalian cell lines to accumulate. Vitro experiments were conducted, and it was found that a low concentration of trapoxin could irreversibly inhibit deacetylation of acetylated histone molecules. The study reported that this could be due to the chemical reduction of an epoxide group, that is in trapoxin, completely abolishing the inhibitory activity. This suggested that trapoxin binds covalently to the histone deacetylase via the epoxide. On the contrary, the inhibition by trichostatin A, which is a known potent inhibitor of histone deacetylase, could be reversible. Despite their mode of inhibitions being different, trapoxin and trichostatin A had nearly the same biological effects on the cell cycle. The in vivo effects that are commonly induced by these agents could be attributed to histone hyperacetylation that results from the inhibition of histone deacetylase, which was strongly suggested from the results. [13]
Butyric acid, also known under the systematic name butanoic acid, is a straight-chain alkyl carboxylic acid with the chemical formula CH3CH2CH2CO2H. It is an oily, colorless liquid with an unpleasant odor. Isobutyric acid is an isomer. Salts and esters of butyric acid are known as butyrates or butanoates. The acid does not occur widely in nature, but its esters are widespread. It is a common industrial chemical and an important component in the mammalian gut.
An oligopeptide, is a peptide consisting of two to twenty amino acids, including dipeptides, tripeptides, tetrapeptides, and other polypeptides. Some of the major classes of naturally occurring oligopeptides include aeruginosins, cyanopeptolins, microcystins, microviridins, microginins, anabaenopeptins, and cyclamides. Microcystins are best studied because of their potential toxicity impact in drinking water. A review of some oligopeptides found that the largest class are the cyanopeptolins (40.1%), followed by microcystins (13.4%).
Histone deacetylases (EC 3.5.1.98, HDAC) are a class of enzymes that remove acetyl groups (O=C-CH3) from an ε-N-acetyl lysine amino acid on both histone and non-histone proteins. HDACs allow histones to wrap the DNA more tightly. This is important because DNA is wrapped around histones, and DNA expression is regulated by acetylation and de-acetylation. HDAC's action is opposite to that of histone acetyltransferase. HDAC proteins are now also called lysine deacetylases (KDAC), to describe their function rather than their target, which also includes non-histone proteins. In general, they suppress gene expression.
Myristoylation is a lipidation modification where a myristoyl group, derived from myristic acid, is covalently attached by an amide bond to the alpha-amino group of an N-terminal glycine residue. Myristic acid is a 14-carbon saturated fatty acid (14:0) with the systematic name of n-tetradecanoic acid. This modification can be added either co-translationally or post-translationally. N-myristoyltransferase (NMT) catalyzes the myristic acid addition reaction in the cytoplasm of cells. This lipidation event is the most common type of fatty acylation and is present in many organisms, including animals, plants, fungi, protozoans and viruses. Myristoylation allows for weak protein–protein and protein–lipid interactions and plays an essential role in membrane targeting, protein–protein interactions and functions widely in a variety of signal transduction pathways.
Trichostatin A (TSA) is an organic compound that serves as an antifungal antibiotic and selectively inhibits the class I and II mammalian histone deacetylase (HDAC) families of enzymes, but not class III HDACs. However, there are recent reports of the interactions of this molecule with Sirt 6 protein. TSA inhibits the eukaryotic cell cycle during the beginning of the growth stage. TSA can be used to alter gene expression by interfering with the removal of acetyl groups from histones and therefore altering the ability of DNA transcription factors to access the DNA molecules inside chromatin. It is a member of a larger class of histone deacetylase inhibitors that have a broad spectrum of epigenetic activities. Thus, TSA has some potential as an anti-cancer drug. One suggested mechanism is that TSA promotes the expression of apoptosis-related genes, leading to cancerous cells surviving at lower rates, thus slowing the progression of cancer. Other mechanisms may include the activity of HDIs to induce cell differentiation, thus acting to "mature" some of the de-differentiated cells found in tumors. HDIs have multiple effects on non-histone effector molecules, so the anti-cancer mechanisms are truly not understood at this time.
The death-inducing signaling complex or DISC is a multi-protein complex formed by members of the death receptor family of apoptosis-inducing cellular receptors. A typical example is FasR, which forms the DISC upon trimerization as a result of its ligand (FasL) binding. The DISC is composed of the death receptor, FADD, and caspase 8. It transduces a downstream signal cascade resulting in apoptosis.
Histone acetylation and deacetylation are the processes by which the lysine residues within the N-terminal tail protruding from the histone core of the nucleosome are acetylated and deacetylated as part of gene regulation.
Acute myeloblastic leukemia with maturation (M2) is a subtype of acute myeloid leukemia (AML).
Antamanide is a cyclic decapeptide isolated from a fungus, the death cap: Amanita phalloides. It is being studied as a potential anti-toxin against the effects of phalloidin and for its potential for treating edema. It contains 1 valine residue, 4 proline residues, 1 alanine residue, and 4 phenylalanine residues with a structure of c(Val-Pro-Pro-Ala-Phe-Phe-Pro-Pro-Phe-Phe). It was isolated by determining the source of the anti-phalloidin activity from a lipophillic extraction from the organism. It has been shown that antamanide can react to form alkali metal ion complexes. These include complexes with sodium and calcium ions. When these complexes are formed, the cyclopeptide structure undergoes a conformational change.
Caspase-3 is a caspase protein that interacts with caspase-8 and caspase-9. It is encoded by the CASP3 gene. CASP3 orthologs have been identified in numerous mammals for which complete genome data are available. Unique orthologs are also present in birds, lizards, lissamphibians, and teleosts.
A nerve tissue protein is a biological molecule related to the function and maintenance of normal nervous tissue. An example would include, for example, the generation of myelin which insulates and protects nerves. These are typically calcium-binding proteins.
Histone deacetylase inhibitors are chemical compounds that inhibit histone deacetylases. Since deacetylation of histones produces transcriptionally silenced heterochromatin, HDIs can render chromatin more transcriptionally active and induce epigenomic changes.
Histone deacetylase 3 is an enzyme encoded by the HDAC3 gene in both humans and mice.
Myocyte-specific enhancer factor 2D is a protein that in humans is encoded by the MEF2D gene.
Deleted in Liver Cancer 1 also known as DLC1 and StAR-related lipid transfer protein 12 (STARD12) is a protein which in humans is encoded by the DLC1 gene.
Histone deacetylase 8 is an enzyme that in humans is encoded by the HDAC8 gene.
HAMLET is a complex between alpha-lactalbumin and oleic acid that has been shown in cell culture experiments to induce cell death in tumor cells, but not in healthy cells.
Anticancer genes exhibit a preferential ability to kill cancer cells while leaving healthy cells unharmed. This phenomenon is achieved through various processes such as apoptosis following a mitotic catastrophe, necrosis, and autophagy. In the late 1990s, extensive research in the field of cancer cells led to the discovery of anticancer genes. Mutations in these genes due to base substitutions leading to insertions, deletions, or alterations in missense amino acids can cause frameshifts, thereby altering the protein. A change in gene copy number or rearrangements is also essential for deregulating these genes. The loss or alteration of these anticancer genes due to mutations or rearrangements may lead to the development of cancer.
Abexinostat is an experimental drug candidate for cancer treatment. It was developed by Pharmacyclics and licensed to Xynomic. As of 2013, it was in Phase II clinical trials for B-cell lymphoma. Pre-clinical study suggests the potential for treatment of different types of cancer as well.
Pracinostat (SB939) is an orally bioavailable, small-molecule histone deacetylase (HDAC) inhibitor based on hydroxamic acid with potential anti-tumor activity characterized by favorable physicochemical, pharmaceutical, and pharmacokinetic properties.