HC Toxin

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HC Toxin
Category Enzyme inhibitors
Catalog number BBF-03776
CAS 83209-65-8
Molecular Weight 436.50
Molecular Formula C21H32N4O6
Purity ≥95%

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Description

HC Toxin is a cell-permeable histone deacetylase (HDAC) inhibitor (IC50 = 30 nM) that inhibits HDACs in maize, Physarum and chicken. HC Toxin is metabolized from H. carbonum (now C. carbonum), and displays antifungal and antiproliferative effects.

Specification

Synonyms Cyclo(2-amino-8-oxo-9,10-epoxydecanoic acid-prolyl-alanyl-alanine); Cyclo(aoe-pro-ala-ala)
IUPAC Name (3S,6R,9S,12R)-6,9-dimethyl-3-[6-[(2S)-oxiran-2-yl]-6-oxohexyl]-1,4,7,10-tetrazabicyclo[10.3.0]pentadecane-2,5,8,11-tetrone
Canonical SMILES CC1C(=O)NC(C(=O)N2CCCC2C(=O)NC(C(=O)N1)C)CCCCCC(=O)C3CO3
InChI InChI=1S/C21H32N4O6/c1-12-18(27)22-13(2)19(28)24-14(7-4-3-5-9-16(26)17-11-31-17)21(30)25-10-6-8-15(25)20(29)23-12/h12-15,17H,3-11H2,1-2H3,(H,22,27)(H,23,29)(H,24,28)/t12-,13+,14-,15+,17?/m0/s1
InChI Key GNYCTMYOHGBSBI-KVUCBBCISA-N

Properties

Appearance Crystalline Solid
Antibiotic Activity Spectrum fungi
Boiling Point 819.2°C at 760 mmHg
Density 1.28 g/cm3

Reference Reading

1. The cyclic peptide synthetase catalyzing HC-toxin production in the filamentous fungus Cochliobolus carbonum is encoded by a 15.7-kilobase open reading frame
D G Panaccione, J A Pocard, J S Scott-Craig, J D Walton J Biol Chem . 1992 Dec 25;267(36):26044-9.
Race 1 of Cochliobolus carbonum, a fungal plant pathogen, owes its exceptional virulence on certain genotypes of maize to the production of HC-toxin, a cyclic tetrapeptide. Production of HC-toxin is controlled by a single known gene, TOX2. Race 1, but not races that do not make HC-toxin, contains two copies of a 22-kilobase (kb) region of chromosomal DNA that is required for HC-toxin biosynthesis and hence virulence. We have sequenced this 22-kb region and here show that it contains an open reading frame of 15.7 kb that encodes a multifunctional cyclic peptide synthetase of potential M(r)574,620. This gene, called HTS1, apparently contains no introns. The predicted gene product, HC-toxin synthetase (HTS), contains four amino acid-binding (adenylate-forming) domains that are highly similar to those found in other cyclic peptide synthetases and other adenylate-binding enzymes. The DNA sequence encodes tryptic peptides derived from two HC-toxin biosynthetic enzymes, HC-toxin synthetase 1 (HTS-1) and HC-toxin synthetase 2 (HTS-2), indicating that these two enzymes exist in vivo as part of a single polypeptide. Consistent with this, in some enzyme preparations antibodies against the enzyme HTS-2, which was originally purified as a protein with a subunit M(r) of 160,000, recognize a protein with an estimated subunit M(r) greater than 480,000.
2. Histone deacetylase inhibitor screening identifies HC toxin as the most effective in intrahepatic cholangiocarcinoma cells
Jingliang He, Jinfeng Xiao, Rui Huang, Xiaoxun Chen, Xiaopeng Duan, Ke He, Wenjie Zhou, Jinqian Zhang, Guoan Xiang, Zhenglin Xia Oncol Rep . 2016 May;35(5):2535-42. doi: 10.3892/or.2016.4636.
Histone deacetylases (HDACs) are highly expressed in intrahepatic cholangiocarcinoma (ICC) and are associated with poor prognosis of these patients. The aim of the present study was to explore the inhibitory effects of HDAC inhibitors on ICC cells and identify effective and sensitive drugs for ICC. Effects of 34 HDAC inhibitors were screened through two rounds of cell viability assays, and HC toxin, a cyclic tetrapeptide first isolated from the secondary metabolite of Helminthosporium carbonum, exhibited an antitumor activity superior to that of the other HDAC inhibitors and gemcitabine. The mechanisms involved in the inhibitory effects of HC toxin on CCLP-1 cells were investigated by cell counting, colony formation assay, cell morphological observation, real-time PCR, western blotting and flow cytometry. It was demonstrated that HC toxin inhibited the cell proliferation and clone formation ability of the CCLP-1 cells. HC toxin increased the acetyl-histone H4 level and this was associated with the inhibitory effect of HC toxin on the CCLP-1 cells. We also found that HC toxin reduced the level of HDAC1 protein in a post-transcriptional manner. Morphological observation showed multiple morphological changes and indicated the possibility of cell differentiation owing to HC toxin. With increasing concentration of HC toxin, the cell cycle was gradually arrested at the G0/G1 stage and the percentage of apoptotic cells increased which was not mainly through the caspase-3-dependent ways. These results indicated that HC toxin was the most effective among the various HDAC inhibitors with multiple functions in the suppression of ICC in vitro. Thus, HC may be a potential chemotherapeutic for ICC.
3. HC-toxin
Jonathan D Walton Phytochemistry . 2006 Jul;67(14):1406-13. doi: 10.1016/j.phytochem.2006.05.033.
HC-toxin is a cyclic tetrapeptide of structure cyclo(D-Pro-L-Ala-D-Ala-L-Aeo), where Aeo stands for 2-amino-9,10-epoxi-8-oxodecanoic acid. It is a determinant of specificity and virulence in the interaction between the producing fungus, Cochliobolus carbonum, and its host, maize. HC-toxin qualifies as one of the few microbial secondary metabolites whose ecological function in nature is understood. Reaction to C. carbonum and to HC-toxin is controlled in maize by the Hm1 and Hm2 loci. These loci encode HC-toxin reductase, which detoxifies HC-toxin by reducing the 8-carbonyl group of Aeo. HC-toxin is an inhibitor of histone deacetylases (HDACs) in many organisms, including plants, insects, and mammals, but why inhibition of HDACs during infection by C. carbonum leads to disease is not understood. The genes for HC-toxin biosynthesis (collectively known as the TOX2 locus) are loosely clustered over >500 kb in C. carbonum. All of the known TOX2 genes are present in multiple, functional copies and are absent from natural toxin non-producing isolates. The central enzyme in HC-toxin biosynthesis is a 570-kDa non-ribosomal synthetase encoded by a 15.7-kb open reading frame. Other genes known to be required for HC-toxin encode alpha and beta subunits of fatty acid synthase, which are presumed to contribute to the synthesis of Aeo; a pathway-specific transcription factor; an efflux carrier; a predicted branched-chain amino acid aminotransferase; and an alanine racemase.

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