Neuroprotectin A
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| Category | Others |
| Catalog number | BBF-02122 |
| CAS | |
| Molecular Weight | 1344.76 |
| Molecular Formula | C61H45Cl6N7O16 |
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Description
Neuroprotectin A is a cyclopeptide produced by the strain of Streptomyces sp. Q27107. It has the function of protecting chicken brain neuron culture from excitatory toxicity induced by glutamate and red alginate.
Specification
| Synonyms | Complestatin A |
| IUPAC Name | (2R)-2-[[(17R,20R,23R,26R,29S)-20,26-bis(3,5-dichloro-4-hydroxyphenyl)-17-[[2-(3,5-dichloro-4-hydroxyphenyl)-2-oxoacetyl]amino]-37-hydroxy-28-methyl-14,18,21,24,27-pentaoxo-2-oxa-13,19,22,25,28-pentazahexacyclo[29.2.2.13,7.18,12.05,23.011,15]heptatriaconta-1(33),3,5,7(37),8(36),9,11,31,34-nonaene-29-carbonyl]amino]-2-(4-hydroxyphenyl)acetic acid |
| Canonical SMILES | CN1C(CC2=CC=C(C=C2)OC3=CC4=CC(=C3O)C5=CC6=C(C=C5)C(CC(C(=O)NC(C(=O)NC4C(=O)NC(C1=O)C7=CC(=C(C(=C7)Cl)O)Cl)C8=CC(=C(C(=C8)Cl)O)Cl)NC(=O)C(=O)C9=CC(=C(C(=C9)Cl)O)Cl)C(=O)N6)C(=O)NC(C1=CC=C(C=C1)O)C(=O)O |
| InChI | InChI=1S/C61H45Cl6N7O16/c1-74-43(56(83)73-48(61(88)89)24-4-7-30(75)8-5-24)12-23-2-9-31(10-3-23)90-44-21-26-13-33(50(44)77)25-6-11-32-34(54(81)68-41(32)20-25)22-42(69-59(86)49(76)29-18-39(66)53(80)40(67)19-29)55(82)70-46(27-14-35(62)51(78)36(63)15-27)57(84)71-45(26)58(85)72-47(60(74)87)28-16-37(64)52(79)38(65)17-28/h2-11,13-21,34,42-43,45-48,75,77-80H,12,22H2,1H3,(H,68,81)(H,69,86)(H,70,82)(H,71,84)(H,72,85)(H,73,83)(H,88,89)/t34?,42-,43+,45-,46-,47-,48-/m1/s1 |
| InChI Key | ZFUGTFLRENMBAG-HYTWXIRXSA-N |
Properties
| Appearance | Brownish Yellow Solid |
| Melting Point | >300°C |
Reference Reading
1. Complestatin exerts antibacterial activity by the inhibition of fatty acid synthesis
Yun-Ju Kwon, Hyun-Ju Kim, Won-Gon Kim Biol Pharm Bull. 2015;38(5):715-21. doi: 10.1248/bpb.b14-00824.
Bacterial enoyl-acyl carrier protein (ACP) reductase has been confirmed as a novel target for antibacterial drug development. In the screening of inhibitors of Staphylococcus aureus enoyl-ACP reductase (FabI), complestatin was isolated as a potent inhibitor of S. aureus FabI together with neuroprotectin A and chloropeptin I from Streptomyces chartreusis AN1542. Complestatin and related compounds inhibited S. aureus FabI with IC₅₀ of 0.3-0.6 µM. They also prevented the growth of S. aureus as well as methicillin-resistance S. aureus (MRSA) and quinolone-resistant S. aureus (QRSA), with minimum inhibitory concentrations (MICs) of 2-4 µg/mL. Consistent with its FabI-inhibition, complestatin selectively inhibited the intracellular fatty acid synthesis in S. aureus, whereas it did not affect the macromolecular biosynthesis of other cellular components, such as DNA, RNA, proteins, and the cell wall. Additionally, supplementation with exogenous fatty acids reversed the antibacterial effect of complestatin, demonstrating that it targets fatty acid synthesis. In this study, we reported that complestatin and related compounds showed potent antibacterial activity via inhibiting fatty acid synthesis.
2. Neuroprotectins A and B, bicyclohexapeptides protecting chick telencephalic neurons from excitotoxicity. II. Structure determination
H Kobayashi, K Shin-Ya, K Furihata, K Nagai, K Suzuki, Y Hayakawa, H Seto, B S Yun, I J Ryoo, J S Kim, C J Kim, I D Yoo J Antibiot (Tokyo). 2001 Dec;54(12):1019-24. doi: 10.7164/antibiotics.54.1019.
In the course of our search for neuroprotective agents of microbial origin against kainate-induced neurotoxicity, we have succeeded in the isolation of two new bicyclohexapeptides, neuroprotectins A and B, together with a known compound, complestatin, from the fermentation broth of Streptomyces sp. Q27107. They are closely related in structure to complestatin and possess an oxindolylalanine moiety in place of the tryptophan residue present in complestatin.
3. Synthesis and stereochemical determination of complestatin A and B (neuroprotectin A and B)
Steven P Breazzano, Dale L Boger J Am Chem Soc. 2011 Nov 16;133(45):18495-502. doi: 10.1021/ja208570q. Epub 2011 Oct 20.
Recently, we reported the first total synthesis of chloropeptin II (1, complestatin), the more strained and challenging of the two naturally occurring chloropeptins. Central to the design of the approach and by virtue of a single-step, acid-catalyzed ring expansion rearrangement of chloropeptin II to chloropeptin I, the route also provided a total synthesis of chloropeptin I. Herein, we report a complementary and divergent oxidation of chloropeptin II (1, complestatin) to either complestatin A (2, neuroprotectin A) or complestatin B (3, neuroprotectin B), providing the first synthesis of the natural products and establishing their remaining stereochemical assignments. Key to the approach to complestatin A (2, neuroprotectin A) was the development of two different single-step indole oxidations (HCl-DMSO and NBS, THF-H(2)O) that avoid the rearrangement of chloropeptin II (1) to chloropeptin I (4), providing the 2-oxindole 2 in superb yields (93% and 82%). With a mechanistic understanding of features that impact the latter oxidation and an appreciation of the intrinsic reactivity of the chloropeptin II indole, its modification (NCS, THF-H(2)O; Cs(2)CO(3), DMF-H(2)O) provided a two-step, single-pot oxidation of chloropeptin II (1) to afford directly the 3-hydroxy-2-oxindole complestatin B (3, neuroprotectin B). Extensive studies conducted on the fully functionalized synthetic DEF ring system of chloropeptin II were key to the unambiguous assignment of the stereochemistry as well as the exploration and subsequent development of the mild oxidation conditions used in the synthesis of complestatin A and B.
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Bio Calculators
* Our calculator is based on the following equation:
Concentration (start) x Volume (start) = Concentration (final) x Volume (final)
It is commonly abbreviated as: C1V1 = C2V2
* Total Molecular Weight:
g/mol
Tip: Chemical formula is case sensitive. C22H30N4O √ c22h30n40 ╳
