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Heptamidine Sale

(Synonyms: SBi4211) 目录号 : GC60188

Heptamidine (SBi4211) 是一种强效的 Pentamidine-related 钙结合蛋白 S100B 的抑制剂 (Kd=6.9 μM),选择性地杀死表达 S100B 的黑素瘤细胞。Heptamidine 是研究强直性肌营养不良 (DM) 的有效工具。

Heptamidine Chemical Structure

Cas No.:94345-47-8

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产品描述

Heptamidine (SBi4211) is a potent Pentamidine-related inhibitor of the calcium-binding protein S100B (Kd=6.9 μM), selectively kills melanoma cells with S100B over those without S100B[1]. Heptamidine is a useful tool for the investigation of Myotonic dystrophy (DM)[2].

Heptamidine is a Pentamidine-S100B complex, two molecules of pentamidine bind per monomer of S100B, which performs to be an inhibitor for S100B[1].Heptamidine (20 μM) does not decrease CUG levels significantly when compares to Propamidine and Pentamidine, and exhibits cytotoxic at concentrations above 17.5 μM in HeLa cells expressing 960 CUG repeats[2].Heptamidine rescues mis-splicing of minigene reporters in a HeLa cell DM1 model with an EC50 value of 15 μM[2].

Heptamidine (intraperitoneal injection; 20 or 30 mg/kg; 7 days) causes a dose-dependent reduction of exon 7a inclusion in HSALR mice, returning to wild type levels (6±1%) when at 20 mg/kg dose, the myotonia is reduced from grade 3 to grade 1 (occasional myotonic discharge) or grade 0 at both 20 or 30 mg/kg[2]. Animal Model: Homozygous HSALR transgenic mice in line 20b (FVB inbred background) with a Myotonic dystrophy (DM) mouse model[2]

[1]. McKnight LE, et al. Structure-Based Discovery of a Novel Pentamidine-Related Inhibitor of the Calcium-Binding Protein S100B. ACS Med Chem Lett. 2012 Dec 13;3(12):975-979. Epub 2012 Sep 25. [2]. Coonrod LA, et al. Reducing levels of toxic RNA with small molecules.ACS Chem Biol. 2013 Nov 15;8(11):2528-37.

Chemical Properties

Cas No. 94345-47-8 SDF
别名 SBi4211
Canonical SMILES N=C(C1=CC=C(OCCCCCCCOC2=CC=C(C(N)=N)C=C2)C=C1)N
分子式 C21H28N4O2 分子量 368.47
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Research Update

[SBi4211 alleviates gp120-induced central nervous system injury via inhibiting S100B/ RAGE]

Nan Fang Yi Ke Da Xue Xue Bao 2020 Dec 30;40(12):1693-1702.PMID:33380406DOI:10.12122/j.issn.1673-4254.2020.12.01.

Objective: To explore the protective effect of SBi4211 (Heptamidine), an inhibitor of S100B, against central nervous system injury induced by HIV-1 envelope protein gp120. Methods: In an in vitro model, U251 glioma cells were co-cultured with SH-SY5Y cells to explore the protective effect of SBi4211 against gp120-induced central nervous system injury. In a gp120 transgenic (Tg) mouse model (8 months old) mimicking HIV-associated neurocognitive disorder (HAND), the effect of treatment with gp120 or both gp120 and SBi4211 on neuronal activity and apoptosis were assessed using Cell Counting kit-8 (CCK-8) and flow cytometry. ELISA, Western blotting and immunohistochemistry were used to determine the expression levels of S100B, RAGE, GFAP, NeuN, Syn, MAP-2 and the inflammatory factors IL-6 and TNF-α. Results: In the cell co-culture system, SBi4211 treatment significantly inhibited gp120-induced expression of S100B, RAGE and GFAP in U251 cells (P < 0.001), reduced the levels of inflammatory factors iNOS, IL-6 and TNF-α (P < 0.001) and enhanced the expressions of neuron-related proteins NeuN, Syn and MAP-2 (P < 0.001). In the transgenic mouse model, SBi4211 treatment significantly reduced the expressions of S100B, RAGE and inflammation levels (P < 0.05), inhibited the activation of astrocytes in the brain, and maintained the integrity of the neurons (P < 0.05). Conclusions: SBi4211 can protect neurons from gp120-induced neurotoxicity possibly by inhibiting the S100B/ RAGE-mediated signaling pathway.

Structure-Based Discovery of a Novel Pentamidine-Related Inhibitor of the Calcium-Binding Protein S100B

ACS Med Chem Lett 2012 Dec 13;3(12):975-979.PMID:23264854DOI:10.1021/ml300166s.

Molecular Dynamics simulations of the pentamidine-S100B complex, where two molecules of pentamidine bind per monomer of S100B, were performed in an effort to determine what properties would be desirable in a pentamidine-derived compound as an inhibitor for S100B. These simulations predicted that increasing the linker length of the compound would allow a single molecule to span both pentamidine binding sites on the protein. The resulting compound, SBi4211 (also known as Heptamidine), was synthesized and experiments to study its inhibition of S100B were performed. The 1.65 Å X-ray crystal structure was determined for Ca(2+)-S100B-heptamdine and gives high-resolution information about key contacts that facilitate the interaction between Heptamidine and S100B. Additionally, NMR HSQC experiments with both compounds show that Heptamidine interacts with the same region of S100B as pentamidine. Heptamidine is able to selectively kill melanoma cells with S100B over those without S100B, indicating that its binding to S100B has an inhibitory effect and that this compound may be useful in designing higher-affinity S100B inhibitors as a treatment for melanoma and other S100B-related cancers.

Reducing levels of toxic RNA with small molecules

ACS Chem Biol 2013 Nov 15;8(11):2528-37.PMID:24028068DOI:10.1021/cb400431f.

Myotonic dystrophy (DM) is one of the most common forms of muscular dystrophy. DM is an autosomal dominant disease caused by a toxic gain of function RNA. The toxic RNA is produced from expanded noncoding CTG/CCTG repeats, and these CUG/CCUG repeats sequester the Muscleblind-like (MBNL) family of RNA binding proteins. The MBNL proteins are regulators of alternative splicing, and their sequestration has been linked with mis-splicing events in DM. A previously reported screen for small molecules found that pentamidine was able to improve splicing defects associated with DM. Biochemical experiments and cell and mouse model studies of the disease indicate that pentamidine and related compounds may work through binding the CTG*CAG repeat DNA to inhibit transcription. Analysis of a series of methylene linker analogues of pentamidine revealed that Heptamidine reverses splicing defects and rescues myotonia in a DM1 mouse model.

Amoebicidal efficiencies of various diamidines against two strains of Acanthamoeba polyphaga

Antimicrob Agents Chemother 1995 Feb;39(2):339-42.PMID:7726493DOI:10.1128/AAC.39.2.339.

The first medical cure of Acanthamoeba keratitis was obtained by use of propamidine isethionate. Since then, it has been the basic drug recommended for use in treatment. Because some Acanthamoeba strains have been reported to be resistant to propamidine and propamidine was found to be only weakly cysticidal, superior homologs such as butamidine, pentamidine, hexamidine, Heptamidine, octamidine, and nonamidine were tested for their amoebicidal effects on two Acanthamoeba strains isolated from patients with keratitis. Trophozoicidal and cysticidal efficiencies were found to be increased from propamidine to nonamidine; i.e., when the alkyl chain connecting the two benzene rings in their molecular structures was elongated, in comparison with propamidine, hexamidine and octamidine were the most amoebicidal molecules. As a result of these data, a kinetic study carried out on propamidine, hexamidine, and octamidine demonstrated that the amoebicidal effects resulted from two events: the diffusion of molecules through the plasma membrane or the double wall of trophozoites or cysts, respectively, and the lethal effects of molecules on amoebic protoplasm. The diffusion kinetics were increased when the alkyl chain was elongated, i.e., with an increase in the lipophilic properties of molecules. In contrast, the lethal effect kinetics were found to be unchanged by this elongation, indicating that they originated from the cationic surface-active properties induced by the protonated amidine groups attached to each benzene ring, which themselves remained unchanged from one molecule to the other. These results strongly advocate the immediate replacement of propamidine by hexamidine in the medical treatment of Acanthamoeba keratitis; in France, 0.1% hexamidine eyedrops are available (Desomedine). The results also advocate clinical investigations on the efficiency and toxicity of octamidine, which appears to be the most amoebicidal diamidine in vitro.

Sequence-selective binding to DNA of bis(amidinophenoxy)alkanes related to propamidine and pentamidine

Biochem J 1997 Apr 1;323 ( Pt 1)(Pt 1):23-31.PMID:9173886DOI:10.1042/bj3230023.

The DNA sequences targeted by a complete homologous series of aromatic diamidines have been determined at single-nucleotide resolution via protection from cutting by the endonucleases DNase I, DNase II and micrococcal nuclease. Propamidine, pentamidine and to a lesser extent hexamidine bind selectively to nucleotide sequences composed of at least four consecutive A-T base pairs. In contrast, the binding to DNA of butamidine, Heptamidine, octamidine and nonamidine is poorly sequence-selective. Sequences composed of only three consecutive A-T base pairs do not afford a potential binding site for propamidine or the longer homologues, and none of the drugs tolerate the presence of a G-C base pair within the binding site. Experiments with DNA molecules containing inosine in place of guanosine and 2,6-diaminopurine in place of adenine reveal that the lack of binding of propamidine to GC-containing sites is attributable to an obstructive effect of the exocyclic 2-amino group of guanosine. The present data support the view that the local conformation of the double helix (in particular the width of the minor groove) plays a dominant role in the binding reaction and that the capacity of diamidines to recognize AT-rich sequences selectively varies considerably depending on the length of the alkyl chain. The evidence indicates that binding to AT-tracts in DNA must play a role in the biological activity of these diamidines, but there is no simple correlation between binding and pharmacological efficacy.