2483-46-7Relevant articles and documents
Two-component dendritic gel: Effect of stereochemistry on the supramolecular chiral assembly
Hirst, Andrew R.,Smith, David K.,Feiters, Martin C.,Geurts, Huub P. M.
, p. 5901 - 5910 (2004)
The self-assembly of diaminododecane solubilised by four different stereoisomeric dendritic peptides to form gel-phase materials in toluene was investigated. The second generation dendritic peptides were based on D- and L-lysine building blocks, and each contained three chiral centres. By designing dendritic peptides in which the configurations of the chiral centres were modified, and applying them as gelator units, the assembly of stereoisomers could be investigated. In all cases, the self-assembly of gelator units resulted in macroscopic gelation. However, the degree of structuring was modulated by the stereoisomers employed, an effect which changed the morphology and macroscopic behavior of the self-assembled state. Enantiomeric (L,L,L or D,D,D) gelator units formed fibrous molecular assemblies, whilst the racemic gel (50% L,L,L: 50% D,D,D) formed a flat structure with a "woven" appearance. Gelator units based on L,D,D or D,L,L dendritic peptides also formed fibrous assemblies, but small-angle X-ray scattering indicated significant morphological differences were caused by the switch in chirality. Furthermore, the macroscopic stability of the gel was diminished when these peptides were compared with their L,L,L or D,D,D analogues. In this paper it is clearly shown that individual stereocentres, on the molecular level, are directly related to the helicity within the fibre. It is argued that the chirality controls the pattern of hydrogen bonding within the assembly, and hence determines the extent of fibre formation and the macroscopic gel strength.
Synthesis and antibacterial bioactivities of cationic deacetyl linezolid amphiphiles
Bai, Peng-Yan,Qin, Shang-Shang,Chu, Wen-Chao,Yang, Yi,Cui, De-Yun,Hua, Yong-Gang,Yang, Qian-Qian,Zhang, En
, p. 925 - 945 (2018)
Bacterial infections cause various life-threatening diseases and have become a serious public health problem due to the emergence of drug-resistant strains. Thus, novel antibiotics with excellent antibacterial activity and low cytotoxicity are urgently needed. Here, three series of novel cationic deacetyl linezolid amphiphiles bearing one lipophilic alkyl chain and one non-peptidic amide bond were synthesized and tested for antimicrobial activities. Several compounds showed excellent antibacterial activity toward drug-sensitive bacteria such as gram-negative bacteria Escherichia coli (E. coli), Salmonella enterica (S. enterica) and gram-positive Staphylococcus aureus (S. aureus), Enterococcus faecalis (E. faecalis). Moreover, these amphiphilic molecules also exhibited strong activity against drug-resistant species such as methicillin-resistant S. aureus (MRSA), KPC (Klebsiella pneumoniae carbapenemase) and NDM-1 (New Delhi metallo-β-lactamase 1) producing carbapenem-resistant Enterobacteriaceae (CRE). For example, the MICs (minimum inhibitory concentrations) of the best compound 6e, ranged from 2 to 16 μg/mL and linezolid ranged from 2 to >64 μg/mL against these strains. Therefore, 6e is a broad-spectrum antimicrobial compound that may be a suitable lead as an antibiotic. The molecule 6e were found to function primarily by permeabilization and depolarization of bacterial membranes. Importantly, bacterial resistance against compound 6e was difficult to induce, and 6e was stable under plasma conditions and showed suitable activity in mammalian plasma. Thus, these compounds can be further developed into a potential new class of broad-spectrum antibiotics.
End-Site-Specific Conjugation of Enoxaparin and Tetradeoxycholic Acid Using Nonenzymatic Glycosylation for Oral Delivery
Park, Jooho,Jeon, Ok Cheol,Yun, Jisuk,Nam, Hwajung,Hwang, Jinha,Al-Hilal, Taslim A.,Kim, Kwangmeyung,Kim, Kyungjin,Byun, Youngro
, p. 10520 - 10529 (2016)
Heparin and low molecular weight heparins (LMWHs) have been the drug of choice for the treatment or the prevention of thromboembolic disease. Different methods are employed to prepare the LMWHs that are clinically approved for the market currently. In particular, enoxaparin, which has a reducing sugar moiety at the end-site of polysaccharide, is prepared by alkaline depolymerization. Focusing on this end-site-specific activity of LMWHs, we conjugated the tetraoligomer of deoxycholic acid (TetraDOCA; TD) at the end-site of enoxaparin via nonenzymatic glycosylation reaction. The end-site-specific conjugation is important for polysaccharide drug development because of the heterogeneity of polysaccharides. This study also showed that orally active enoxaparin and tetraDOCA conjugate (EnoxaTD) had therapeutic effect on deep vein thrombosis (DVT) without bleeding in animal models. Considering the importance of end-specific conjugation, these results suggest that EnoxaTD could be a drug candidate for oral heparin development.
Photocleavable antimicrobial peptide mimics for precluding antibiotic resistance
Feng, Yang,Zhang, Yang-Yang,Li, Ke,Tian, Na,Wang, Wei-Bo,Zhou, Qian-Xiong,Wang, Xue-Song
, p. 3192 - 3195 (2018)
Cationic amphiphiles featuring a lysine-based hydrophilic moiety, an alkyl chain-based hydrophobic moiety, and an o-nitrobenzyl group-based linker were constructed facilely, which show alkyl chain-dependent antibacterial activity against both Gram-positive and Gram-negative bacteria, low cytotoxicity toward mammalian cells, and UV-cleavable properties, representing a novel type of environmental accumulation-free antimicrobial peptide mimic.
Biodegradable hydrogels for time-controlled release of tethered peptides or proteins
Brandl, Ferdinand,Hammer, Nadine,Blunk, Torsten,Tessmar, Joerg,Goepferich, Achim
, p. 496 - 504 (2010)
Tethering drug substances to a gel network is an effective way of controlling the release kinetics of hydrogelbased drug delivery systems. Here, we report on in situ forming, biodegradable hydrogels that allow for the covalent attachment of peptides or proteins. Hydrogels were prepared by step-growth polymerization of branched poly(ethylene glycol). The gel strength ranged from 1075 to 2435 Pa; the degradation time varied between 24 and 120 h. Fluorescence recovery after photobleaching showed that fluorescently labeled bovine serum albumin (FITC-BSA) was successfully bound to the gel network during gel formation. Within 168 h, the mobility of the tethered molecules gradually increased due to polymer degradation. Using FITC-BSA and lysozyme as model proteins, we showed the potential of the developed hydrogels for time-controlled release. The obtained release profiles had a sigmoidal shape and matched the degradation profile very well; protein release was complete after 96 h.
Synthesis and evaluation of a bis-3-chloropiperidine derivative incorporating an anthraquinone pharmacophore
Zuravka, Ivonne,Sosic, Alice,Gatto, Barbara,G?ttlich, Richard
, p. 4606 - 4609 (2015)
With the aim to attain an alkylating agent with enhanced DNA-affinity, we have successfully synthesised lysine-linked bis-3-chloropiperidine 1 bearing an anthraquinone moiety known to bind double-stranded DNA. Consistent with our expectations, compound 1 appears to intercalate into the DNA double helix, which can be observed by conformational changes of plasmid DNA suggesting alkylation and intercalation-induced DNA unwinding. The results of this work can provide a meaningful starting point for investigating the molecular mechanism of action of this novel DNA alkylating conjugate 1 with improved affinity for DNA.
Staphyloferrin A as siderophore-component in fluoroquinolone-based Trojan horse antibiotics
Milner, Stephen J.,Seve, Alexandra,Snelling, Anna M.,Thomas, Gavin H.,Kerr, Kevin G.,Routledge, Anne,Duhme-Klair, Anne-Kathrin
, p. 3461 - 3468 (2013)
A series of fluoroquinolone conjugates was synthesised by linking the carboxylic acid functionality of the carboxylate-type siderophore staphyloferrin A and its derivatives to the piperazinyl nitrogen of ciprofloxacin and norfloxacin via amide bond formation. Four siderophore-drug conjugates were screened against a panel of bacteria associated with infection in humans. Whilst no activity was found against ciprofloxacin- or norfloxacin-resistant bacteria, one of the conjugates retained antibacterial activity against fluoroquinolone-susceptible strains although the structure of its lysine-based siderophore component differs from that of the natural siderophore staphyloferrin A. In contrast, three ornithine-based siderophore conjugates showed significantly reduced activity against strains that are susceptible to their respective parent fluoroquinolones, regardless of the type of fluoroquinolone attached or chirality at the ornithine Cα-atom. The loss of potency observed for the (R)- and (S)-ornithine-based ciprofloxacin conjugates correlates with their reduced inhibitory activity against the target enzyme DNA gyrase. The Royal Society of Chemistry.
Appended Aromatic Moieties in Flexible Bis-3-chloropiperidines Confer Tropism against Pancreatic Cancer Cells
Carraro, Caterina,Helbing, Tim,Francke, Alexander,Zuravka, Ivonne,Sosic, Alice,De Franco, Michele,Gandin, Valentina,Gatto, Barbara,G?ttlich, D. Richard
, p. 860 - 868 (2020/12/07)
Nitrogen mustards (NMs) are an old but still largely diffused class of anticancer drugs. However, spreading mechanisms of resistance undermine their efficacy and therapeutic applicability. To expand their antitumour value, we developed bis-3-chloropiperidines (B-CePs), a new class of mustard-based alkylating agent, and we recently reported the striking selectivity for BxPC-3 pancreatic tumour cells of B-CePs bearing aromatic moieties embedded in the linker. In this study, we demonstrate that such tropism is shared by bis-3-chloropiperidines bearing appended aromatic groups in flexible linkers, whereas esters substituted by aliphatic groups or by efficient DNA-interacting groups are potent but nonselective cytotoxic agents. Besides, we describe how the critical balance between water stability and DNA reactivity can affect the properties of bis-3-chloropiperidines. Together, these findings support the exploitation of B-CePs as potential antitumour clinical candidates.
LIPID-MODIFIED NUCLEIC ACID COMPOUNDS AND METHODS
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Paragraph 0555-0556, (2019/12/25)
Disclosed herein, inter alia, are lipid-modified nucleic acid compounds of the following structure, their preparation, and their use: (I).
Rhamnolipid inspired lipopeptides effective in preventing adhesion and biofilm formation of Candida albicans
Jovanovic, Milos,Radivojevic, Jelena,O'Connor, Kevin,Blagojevic, Stevan,Begovic, Biljana,Lukic, Vera,Nikodinovic-Runic, Jasmina,Savic, Vladimir
supporting information, p. 209 - 217 (2019/03/23)
Rhamnolipids are biodegradable low toxic biosurfactants which exert antimicrobial and anti-biofilm properties. They have attracted much attention recently due to potential applications in areas of bioremediation, therapeutics, cosmetics and agriculture, however, the full potential of these versatile molecules is yet to be explored. Based on the facts that many naturally occurring lipopeptides are potent antimicrobials, our study aimed to explore the potential of replacing rhamnose in rhamnolipids with amino acids thus creating lipopeptides that would mimic or enhance properties of the parent molecule. This would allow not only for more economical and greener production but also, due to the availability of structurally different amino acids, facile manipulation of physico-chemical and biological properties. Our synthetic efforts produced a library of 43 lipopeptides revealing biologically more potent molecules. The structural changes significantly increased, in particular, anti-biofilm properties against Candida albicans, although surface activity of the parent molecule was almost completely abolished. Our findings show that the most active compounds are leucine derivatives of 3-hydroxy acids containing benzylic ester functionality. The SAR study demonstrated a further increase in activity with aliphatic chain elongation. The most promising lipopeptides 15, 23 and 36 at 12.5 μg/mL concentration allowed only 14.3%, 5.1% and 11.2% of biofilm formation, respectively after 24 h. These compounds inhibit biofilm formation by preventing adhesion of C. albicans to abiotic and biotic surfaces.
