Liposome-based Systems for Anti-tumor Vaccination: Influence of Lipopeptide Adjuvants

We have developed liposome-based synthetic constructs incorporating peptide epitope(s) (ErbB2 p63-67 CTL which is overexpressed in many tumors and/or HA 307-319 T-helper) and lipopeptide adjuvants (Pam3CysSerSer, Pam3CysAlaGly) in order to elicit an anti-tumor immune response. The epitopes, derivatized with a linker containing a cysteine residue, were conjugated on preformed vesicles (dia. ～ 100 nm) containing lipopeptides functionalized with thiol reactive groups (maleimide or bromoacetyl). The therapeutic efficacy of these constructs was evaluated on a Balb/c mice tumor model inoculated with syngenic murine renal carcinoma (Renca) cells expressing human ErbB2 (Her2/neu) receptor. A successful therapeutic vaccination was obtained which was antigen specific. Furthermore, it appeared that the nature of the polar head group of the lipopeptide adjuvant and also its type of functionalization influence the efficacy of the construct. In our study, the best results were obtained with formulations containing a Pam₃CSS anchor in association with the CTL and Th epitopes. Considering these promising results studies are in progress with a new generation of liposomes that incorporate a neutral lipid – lacking adjuvant properties – that serves as anchor of the peptide epitopes and new adjuvants synthesized in our laboratory, which are screened for their antitumour activity in a therapeutic setting.     

Cyclic lipopeptides from Bacillus subtilis activate distinct patterns of defence responses in grapevine

Non‐self‐recognition of microorganisms partly relies on the perception of microbe‐associated molecular patterns (MAMPs) and leads to the activation of an innate immune response. Bacillus subtilis produces three main families of cyclic lipopeptides (LPs), namely surfactins, iturins and fengycins. Although LPs are involved in induced systemic resistance (ISR) activation, little is known about defence responses induced by these molecules and their involvement in local resistance to fungi. Here, we showed that purified surfactin, mycosubtilin (iturin family) and plipastatin (fengycin family) are perceived by grapevine plant cells. Although surfactin and mycosubtilin stimulated grapevine innate immune responses, they differentially activated early signalling pathways and defence gene expression. By contrast, plipastatin perception by grapevine cells only resulted in early signalling activation. Gene expression analysis suggested that mycosubtilin activated salicylic acid (SA) and jasmonic acid (JA) signalling pathways, whereas surfactin mainly induced an SA‐regulated response. Although mycosubtilin and plipastatin displayed direct antifungal activity, only surfactin and mycosubtilin treatments resulted in a local long‐lasting enhanced tolerance to the necrotrophic fungus Botrytis cinerea in grapevine leaves. Moreover, challenge with specific strains overproducing surfactin and mycosubtilin led to a slightly enhanced stimulation of the defence response compared with the LP‐non‐producing strain of B. subtilis. Altogether, our results provide the first comprehensive view of the involvement of LPs from B. subtilis in grapevine plant defence and local resistance against the necrotrophic pathogen Bo. cinerea. Moreover, this work is the first to highlight the ability of mycosubtilin to trigger an immune response in plants.     

Identification and Characterization of Novel Lipophilic Antimicrobial Peptides Derived from Naturally Occurring Proteins

Microbes are increasingly developing defensive mechanisms against known drugs via mutations. There are signs of emergence of superbugs immune to most known antibiotics available. The need for a new class of drugs to counteract this problem is of paramount importance for continued general well being of mankind. A new class of drugs, antimicrobial peptides, has not been fully exploited primarily due to high cytotoxicity, poor lipophilicity preventing systemic distribution and stability. We have synthesised 9-amino acid residue cationic peptides RH01 and RH02 lipidated with myristoyl and octyl groups respectively. These peptides exhibited potent antimicrobial activity and low cytotoxicity. The lipopeptide RH01 has antimicrobial activity against a broad range of microorganisms including bacteria, yeast and filamentous fungi with greatest activity toward Gram-positive bacteria, including S. aureus MRSA stain, MIC’s ranging between 2–8 μM. The MIC for Gram-negative bacteria was higher ranging from between 30–250 μM. RH01 also had antimicrobial activity towards fungi showing good activity against the pathogenic yeast Candida albicans but was less active towards the filamentous fungi Aspergillus niger. The antimicrobial activity of RH01 as a measure of Ki₍₅₀₎ for E. coli and S. aureus was 35–60 μM and 3–7 μM, respectively. In-house data showed the compound is bactericidal even at higher bacteria concentration. The octylated lipopeptide RH02 has similar activities towards S. aureus (3.3 μM) and E coli (53.3 μM) as the myristolated RH01. There was no haemolytic activity of the lipopeptide RH01 towards human blood. Acute intravenous toxicity study in mice showed that both RH01 and RH02 induced no macroscopic abnormalities at their highest non-lethal dose of 75 mg/kg and 150 mg/kg bodyweight, respectively.Australian Peptide Conference Issue.     

The plant-associated Bacillus amyloliquefaciens strains MEP2 18 and ARP2 3 capable of producing the cyclic lipopeptides iturin or surfactin and fengycin are effective in biocontrol of sclerotinia stem rot disease

Aims: This work was conducted to identify the antifungal compounds produced by two previously isolated Bacillus sp. strains: ARP₂3 and MEP₂18. Both strains were subjected to further analysis to determine their taxonomic position and to identify the compounds responsible for their antifungal activity as well as to evaluate the efficiency of these strains to control sclerotinia stem rot in soybean. Methods and Results: The antifungal compounds were isolated by acid precipitation of cell‐free supernatants, purified by RP‐HPLC and then tested for antagonistic activity against Sclerotinia sclerotiorum. Mass spectra from RP‐HPLC eluted fractions showed the presence of surfactin C₁₅, fengycins A (C₁₆–C₁₇) and B (C₁₆) isoforms in supernatants from strain ARP₂3 cultures, whereas the major lipopeptide produced by strain MEP₂18 was iturin A C₁₅. Alterations in mycelial morphology and sclerotial germination were observed in the presence of lipopeptides‐containing supernatants from Bacillus strains cultures. Foliar application of Bacillus amyloliquefaciens strains on soybean plants prior to S. sclerotiorum infection resulted in significant protection against sclerotinia stem rot compared with noninoculated plants or plants inoculated with a nonlipopeptide‐producing B. subtilis strain. Conclusions: Both strains, renamed as B. amyloliquefaciens ARP₂3 and MEP₂18, were able to produce antifungal compounds belonging to the cyclic lipopeptide family. Our data suggest that the foliar application of lipopeptide‐producing B. amyloliquefaciens strains could be a promising strategy for the management of sclerotinia stem rot in soybean. Significance and Impact of the Study: Sclerotinia stem rot was ranked as one of the most severe soybean disease in Argentina and worldwide. The results of this study showed the potential of B. amyloliquefaciens strains ARP₂3 and MEP₂18 to control plant diseases caused by S. sclerotiorum.     

生物表面活性剂Surfactin生产菌株的定向改造策略

表面活性素(Surfactin)是芽胞杆菌属(Bacillussp.)代谢产生的脂肽类生物表面活性剂,是由非核糖体肽合成酶(NRPS)催化而得的一种次级代谢产物。由于surfactin具有稳定性好、可被降解、表面活性好等理化性质以及抑菌、抗肿瘤等生物活性,在医药、农业、食品、化妆品、石油开采等方面都具有很大的应用潜力。但是,天然菌株产率低、生产成本高等特点限制了surfactin的规模化应用。本文对surfactin的合成机理进行了简要阐述,并针对目前提升surfactin产量和改变结构组分的4种定向改造策略(启动子工程、强化外排分泌、改造NRPS结构域和脂肪酸链合成酶系)进行了综述,最后对surfactin的研究方向进行了展望。     

Quorum sensing is a key regulator for the antifungal and biocontrol activity of chitinase‐producing Chromobacterium sp. C61

Chromobacterium sp. strain C61 has strong biocontrol activity; however, the genetic and biochemical determinants of its plant disease suppression activity are not well understood. Here, we report the identification and characterization of two new determinants of its biocontrol activity. Transposon mutagenesis was used to identify mutants that were deficient in fungal suppression. One of these mutants had an insertion in a homologue of depD, a structural gene in the dep operon, that encodes a protein involved in non‐ribosomal peptide synthesis. In the second mutant, the insertion was in a homologue of the luxI gene, which encodes a homoserine lactone synthase. The luxI^– and depD^– mutants had no antifungal activity in vitro and a dramatically reduced capacity to suppress various plant diseases in planta. Antifungal production and biocontrol were restored by complementation of the luxI^– mutant. Other phenotypes associated with effective biological control, including motility and lytic enzyme secretion, were also affected by the luxI mutation. Biochemical analysis of ethyl acetate extracts of culture filtrates of the mutant and wild‐type strains showed that a key antifungal compound, chromobactomycin, was produced by wild‐type C61 and the complemented luxI^– mutant, but not by the luxI^– or depD^– mutant. These data suggest that multiple biocontrol‐related phenotypes are regulated by homoserine lactones in C61. Thus, quorum sensing plays an essential role in the biological control potential of diverse bacterial lineages.     

微生物源脂肽的生物合成和分子调控

微生物源脂肽具有抑制真菌和细菌的生长、抗病毒和抗肿瘤等多种生物活性,在农业生物防治、临床医疗、环境治理等多种领域具有巨大的应用潜力。然而,低产量一直是影响其推广应用的瓶颈。深入了解脂肽合成的关键因素和调控策略对于提高其产量和纯度至关重要。本文概括了3大家族脂肽surfactin、fengycin和iturin的结构、功能及应用前景,介绍了NRPS和NRPS-PKS两种合成系统的结构域和功能,阐释了脂肽生物合成过程中侧链脂肪酸的合成、脂肪酸的活化及与氨基酸的连接、肽链的延伸和环化三个阶段的模块组装和酶催化活动,以及三大家族脂肽合成操纵子开放阅读框的组成;总结了导入或缺失关键基因、定点突变、模块替换、强启动子替换、修饰前体路径等多种遗传操作对脂肽产量的影响,以及群体感应肽信息素、sigma因子等全局调控因子对脂肽合成基因表达的调节。指出利用多组学联用深入探讨脂肽合成的全局分子调控机制和加强结构域蛋白互作和分子动力学研究是提高脂肽产量和纯度以及创造新脂肽的理论基础,提出了利用基因组装和编辑等合成生物学方法及代谢工程技术提高脂肽产量和挖掘新型脂肽靶向性的可能途径,为推进脂肽的生产和应用进程提供科学参考。     

Screening concepts,characterization and structural analysis of microbial-derived bioactive lipopeptides: a review

Lipopeptide biosurfactants are surface active biomolecules that are produced by a variety of microorganisms. Microbial lipopeptides have gained the interest of microbiologists, chemists and biochemists for their high biodiversity as well as efficient action, low toxicity and good biodegradability in comparison to synthetic counterparts. In this report, we review methods for the production, isolation and screening, purification and structural characterization of microbial lipopeptides. Several techniques are currently available for each step, and we describe the most commonly utilized and recently developed techniques in this review. Investigations on lipopeptide biosurfactants in natural products require efficient isolation techniques for the characterization and evaluation of chemical and biological properties. A combination of chromatographic and spectroscopic techniques offer opportunities for a better characterization of lipopeptide structures, which in turn can lead to the application of lipopeptides in food, pharmaceutical, cosmetics, agricultural and bioremediation industries.     

海洋微生物抗菌脂肽及新生物农药研发

近年来,微生物脂肽作为生物农药的研究与应用,在国内外得到了广泛重视,成为今后生物农药发展的一个重要方向。从不同生境分离获得多批海洋微生物,通过筛选抗植物病原真菌活性强的菌株,发酵、分离、纯化及鉴定其代谢产物,从3种芽胞杆菌中发现了6个新的抗菌脂肽,属于iturins和fengycin类化合物。芽胞杆菌的芽胞及脂肽可研发防治植物真菌病害新生物农药。