Delivery of Nucleic Acids, Proteins, and Nanoparticles by Arginine-Rich Cell-Penetrating Peptides in Rotifers

Cell-penetrating peptides (CPPs) are a group of short, membrane-permeable cationic peptides that represent a nonviral technology for delivering nanomaterials and macromolecules into live cells. In this study, two arginine-rich CPPs, HR9 and IR9, were found to be capable of entering rotifers. CPPs were able to efficiently deliver noncovalently associated with cargoes, including plasmid DNAs, red fluorescent proteins (RFPs), and semiconductor quantum dots, into rotifers. The functional reporter gene assay demonstrated that HR9-delivered plasmid DNAs containing the enhanced green fluorescent protein and RFP coding sequences could be actively expressed in rotifers. The 1-(4,5-dimethylthiazol-2-yl)-3,5-diphenylformazan assay further confirmed that CPP-mediated cargo delivery was not toxic to rotifers. Thus, these two CPPs hold a great potential for the delivery of exogenous genes, proteins, and nanoparticles in rotifers.     

Targeted nuclear delivery using peptide-coated quantum dots

Core/shell quantum dots (CdSe/Zns) conjugated with various nuclear localization signaling (NLS) peptides, which could facilitate the transportation of quantum dots across the plasma membrane into the nucleus, have been utilized to investigate the uptake mechanism of targeted delivery. Because of their brightness and photostability, it was possible to trace the trajectories of individual quantum dots in living cells using both confocal and total internal reflection microscopes. We found that, when the quantum dots were added to a cell culture, the peptide-coated quantum dots entered the cell nucleus while the uncoated quantum dots remained in the cytoplasm. At 8 nM, most of the peptide coated quantum dots were found in the cytoplasm due to aggregation. However, at a lower concentration (0.08 nM), approximately 25% of the NLS peptide-coated quantum dots entered the cell nucleus. We also found that some quantum dots without NLS coating could also enter the nucleus, suggesting that the size of the quantum dots may play an important role in such a process.     

运用 mRNA 体外展示技术筛选胸苷酸合成酶 RNA 亲和肽

以体外选择方法筛选不同功能的核酸、肽和蛋白质是近年的研究热点, mRNA 体外展示是一种新兴的高效多肽选择技术,其基本原理是通过含嘌呤霉素寡核苷酸的 Linker 使 mRNA 与它编码的肽或蛋白质共价结合,形成 mRNA- 蛋白质融合体,这一方法已用于多种功能肽的鉴定 . 以 mRNA 体外展示技术进行了由大容量多肽库中 (>1013) 筛选胸苷酸合成酶 (thymidylate synthase , TS) RNA 亲和肽的研究,通过精密的实验设计,建立了一套完整有效的筛选方法,并对实验条件进行了优化 . 已进行了 8 轮筛选,结果表明,以 mRNA 体外展示技术获得的多肽分子,可以与 TS mRNA 亲和 . 将测序结果与初始肽库进行比较,发现亲和肽中碱性氨基酸及芳香族氨基酸含量明显增加,说明其在与 RNA 结合中具有重要作用 . mRNA 展示技术作为一种大容量文库的体外筛选方法,将广泛应用于与固定化靶物质具高度亲和性及特异性的多肽和蛋白质的筛选 .     

Surface modification to reduce nonspecific binding of quantum dots in live cell assays

Nonspecific binding is a frequently encountered problem with fluorescent labeling of tissue cultures when labeled with quantum dots. In these studies various cell lines were examined for nonspecific binding. Evidence suggests that nonspecific binding is related to cell type and may be significantly reduced by functionalizing quantum dots with poly(ethylene glycol) ligands (PEG). The length of PEG required to give a significant reduction in nonspecific binding may be as short as 12-14 ethylene glycol units.     

Genome-Wide Prediction and Validation of Peptides That Bind Human Prosurvival Bcl-2 Proteins

Programmed cell death is regulated by interactions between pro-apoptotic and prosurvival members of the Bcl-2 family. Pro-apoptotic family members contain a weakly conserved BH3 motif that can adopt an alpha-helical structure and bind to a groove on prosurvival partners Bcl-x_L, Bcl-w, Bcl-2, Mcl-1 and Bfl-1. Peptides corresponding to roughly 13 reported BH3 motifs have been verified to bind in this manner. Due to their short lengths and low sequence conservation, BH3 motifs are not detected using standard sequence-based bioinformatics approaches. Thus, it is possible that many additional proteins harbor BH3-like sequences that can mediate interactions with the Bcl-2 family. In this work, we used structure-based and data-based Bcl-2 interaction models to find new BH3-like peptides in the human proteome. We used peptide SPOT arrays to test candidate peptides for interaction with one or more of the prosurvival proteins Bcl-x_L, Bcl-w, Bcl-2, Mcl-1 and Bfl-1. For the 36 most promising array candidates, we quantified binding to all five human receptors using direct and competition binding assays in solution. All 36 peptides showed evidence of interaction with at least one prosurvival protein, and 22 peptides bound at least one prosurvival protein with a dissociation constant between 1 and 500 nM; many peptides had specificity profiles not previously observed. We also screened the full-length parent proteins of a subset of array-tested peptides for binding to Bcl-x_L and Mcl-1. Finally, we used the peptide binding data, in conjunction with previously reported interactions, to assess the affinity and specificity prediction performance of different models.     

Targeting of Embryonic Stem Cells by Peptide-Conjugated Quantum Dots

Background

Targeting stem cells holds great potential for studying the embryonic stem cell and development of stem cell-based regenerative medicine. Previous studies demonstrated that nanoparticles can serve as a robust platform for gene delivery, non-invasive cell imaging, and manipulation of stem cell differentiation. However specific targeting of embryonic stem cells by peptide-linked nanoparticles has not been reported.

Methodology/Principal Findings

Here, we developed a method for screening peptides that specifically recognize rhesus macaque embryonic stem cells by phage display and used the peptides to facilitate quantum dot targeting of embryonic stem cells. Through a phage display screen, we found phages that displayed an APWHLSSQYSRT peptide showed high affinity and specificity to undifferentiated primate embryonic stem cells in an enzyme-linked immunoabsorbent assay. These results were subsequently confirmed by immunofluoresence microscopy. Additionally, this binding could be completed by the chemically synthesized APWHLSSQYSRT peptide, indicating that the binding capability was specific and conferred by the peptide sequence. Through the ligation of the peptide to CdSe-ZnS core-shell nanocrystals, we were able to, for the first time, target embryonic stem cells through peptide-conjugated quantum dots.

Conclusions/Significance

These data demonstrate that our established method of screening for embryonic stem cell specific binding peptides by phage display is feasible. Moreover, the peptide-conjugated quantum dots may be applicable for embryonic stem cell study and utilization.     

个性化肿瘤新抗原疫苗中抗原肽预测研究进展

失控的突变导致肿瘤的发生,其中某些非同义突变(错义、移码、融合)多肽,被蛋白酶体降解成短肽后被抗原提呈细胞(antigen-presenting cells,APCs)识别,呈递至引流淋巴结,符合主要组织相容性复合物(major histocompatibility complex,MHC)结合基序的短肽,继而被T细胞表面因子捕获而产生免疫反应,引发肿瘤的消退,我们称之为"新抗原"(neoantigens).这类抗原由于未受胸腺的阴性筛选,被T细胞识别为"异类",不易受免疫耐受机制的影响,从而可作为免疫介导肿瘤治疗的有效靶点.新一代测序技术极大推动了新抗原疫苗的可行性,但从测序识别肿瘤的体细胞突变到TCR (Tcell receptor)识别新抗原产生免疫反应,中间存在着大量的候选假阳性新抗原多肽,这对于针对新抗原而设计疫苗无疑是难以跨越的障碍.一套有效合理的筛选方法,是新抗原疫苗制备过程中不可或缺的一环.然而国内未见相关综述报道,本文调研了目前新抗原免疫治疗过程中的新抗原肽预测及筛选研究进展.     

长效多肽药物研究进展

重组蛋白药物在体内存留时间的长短,极大地影响到药物的使用剂量和治疗效果。防止多肽在体内迅速降解、延长半衰期成为蛋白质工程药物改造的重要课题之一。经过许多学者多年来的不懈研究,不少长效多肽药物已经上市,还有一些正在进行临床研究。综述了几种多肽药物常用的长效改造方法如化学修饰、基因融合、点突变以及药物制剂释放系统的改造。     

Function in the Immune System of Antigenic Peptides from S-Antigen (Arrestin)

A significant amount of information concerning immunologic domains of an antigenic molecule can be obtained by studying its peptides. We describe a method for identifying and characterizing immunologically relevant T-cell and B-cell epitopes in S-antigen, a well-characterized, highly pathogenic retinal autoantigen for the induction of experimental autoimmune uveitis. The method involves the generation of peptide fragments by enzymatic treatment of native S-antigen and by the simultaneous synthesis of large numbers of peptides in small quantities for screening and testing. Peptides demonstrating T- or B-cell activity are then synthesized in large quantity for additional studies. Although useful information was obtained by the use of enzymatically generated peptides, synthetic peptides provided the greatest flexibility and specificity, allowing the precise localization of amino acid sequences of S-antigen required for a particular immunological function such as antibody binding, T-cell proliferative responses, pathogenicity, and the induction of tolerance. These studies have wide applicability to the study of other antigenic molecules and have led to a better understanding of the immune mechanisms involved in the pathogenesis of experimental autoimmune uveitis. This, in turn, provides a basis for the processes that may be occurring in certain forms of human uveitis.     

Quantum dots laser desorption/ionization MS: multifunctional CdSe quantum dots as the matrix,concentrating probes and acceleration for microwave enzymatic digestion for peptide analysis and high resolution detection of proteins in a linear MALDI‐TOF MS

We report the first use of functionalized cadmium selinide quantum dots (CdSe QDs) with 11‐mercaptoundecanoic acid (MUA) as the matrix for the selective ionization of proteins with high resolution and rapid analysis of amino acids and peptides by using quantum dots laser desorption/ionization mass spectrometry (QDLDI‐MS). The mercaptocarboxylic groups of CdSe QDs have been known to be an effective affinity probe to interact with the biomolecules at low abundance level. Using these QDs as the matrix, sensitivity of the method was greatly enhanced and the LOQ of peptides was found to be 100 pM with RSD <10%. The QDLDI‐MS is capable for the selective ionization of insulin, lysozyme and myoglobin with high resolution, which is not observed with sinapic acid (SA) as the matrix. The QDLDI‐MS technique offers many advantages for the analysis of amino acids, peptides and proteins with regard to simplicity, rapidity, sensitivity and the mass spectra were generated in the presence of signal suppressors such as urea and Trition X‐100. In addition, the CdSe QDs have been successfully applied as preconcentrating probes for the analysis of digested peptides in lysozyme from chicken egg white by microwave‐assisted enzymatic digestion. This indicates that the QDs are able to absorb radiation from microwave and their ability to trap peptides from microwave‐digested lysozyme. These results demonstrate that the CdSe QDs are promising candidates for the selective ionization of the analytes with an accurate platform to the rapid screening of biomolecules.     

Identification of Four-Jointed Box 1 (FJX1)-Specific Peptides for Immunotherapy of Nasopharyngeal Carcinoma

Nasopharyngeal carcinoma (NPC) is highly prevalent in South East Asia and China. The poor outcome is due to late presentation, recurrence, distant metastasis and limited therapeutic options. For improved treatment outcome, immunotherapeutic approaches focusing on dendritic and autologous cytotoxic T-cell based therapies have been developed, but cost and infrastructure remain barriers for implementing these in low-resource settings. As our prior observations had found that four-jointed box 1 (FJX1), a tumor antigen, is overexpressed in NPCs, we investigated if short 9–20 amino acid sequence specific peptides matching to FJX1 requiring only intramuscular immunization to train host immune systems would be a better treatment option for this disease. Thus, we designed 8 FJX1-specific peptides and implemented an assay system to first, assess the binding of these peptides to HLA-A2 molecules on T2 cells. After, ELISPOT assays were used to determine the peptides immunogenicity and ability to induce potential cytotoxicity activity towards cancer cells. Also, T-cell proliferation assay was used to evaluate the potential of MHC class II peptides to stimulate the expansion of isolated T-cells. Our results demonstrate that these peptides are immunogenic and peptide stimulated T-cells were able to induce peptide-specific cytolytic activity specifically against FJX1-expressing cancer cells. In addition, we demonstrated that the MHC class II peptides were capable of inducing T-cell proliferation. Our results suggest that these peptides are capable of inducing specific cytotoxic cytokines secretion against FJX1-expressing cancer cells and serve as a potential vaccine-based therapy for NPC patients.     

The Negatively Charged Regions of Lactoferrin Binding Protein B,an Adaptation against Anti-Microbial Peptides

Lactoferrin binding protein B (LbpB) is a bi-lobed membrane bound lipoprotein that is part of the lactoferrin receptor complex in a variety of Gram-negative pathogens. Despite high sequence diversity among LbpBs from various strains and species, a cluster of negatively charged amino acids is invariably present in the protein’s C-terminal lobe in all species except Moraxella bovis. The function of LbpB in iron acquisition has yet to be experimentally demonstrated, whereas in vitro studies have shown that LbpB confers protection against lactoferricin, a short cationic antimicrobial peptide released from the N- terminus of lactoferrin. In this study we demonstrate that the negatively charged regions can be removed from the Neisseria meningitidis LbpB without compromising stability, and this results in the inability of LbpB to protect against the bactericidal effects of lactoferricin. The release of LbpB from the cell surface by the autotransporter NalP reduces the protection against lactoferricin in the in vitro killing assay, attributed to removal of LbpB during washing steps, but is unlikely to have a similar impact in vivo. The protective effect of the negatively charged polysaccharide capsule in the killing assay was less than the protection conferred by LbpB, suggesting that LbpB plays a major role in protection against cationic antimicrobial peptides in vivo. The selective release of LbpB by NalP has been proposed to be a mechanism for evading the adaptive immune response, by reducing the antibody binding to the cell surface, but may also provide insights into the primary function of LbpB in vivo. Although TbpB and LbpB have been shown to be major targets of the human immune response, the selective release of LbpB suggests that unlike TbpB, LbpB may not be essential for iron acquisition, but important for protection against cationic antimicrobial peptides.     

Peptides delivered by immunostimulating reconstituted influenza virosomes.

Vaccines have been well accepted and used effectively for more than 100 years. Traditional vaccines are generally composed of whole inactivated or attenuated microorganisms that have lost their disease-causing properties. These classical prophylactic live vaccines evoke protective immune responses, but have often been associated with an unfavorable safety profile, as observed, for example, for smallpox and polio myelitis vaccines [1,2]. First improvements were subunit vaccines that do not focus on attenuation of whole organisms but concentrate on particular proteins. These vaccines are able to generate protective immune responses (e.g. diphtheria, tetanus, pertussis)3. However, next generation vaccines should focus on specific antigens (e.g. proteins, peptides), since the requirements by regulatory authorities to crude biological material are becoming more stringent over time. An increasing number of such antigens capable of inducing protective humoral or cellular immune responses have been identified in the last few years. But most of these are weak immunogens. This reemphasizes the need for adjuvants to promote a potent immune response and also for delivery antigens to the immune system in an appropriate way (carrier capability). Here we review a new approach for prophylactic and therapeutic vaccines, which focuses on the induction of highly specific immune responses directed against antigen-derived peptides using a suitable carrier system.     

抗菌肽在宿主防御中作用

抗菌肽广泛地存在于自然界中,其中许多抗菌肽具有直接抗微生物活性,能作用于G-、 G+细菌、真菌、寄生虫甚至是包膜病毒,并且在宿主先天免疫和适应性反应中有重要的调节作用。近来,越来越多的证据表明抗菌肽是有效的免疫辅助因子,能够与其他的众多免疫效应子协同作用,从而起始适应性免疫,促进伤口愈合,抑制前炎症反应以及诱导和调节细胞因子和趋化因子的产生。另外,随着抗菌肽作用机理逐渐被揭开,将这些内源性肽及其衍生物制成抗感染治疗药剂将会有广阔的应用前景。     

A two-photon excitation fluorescence cross-correlation assay for a model ligand-receptor binding system using quantum dots

Two-photon excitation fluorescence cross-correlation spectroscopy (TPE-XCS) is a very suitable method for studying interactions of two distinctly labeled fluorescent molecules. As such, it lends itself nicely to the study of ligand-receptor interactions. By labeling the ligand with one color of fluorescent dye and the receptor with another, it is possible to directly monitor ligand binding rather than inferring binding by monitoring downstream effects. One challenge of the TPE-XCS approach is that of separating the signal due to the receptor from that of the ligand. Using standard organic fluorescent labels there is almost inevitably spectral cross talk between the detection channels, which must be accounted for in TPE-XCS data analysis. However, using quantum dots as labels for both ligand and receptor this limitation can be alleviated, because of the dot's narrower emission spectra. Using solely quantum dots as fluorescent labels is a novel approach to TPE-XCS, which may be generalizable to many pairs of interacting biomolecules after the proof of principle and the assessment of limitations presented here. Moreover, it is essential that relevant pharmacological parameters such as the equilibrium dissociation constant, K(d), can be easily extracted from the XCS data with minimal processing. Herein, we present a modified expression for fractional occupancy based on the auto- and cross-correlation decays obtained from a well-defined ligand-receptor system. Nanocrystalline semiconductor quantum dots functionalized with biotin (lambda(em) = 605 nm) and streptavidin (lambda(em) = 525 nm) were used for which an average K(d) value of 0.30 +/- 0.04 x 10(-9) M was obtained (cf. native system approximately 10(-15)). Additionally, the off-rate coefficient (k(off)) for dissociation of the two quantum dots was determined as 5 x 10(-5) s(-1). This off-rate is slightly larger than for native biotin-streptavidin (5 x 10(-6) s(-1)); the bulky nature of the quantum dots and restricted motion/orientation of functionalized dots in solution can account for differences in the streptavidin-biotin mediated dot-dot binding compared with those for native streptavidin-biotin.     

与人类疾病相关的淀粉样短肽

有些天然蛋白质可通过错误折叠形成淀粉样纤维,并进一步沉积导致淀粉样病变,被认为是许多重大人类疾病的病理基础。因此,阐明天然蛋白质错误折叠、聚集形成淀粉样纤维的分子机制,是预防、诊断和治疗相关疾病的关键。研究者们从天然蛋白质中鉴定出许多能够形成淀粉样纤维的关键短肽片段,即淀粉样短肽,对它们形成淀粉样纤维的能力及其在完整蛋白质聚集过程中的决定性作用进行深入研究。本文对近年来人类疾病相关淀粉样短肽的研究展开综述。首先,介绍鉴定淀粉样短肽的标准及其相应的研究方法和技术手段;并回顾近年来与一些重大人类疾病相关的淀粉样短肽,尤其是与神经退行性疾病相关淀粉样短肽的进展情况,对淀粉样短肽中出现频率较高的氨基酸残基及其可能的自组装原理进行总结分析;最后,展望这些淀粉样短肽作为靶点在相关疾病诊断和治疗方面的意义,并初步探讨它们作为新型生物材料在生物医学工程领域的应用前景。本文一方面为阐明天然蛋白质形成淀粉样沉淀的分子机制提供参考,另一方面也为相关疾病的治疗提供思路,同时也为新型生物材料的开发提出潜在的可能性。     

FISH and immunocytochemistry: towards visualising single target molecules in living cells

Knowledge of how molecules interact in space and time is crucial for understanding cellular processes. A host of novel techniques have been developed for the visualisation of single target molecules in living cells, many based on fluorescence in situ hybridisation (FISH) or immunocytochemistry (IC). To extend the applicability of FISH to living cells, special backbone-modified probes and specific conformations (molecular beacons) have been designed. In the case of IC, conventional immunoreagents have been fine-tuned with respect to size and affinity or replaced with new protein scaffolds based on ankyrin repeat proteins. Other key advances include the use of proximity ligation to confirm vicinity binding and the use of quantum dots, which have proven potential for cellular labelling.     

Expression and Purification of Isotopically Enriched MHC Binding Immunogenic Peptides for NMR Studies

Peptides are important naturally occurring ligands of MHC molecules. X-ray crystallographic studies have enabled extensive characterization of such peptide ligands. Yet structural and dynamic changes of these peptides in the MHC bound state are not well understood. These conformational transitions are key to understanding the function of MHC molecules and for the development of peptide-based therapeutics. Employing NMR for such studies can fill this gap but it requires the availability of peptides labeled with NMR-active nuclei. Here we report production of nine-mer MHC-binding peptides for use in high resolution NMR studies. The method utilizes a fusion protein approach of attaching the peptide to an easily expressed bacterial protein. The fusion protein construct design allows for rapid purification of the fusion protein and avoids chemical modification of the peptide as a result of the cleavage reaction. The methods developed here allow for rapid cloning of additional MHC binding peptides without significant molecular biology effort. 8?C10 mg of mature freeze dried peptides can be obtained from 1 liter of minimal media, sufficient for NMR experimentation. Six uniformly ¹⁵N-labeled peptides have been successfully expressed in bacteria and NMR spectra with the expected number of well-resolved signals were recorded. The results obtained here will make peptide-MHC complexes amenable to structural analysis which has not been possible previously.     

Annelid Endocrine Disruptors and a Survey of Invertebrate FMRFamide-Related Peptides

There is a growing body of literature describing the actionsof endocrine disruptors on annelids. These pollutants causedecreases in growth and reproductive output, delay sexual maturation,and inhibit the immune system in annelids. More studies areneeded to determine the mechanisms that underlie these responses.Most invertebrate endocrine disruptor research focuses on steroids.In recent years many new invertebrate peptide hormones includingthose related to the molluscan peptide FMRFamide have been identified.Since the storage of these peptides can be inhibited by steroidsduring insect metamorphosis, they may be affected by endocrinedisruptors. Therefore, it is worthwhile to give a brief overviewof this peptide family to those studying endocrine disruptionin invertebrates with the hope that they may begin to considerthese peptides in their future research. In 1977 Price and Greenbergisolated FMRFamide from the cerebral ganglia of the clam, Macrocallistanimbosa. Since then researchers have used bioassays and immunoassaysto identify a large number of FMRFamide-related peptides (FaRPs)from many invertebrate phyla. Even more peptides are predictedby the FaRP genes that have been sequenced. FaRPs have a varietyof functions and act as neurotransmitters, neuromodulators,or neurohormones. Each function is species and tissue specific.Most FaRP receptors are linked to a second messenger system.However, at least one is a ligand gated sodium channel. On goingstudies are examining FaRPs from the molecular to organismallevel.