The human urinary exosome as a potential metabolic effector cargo

Exosomes are nanovesicles, derived from the endocytic pathway, released by most cell types and found in many body fluids, including urine. A variety of exosomal functions have been reported, including transfer of RNA, cell communication, control of apoptosis and protein lifespan. Exosomes from mesenchymal stem cells can rescue bioenergetics of injured cells. Here the urinary exosome proteome, non-urinary exosome proteome and urinome are compared. A consistent number of identified proteins cluster to metabolic functions. Cytoscape software analysis based on biological processes gene ontology database shows that metabolic pathways such as aerobic glycolysis and oxidative phosphorylation have a high probability (p ≤ 0.05) of being expressed and therefore functional. A metabolic function appears to be associated with human urinary exosomes, whose relevance experimental studies can assess.     

Integrating Protein Engineering and Bioorthogonal Click Conjugation for Extracellular Vesicle Modulation and Intracellular Delivery

Exosomes are small, cell-secreted vesicles that transfer proteins and genetic information between cells. This intercellular transmission regulates many physiological and pathological processes. Therefore, exosomes have emerged as novel biomarkers for disease diagnosis and as nanocarriers for drug delivery. Here, we report an easy-to-adapt and highly versatile methodology to modulate exosome composition and conjugate exosomes for intracellular delivery. Our strategy combines the metabolic labeling of newly synthesized proteins or glycan/glycoproteins of exosome-secreting cells with active azides and bioorthogonal click conjugation to modify and functionalize the exosomes. The azide-integrated can be conjugated to a variety of small molecules and proteins and can efficiently deliver conjugates into cells. The metabolic engineering of exosomes diversifies the chemistry of exosomes and expands the functions that can be introduced into exosomes, providing novel, powerful tools to study the roles of exosomes in biology and expand the biomedical potential of exosomes.     

Exosomes as Tools to Suppress Primary Brain Tumor

Exosomes are small microvesicles released by cells that efficiently transfer their molecular cargo to other cells, including tumor. Exosomes may pass the blood–brain barrier and have been demonstrated to deliver RNAs contained within to brain. As they are non-viable, the risk profile of exosomes is thought to be less than that of cellular therapies. Exosomes can be manufactured at scale in culture, and exosomes can be engineered to incorporate therapeutic miRNAs, siRNAs, or chemotherapeutic molecules. As natural biological delivery vehicles, interest in the use of exosomes as therapeutic delivery agents is growing. We previously demonstrated a novel treatment whereby mesenchymal stromal cells were employed to package tumor-suppressing miR-146b into exosomes, which were then used to reduce malignant glioma growth in rat. The use of exosomes to raise the immune system against tumor is also drawing interest. Exosomes from dendritic cells which are antigen-presenting, and have been used for treatment of brain tumor may be divided into three categories: (1) exosomes for immunomodulation-based therapy, (2) exosomes as delivery vehicles for anti-tumor nucleotides, and (3) exosomes as drug delivery vehicles. Here, we will provide an overview of these three applications of exosomes to treat brain tumor, and examine their prospects on the long road to clinical use.     

肿瘤细胞来源的外泌体与恶性肿瘤的进展及化疗

外泌体是细胞分泌的一种纳米级囊泡结构,在血液、唾液、尿液等多种体液中均有分布.作为一类重要的细胞间通信分子,外泌体含有多种具有生物活性的成分,可通过多种方式在人体中发挥调节作用.目前在多种类型的细胞中均发现外泌体的存在,而肿瘤细胞来源的外泌体由于其本身的特性和功能特点,可通过微环境介导肿瘤细胞的增生、血管形成和免疫耐受,并可通过介导上皮-间质转化（epithelial-mesenchymal transition, EMT）
和胞内药物排斥反应等增加肿瘤细胞的化疗抵抗能力.同时,因其含有肿瘤细胞所分泌的特异性成分,因而可通过对外泌体中相关分子改变的检测,对疾病进行诊断和监测,并可为临床个体化用药提供新思路.     

Exosomes derived from RPE cells under oxidative stress mediate inflammation and apoptosis of normal RPE cells through Apaf1/caspase-9 axis

This study aims to explore the effects of exosomes, secreted by retinal pigment epithelial (RPE) cells under oxidative stress (OS), on apoptosis and inflammation of normal RPE cells. Exosomes secreted by normal RPE cells (named as exo) and rotenone (2.5 µmol/L) stimulated RPE cells (named as rot-exo) were isolated and extracted by multi-step differential centrifugation for morphology observation under a transmission electron microscopy. pcDNA3.1a, pcDNA3.1a-Apaf1, and p3xFlag-CMV-caspase-9 plasmids were constructed and transfected into ARPE-19 cells. Exosomes secreted by ARPE-19 cells were injected into the vitreous body of rats to verify the effect of Apaf1 and caspase-9 on cell apoptosis and inflammation. Co-immunoprecipitation was applied to clarify the interaction of Apaf1 with caspase-9. Exosomes secreted by rotenone stimulated ARPE-19 cells could induce cell apoptosis, oxidative injury, and inflammation in ARPE-19 cells. Exosomes secreted under OS can damage retinal functions of rats and have upregulated expression of Apaf1. Overexpression of Apaf1 in exosomes secreted under OS can cause the inhibition of cell proliferation, the increase of cell apoptosis and elicitation of inflammatory response in ARPE-19 cells. Exosomes derived from ARPE-19 cells under OS regulate Apaf1 expression to increase cell apoptosis and to induce oxidative injury and inflammatory response through a caspase-9 apoptotic pathway.     

A review on the stem cell therapy and an introduction to exosomes as a new tool in reproductive medicine

Stem cell therapy and exosome therapy are the two experimental methods that are now at the center of attention. Various types of stem cells, especially mesenchymal stem cells and spermatogonial stem cells have been widely administrated in reproductive medicine. However, due to the limitation of injecting living cells, using their paracrine secretions such as exosomes seems to be a better option. Exosomes show regenerative, pro-angiogenic, anti-apoptotic, anti-inflammatory, anti-hypoxic, and anti-fibrotic characteristics. They can induce cell proliferation, cell viability, migration, oogenesis, spermatogenesis, capacitation, acrosome reaction, and embryonic implantation. Exosomes have shown promising results in regenerative medicine such as liver fibrosis, stroke, cardiac ischemia, and skin injuries. Exosomes have been used to treat reproductive diseases such as erectile dysfunction and primary ovarian insufficiency. However, the study of exosomes in reproductive medicine is limited. In this article, we are going to review some of the researches on the use of stem cells and exosomes in reproductive medicine and suggest administration of a combination of exosomes for alleviating the symptoms of endometriosis and asthenozoospermia based on previous studies.     

Targeting endothelial exosomes for the prevention of cardiovascular disease

Exosomes are small lipid bilayer-enclosed 30–140 nm diameter vesicles formed from endosomes. Exosomes are secreted by various cell types including endothelial cells, immune cells and other cardiovascular tissues, and they can be detected in plasma, urine, cerebrospinal fluid, as well as tissues. Exosomes were initially regarded as a disposal mechanism to discard unwanted materials from cells. Recent studies suggest that exosomes play an important role in mediating of intercellular communication through the delivery and transport of cellular components such as nucleic acids, lipids, and proteins and thus regulate cardiovascular disease. Further, the underlying mechanisms by which abnormally released exosomes promote cardiovascular disease are not well understood. This review highlights recent studies involving endothelial exosomes, gives a brief overview of exosome biogenesis and release, isolation and identification of exosomes, and provides a contemporary understanding of the endothelial exosome pathophysiology and potential therapeutic strategies.     

间充质干细胞来源的外泌体的特性及其在疾病治疗中的作用

外泌体(exosomes)是细胞主动向外环境中分泌的纳米囊泡结构,通常直径在100纳米以下。外泌体是来源细胞与靶细胞之间的物质交换和信息交流的新型载体,可以携带效应分子直接被周围细胞摄取或经血液循环至全身,在正常的生理过程或疾病的发生发展中发挥精细的调控作用。作为一种旁分泌介质,间充质干细胞(mesenchymal stem cell, MSC）来源的外泌体(MSC-exosomes)能够起到与干细胞相似的生理作用。MSC-exosomes所携带的生物活性蛋白质、脂质及DNA、mRNA和非编码RNA等生物活性物质,可能是MSC发挥治疗作用的重要机制之一。本文针对外泌体的生物学来源和近年来MSC-exosomes的标志物与特异性内容物在产生释放、提取鉴定和生物学功能等方面的研究,以及未来的应用前景进行综述,有利于研究者们在该领域开展更深入的研究。     

Exosomes as new vesicular lipid transporters involved in cell–cell communication and various pathophysiologies

Exosomes are nanovesicles that have emerged as a new intercellular communication system between an intracellular compartment of a donor cell towards the periphery or an internal compartment of a recipient cell. The bioactivity of exosomes resides not only in their protein and RNA contents but also in their lipidic molecules. Exosomes display original lipids organized in a bilayer membrane and along with the lipid carriers such as fatty acid binding proteins that they contain, exosomes transport bioactive lipids. Exosomes can vectorize lipids such as eicosanoids, fatty acids, and cholesterol, and their lipid composition can be modified by in-vitro manipulation. They also contain lipid related enzymes so that they can constitute an autonomous unit of production of various bioactive lipids. Exosomes can circulate between proximal or distal cells and their fate can be regulated in part by lipidic molecules. Compared to their parental cells, exosomes are enriched in cholesterol and sphingomyelin and their accumulation in cells might modulate recipient cell homeostasis. Exosome release from cells appears to be a general biological process. They have been reported in all biological fluids from which they can be recovered and can be monitors of specific pathophysiological situations. Thus, the lipid content of circulating exosomes could be useful biomarkers of lipid related diseases. Since the first lipid analysis of exosomes ten years ago detailed knowledge of exosomal lipids has accumulated. The role of lipids in exosome fate and bioactivity and how they constitute an additional lipid transport system are considered in this review.     

Exosomal vesicles enhance immunosuppression in chronic inflammation: Impact in cellular senescence and the aging process

Exosomes represent an evolutionarily conserved signaling pathway which can act as an alarming mechanism in responses to diverse stresses, e.g. chronic inflammation activates the budding of exosomal vesicles in both immune and non-immune cells. Exosomes can contain both pro- and anti-inflammatory cargos but in chronic inflammation, exosomes mostly carry immunosuppressive cargos, e.g. enzymes and miRNAs. The aging process is associated with chronic low-grade inflammation and the accumulation of pro-inflammatory senescent cells into tissues. There is clear evidence that aging increases the number of exosomes in both the circulation and tissues. Especially, the secretion of immunosuppressive exosomes robustly increases from senescent cells. There are observations that the exosomes from senescent cells are involved in the expansion of senescence into neighbouring cells. Interestingly, the age-related exosomes contain immune suppressive cargos which enhance the immunosuppression within recipient immune cells, i.e. tissue-resident and recruited immune cells including M2 macrophages, myeloid-derived suppressor cells (MDSC), and regulatory T cells (Treg). It seems that increased immunosuppression with aging impairs the clearance of senescent cells and their accumulation within tissues augments the aging process.     

Sialoglycoproteins and N-Glycans from Secreted Exosomes of Ovarian Carcinoma Cells

Exosomes consist of vesicles that are secreted by several human cells, including tumor cells and neurons, and they are found in several biological fluids. Exosomes have characteristic protein and lipid composition, however, the results concerning glycoprotein composition and glycosylation are scarce. Here, protein glycosylation of exosomes from ovarian carcinoma SKOV3 cells has been studied by lectin blotting, NP-HPLC analysis of 2-aminobenzamide labeled glycans and mass spectrometry. An abundant sialoglycoprotein was found enriched in exosomes and it was identified by peptide mass fingerprinting and immunoblot as the galectin-3-binding protein (LGALS3BP). Exosomes were found to contain predominantly complex glycans of the di-, tri-, and tetraantennary type with or without proximal fucose and also high mannose glycans. Diantennary glycans containing bisecting N-acetylglucosamine were also detected. This work provides detailed information about glycoprotein and N-glycan composition of exosomes from ovarian cancer cells, furthermore it opens novel perspectives to further explore the functional role of glycans in the biology of exosomes.     

脂肪组织氧化应激与运动干预

脂肪组织在调控代谢稳态和运动适应中扮演着重要的角色。肥胖引起的脂肪组织氧化应激是2型糖尿病与代谢综合征等的重要病理特征,是促进脂肪组织炎症和胰岛素抵抗的重要机制。氧化应激可以引起脂肪细胞趋化因子表达,募集炎症细胞浸润脂肪组织,炎症细胞分泌大量的炎症因子,并促进了局部和系统的胰岛素抵抗与慢性炎症。运动对肥胖相关的慢性代谢病的有效干预与运动的抗氧化效应相关。本文总结了氧化应激在脂肪组织炎症和胰岛素抵抗中的作用,以及运动对脂肪组织氧化应激的调控。     

Are chicken embryos endotherms or ectotherms? A laboratory exercise integrating concepts in thermoregulation and metabolism

This investigative laboratory exercise uses the different relations between ambient temperature and metabolic rate in endotherms and ectotherms as a core concept to answer the following question: What thermoregulatory mode is employed by chicken embryos? Emphasis is placed on the physiological concepts that can be taught with this exercise, including methods for measuring rates of oxygen consumption, the relation between oxygen consumption and metabolic rate, the influence of temperature on metabolic rate, and the differences between endotherms and ectotherms both in the overall magnitude of metabolic rate and in the shape of the relation between metabolic rate and ambient temperature. Included in this article are respirometer designs suitable for teachers working with a wide variety of budgets and available equipment, specific laboratory protocols for collecting data, sample data, thought questions with sample answers, and suggestions for classroom implementation as a 1-, 2- or 3-wk laboratory exercise that can be taught at a variety of undergraduate levels.     

Cell to Cell Signalling via Exosomes Through esRNA

Exosomes are small vesicles of endosomal origin that can be released by many different cells to the microenvironment. Exosomes have been shown to participate in the immune system, by mediating antigen presentation. We have recently shown the presence of both mRNA and microRNA in exosomes, specifically in exosomes derived from mast cells. This RNA can be transferred between one mast cell to another, most likely through fusion of the exosome to the recipient cell membrane. The delivered RNA is functional, as the mRNA can lead to translation of new proteins in a recipient cell. The RNA shuttled between cells via exosomes is called esRNA. We propose that several types of exosomes may exist, and that an additional function of exosomes is to communicate to neighboring cells through delivery of RNA-signals.     

外泌体内mircoRNAs在肝癌中的作用

外泌体是细胞间重要的信息交流介质,包含多种活性分子,如蛋白质、脂类、DNA和微RNA（microRNA, miRNA）等,外泌体可从供体细胞分泌后直接或间接作用于受体细胞,进而影响细胞之间的生命活动。更有意义的是,外泌体内的miRNAs可在血液中稳定存在,且当肿瘤发生时出现异常表达,进而参与肿瘤的发生发展,影响肿瘤患者生存及预后。近年大量研究报道显示,外泌体内miRNAs可作为肝癌诊断的新生物标志物及治疗肝癌的潜在靶标。本文就近年来外泌体内miRNAs在肝癌中的表达及其临床应用进行综述。     

Salivary exosomes as a new therapy to ameliorate diabetes mellitus and combat xerostomia and submandibular salivary glands dysfunction in diabetic rats

Journal of Molecular Histology - Diabetes mellitus (DM) is one of the major metabolic diseases. Xerostomia and salivary gland dysfunction are of its common oral complications. Exosomes, as a new...     

细胞间信息交流的新载体——外泌体

外泌体(exosomes)是细胞分泌的纳米级别膜性小泡,在20世纪80年代初就已经被发现,但其在细胞间所起到的信息交流作用,直至最近才开始为人们所认知．应用大规模分析技术使得exosomes中的复杂成分不断被确定,因为其中的脂质、蛋白质和RNA成分在脂质膜的保护下具有充分的生物学活性,可有效发挥对受体细胞的调节作用,引起科学界的极大兴趣,逐渐成为研究热点之一．我们综述了近几年关于exosomes的研究成果,总结了其参与细胞间信息交流的三种主要方式,包括膜表面信号分子的直接作用、膜融合时内容物的胞内调节以及生物活性成分的释放调节．Exosomes的发现使得细胞间的信息交流更加精细和全面,尤其重要的是,它的发现揭示了存在于机体自身的RNA胞间转移途径．我们还进一步综述了exosomes的三种作用方式在神经系统及肿瘤发生发展中的作用,探讨了exosomes在疾病监测、自身免疫性疾病与缺血性疾病治疗中的临床应用价值．在基因治疗领域,由于具有安全有效的靶向运输能力,exosomes将有望成为理想的基因治疗载体．     

外泌体在肝纤维化中的作用

外泌体(exosomes)是一种能被大多数细胞分泌的微小膜泡,是具有脂质双层膜结构的细胞外囊泡。现认为外泌体是细胞外囊泡(extracellular vesicles, EVs)的一种亚群。研究表明,外泌体是细胞间信息传递的一种载体。肝脏既可以分泌外泌体,同时也是其他组织细胞产生的外泌体的作用靶点,且肝内与肝外来源的外泌体与肝纤维化的形成、发生、发展均有密切联系。本文主要就外泌体在肝纤维化相关疾病中的作用及外泌体与肝纤维化指标之间的关系进行综述。     

Exosomes: New players in cell-cell communication

Exosomes are small membrane vesicles of endosomal origin, which are secreted from a variety of cell types. During the 1980s exosomes were first described as organelles to remove cell debris and unwanted molecules. The discovery that exosomes contain proteins, messenger and microRNAs suggests a role as mediators in cell-to-cell communication. Exosomes can be transported between different cells and influence physiological pathways in the recipient cells. In the present review, we will summarize the biological function of exosomes and their involvement in physiological and pathological processes. Moreover, the potential clinical application of exosomes as biomarkers and therapeutic tools will be discussed.     

BCR-bound antigen is targeted to exosomes in human follicular lymphoma B-cells

BACKGROUND INFORMATION: Exosomes are small membrane vesicles secreted by several cell types during exocytic fusion of multivesicular bodies with the plasma membrane. Exosomes from tumour cells can transfer antigens from cell to cell, a property favouring antigen-specific immune responses in vitro and in vivo, and are thus an interesting putative therapeutic tool in human cancers. Exosomes have been well studied in EBV (Epstein-Barr virus)-transformed human B-cell lines; however, biological stimuli regulating exosome secretion quantitatively and/or qualitatively still remain poorly defined. RESULTS: We analysed the effect of the BCR stimulation on exosome release in the human follicular lymphoma B-cell line DOHH2. We found that BCR (B-cell receptor) triggering of DOHH2 cells induced the polarization of CD63(+) MHC class II compartments. Moreover, BCR stimulation increased the release of exosome-associated proteins in the extracellular space. Finally, we found that the BCR was expressed at the surface of exosomes, and could target a bound anti-human IgG to these vesicles. CONCLUSIONS: BCR can modulate the protein content of exosomes upon stimulation, and can target its bound antigen to these vesicles.