The therapeutic potential of immune cell-derived exosomes as an alternative to adoptive cell transfer

Adoptive cell transfer (ACT), a form of cell-based immunotherapy that eliminates cancer by restoring and strengthening the body’s immune system, has revolutionized cancer treatment. ACT entails intravenous transfer of either tumor-resident or peripheral blood-modified immune cells into cancer patients to mediate anti-tumor response. Although these immune cells control and eradicate cancer via enhanced cytotoxicity against specific tumor antigens, several side effects have been frequently reported in clinical trials. Recently, exosomes, potential cell-free therapeutics, have emerged as an alternative to cell-based immunotherapies, due to their higher stability under same storage condition, lower risk of GvHD and CRS, and higher resistance to immunosuppressive tumor microenvironment. Exosomes, which are nano-sized lipid vesicles, are secreted by living cells, including immune cells. Exosomes contain proteins, lipids, and nucleic acids, and the functional role of each exosome is determined by the specific cargo derived from parental cells. Exosomes derived from cytotoxic effectors including T cells and NK cells exert anti-tumor effects via proteins such as granzyme B and FasL. In this mini-review, we describe the current understanding of the ACT and immune cell-derived exosomes and discuss the limitations of ACT and the opportunities for immune cell-derived exosomes as immune therapies.     

Tumor-derived exosomes confer antigen-specific immunosuppression in a murine delayed-type hypersensitivity model

Exosomes are endosome-derived small membrane vesicles that are secreted by most cell types including tumor cells. Tumor-derived exosomes usually contain tumor antigens and have been used as a source of tumor antigens to stimulate anti-tumor immune responses. However, many reports also suggest that tumor-derived exosomes can facilitate tumor immune evasion through different mechanisms, most of which are antigen-independent. In the present study we used a mouse model of delayed-type hypersensitivity (DTH) and demonstrated that local administration of tumor-derived exosomes carrying the model antigen chicken ovalbumin (OVA) resulted in the suppression of DTH response in an antigen-specific manner. Analysis of exosome trafficking demonstrated that following local injection, tumor-derived exosomes were internalized by CD11c+ cells and transported to the draining LN. Exosome-mediated DTH suppression is associated with increased mRNA levels of TGF-β1 and IL-4 in the draining LN. The tumor-derived exosomes examined were also found to inhibit DC maturation. Taken together, our results suggest a role for tumor-derived exosomes in inducing tumor antigen-specific immunosuppression, possibly by modulating the function of APCs.     

The Role of Exosomes in Pancreatic Cancer Microenvironment

Exosomes are nanovesicles shed by cells as a means of communication with other cells. Exosomes contain mRNAs, microRNAs (miRs) and functional proteins. In the present paper, we develop a mathematical model of tumor–immune interaction by means of exosomes shed by pancreatic cancer cells and dendritic cells. Cancer cells’ exosomes contain miRs that promote their proliferation and that inhibit immune response by dendritic cells, and by CD4+ and CD8+ T cells. Dendritic cells release exosomes with proteins that induce apoptosis of cancer cells and that block regulatory T cells. Simulations of the model show how the size of the pancreatic cancer can be determined by measurement of specific miRs (miR-21 and miR-203 in the case of pancreatic cancer), suggesting these miRs as biomarkers for cancer.     

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.     

外泌体在免疫调控及肿瘤发生中的功能

已知细胞间的信息交流不仅可以通过直接接触,或释放信号分子等方式,同时还存在另一种细胞通讯方式即释放外泌体。外泌体是由细胞分泌,直径为30～100 nm的囊泡结构。外泌体含有蛋白质、脂质、mRNAs和miRNAs等成分,并且能够靶向运输到其他细胞或组织中,从而在细胞间的信息交流、物质传递方面发挥重要作用。本文对外泌体的基本特征、形成过程、功能以及在疾病诊断与治疗中的应用等方面进行简要综述,重点介绍外泌体在免疫调控和肿瘤发生方面的功能。外泌体作为一种广泛存在的亚细胞成分,虽然体积小,组成成分简单,然而,其复杂功能具有重要的研究价值。对外泌体功能的深入了解将为肿瘤等疾病的预防和治疗提供更多的诊断标志物、疫苗以及治疗思路与手段。     

Itinerant exosomes: emerging roles in cell and tissue polarity

Cells use secreted signals (e.g. chemokines and growth factors) and sophisticated vehicles such as argosomes, cytonemes, tunneling nanotubes and exosomes to relay important information to other cells, often over large distances. Exosomes, 30-100-nm intraluminal vesicles of multivesicular bodies (MVB) released upon exocytic fusion of the MVB with the plasma membrane, are increasingly recognized as a novel mode of cell-independent communication. Exosomes have been shown to function in antigen presentation and tumor metastasis, and in transmitting infectious agents. However, little is known about the biogenesis and function of exosomes in polarized cells. In this review, we discuss new evidence suggesting that exosomes participate in the transport of morphogens and RNA, and thus influence cell polarity and developmental patterning of tissues.     

Exosomes and immune surveillance of neoplastic lesions: a review

The immune system has been reported to suppress the development and progression of neoplastic lesions; however, the exact mechanisms by which neoplastic lesions and the immune system interact are not well understood. Within the last decade, tiny membrane bound particles, approximately 30-100 nm in diameter, have been observed in the blood and other body fluids. These particles, currently called exosomes, are released from many types of tissues including tumors, and they contain and carry many proteins, and mRNAs and microRNA species. We review here how tumors suppress the immune system, especially by the formation of exosomes. Exosomes released from tumors are carried in part by the vascular system to distant cells, which phagocytose them. Depending on the proteins, mRNAs or microRNAs in the exosomes and the cell type, phagocytosis of exosomes may provide a modulating signal to the cell. In the case of exosomes from tumors, uptake of the exosomes by cells of the immune system has been reported to have three main effects: 1) suppression of the number and activity of natural killer cells, 2) suppression of the activity of T cells and 3) suppression of the number and maturation of mature dendritic cells.     

Identification of Double-stranded Genomic DNA Spanning All Chromosomes with Mutated KRAS and p53 DNA in the Serum Exosomes of Patients with Pancreatic Cancer

Exosomes are small vesicles (50–150 nm) of endocytic origin that are released by many different cell types. Exosomes in the tumor microenvironment may play a key role in facilitating cell-cell communication. Exosomes are reported to predominantly contain RNA and proteins. In this study, we investigated whether exosomes from pancreatic cancer cells and serum from patients with pancreatic ductal adenocarcinoma contain genomic DNA. Our results provide evidence that exosomes contain >10-kb fragments of double-stranded genomic DNA. Mutations in KRAS and p53 can be detected using genomic DNA from exosomes derived from pancreatic cancer cell lines and serum from patients with pancreatic cancer. In addition, using whole genome sequencing, we demonstrate that serum exosomes from patients with pancreatic cancer contain genomic DNA spanning all chromosomes. These results indicate that serum-derived exosomes can be used to determine genomic DNA mutations for cancer prediction, treatment, and therapy resistance.     

Molecular characterization of dendritic cell-derived exosomes. Selective accumulation of the heat shock protein hsc73.

Exosomes are membrane vesicles secreted by hematopoietic cells upon fusion of late multivesicular endosomes with the plasma membrane. Dendritic cell (DC)-derived exosomes induce potent antitumor immune responses in mice, resulting in the regression of established tumors (Zitvogel, L., A. Regnault, A. Lozier, J. Wolfers, C. Flament, D. Tenza, P. Ricciardi-Castagnoli, G. Raposo, and S. Amigorena. 1998. Nat. Med. 4:594-600). To unravel the molecular basis of exosome-induced immune stimulation, we now analyze the regulation of their production during DC maturation and characterize extensively their protein composition by peptide mass mapping. Exosomes contain several cytosolic proteins (including annexin II, heat shock cognate protein hsc73, and heteromeric G protein Gi2alpha), as well as different integral or peripherally associated membrane proteins (major histocompatibility complex class II, Mac-1 integrin, CD9, milk fat globule-EGF-factor VIII [MFG-E8]). MFG-E8, the major exosomal component, binds integrins expressed by DCs and macrophages, suggesting that it may be involved in exosome targeting to these professional antigen-presenting cells. Another exosome component is hsc73, a cytosolic heat shock protein (hsp) also present in DC endocytic compartments. hsc73 was shown to induce antitumor immune responses in vivo, and therefore could be involved in the exosome's potent antitumor effects. Finally, exosome production is downregulated upon DC maturation, indicating that in vivo, exosomes are produced by immature DCs in peripheral tissues. Thus, DC-derived exosomes accumulate a defined subset of cellular proteins reflecting their endosomal biogenesis and accounting for their biological function.     

Recent progress in the emerging role of exosome in hepatocellular carcinoma

Exosomes are small membrane vesicles 50‐150 nm in diameter released by a variety of cells, which contain miRNAs, mRNAs and proteins with the potential to regulate signalling pathways in recipient cells. Exosomes deliver nucleic acids and proteins to participate in orchestrating cell‐cell communication and microenvironment modulation. In this review, we summarize recent progress in our understanding of the role of exosomes in hepatocellular carcinoma (HCC). This review focuses on recent studies on HCC exosomes, considering biogenesis, cargo and their effects on the development and progression of HCC, including chemoresistance, epithelial‐mesenchymal transition, angiogenesis, metastasis and immune response. Finally, we discuss the clinical application of exosomes as a therapeutic agent for HCC.     

Mesenchymal stem cells-derived exosomal microRNAs contribute to wound inflammation

Clinical and experimental studies have highlighted the significance of inflammation in coordinating wound repair and regeneration.However,it remains challenging to control the inflammatory response and tolerance at systemic levels without causing toxicity to injured tissues.Mesenchymal stem cells(MSCs) possess potent immunomodulatory properties and facilitate tissue repair by releasing exosomes,which generate a suitable microenvironment for inflammatory resolution.Exosomes contain several effective bioactive molecules and act as a cell-cell communication vehicle to influence cellular activities in recipient cells.During this process,the horizontal transfer of exosomal microRNAs(miRNAs) to acceptor cells,where they regulate target gene expression,is of particular interest for understanding the basic biology of inflammation ablation,tissue homeostasis,and development of therapeutic approaches.In this review,we describe a signature of three specific miRNAs(miR-21,miR-146 a,and miR-181) present in human umbilical cord MSC-derived exosomes(MSC-EXO) identified microarray chip analysis and focus on the inflammatory regulatory functions of these immune-related miRNAs.We also discuss the potential mechanisms contributing to the resolution of wound inflammation and tissue healing.     

Hsp90 inhibitors as senolytic drugs to extend healthy aging

Aging is characterized by progressive decay of biological systems and although it is not considered a disease, it is one of the main risk factors for chronic diseases and many types of cancers. The accumulation of senescent cells in various tissues is thought to be a major factor contributing to aging and age-related diseases. Removal of senescent cells during aging by either genetic or therapeutic methods have led to an improvement of several age related disease in mice. In this preview, we highlight the significance of developing senotherapeutic approaches to specifically kill senescent cells (senolytics) or suppress the senescence-associated secretory phenotype (SASP) that drives sterile inflammation (senomorphics) associated with aging to extend healthspan and potentially lifespan. Also, we provide an overview of the senotherapeutic drugs identified to date. In particular, we discuss and expand upon the recent identification of inhibitors of the HSP90 co-chaperone as a new class of senolytics.     

A diet defined by its content of bovine milk exosomes and their RNA cargos has moderate effects on gene expression,amino acid profiles and grip strength in skeletal muscle in C57BL/6 mice

Exosomes are nanoparticles that transfer cargos from donor cells to recipient cells where they elicit changes in gene expression and metabolism. Evidence suggests that exosomes and their cargos are also absorbed from dietary sources such as bovine milk, and bovine exosomes promote the growth of myofibers in murine C2C12 myotube cell cultures. The aim of the current study was to determine whether the dietary intake of bovine milk exosomes alters strength, gene expression and amino acid profiles in murine skeletal muscles. Male and female C57BL/6 mice, age three weeks, were fed an AIN93G-based, exosome and RNA-depleted (ERD) diet for six weeks; controls were fed an exosome and RNA-sufficient (ERS) diet. Variables of feeding behavior, metabolism, grip strength, liver and kidney function, amino acid profiles, and gene expression patterns were analyzed by using metabolic cages, grip strength analyzers, clinical chemistry analyzers, targeted LC/MS–MS, and RNA sequencing analysis. The diets had no effect on food and water intake, respiratory exchange rate, physical activity, grip strength, markers of liver and kidney dysfunction, and amino acid profiles in muscle. Only twelve and nine mRNAs were differentially expressed in skeletal muscle from female and male mice, respectively, fed ERD and ERS diets. The modest effect of the ERD diet on gene expression and levels of free amino acids in skeletal muscle is consistent with observations that bovine milk exosomes and their cargos accumulate in tissues other than skeletal muscle.     

Exosomes derived from M. Bovis BCG infected macrophages activate antigen-specific CD4+ and CD8+ T cells in vitro and in vivo

Activation of both CD4(+) and CD8(+) T cells is required for an effective immune response to an M. tuberculosis infection. However, infected macrophages are poor antigen presenting cells and may be spatially separated from recruited T cells, thus limiting antigen presentation within a granuloma. Our previous studies showed that infected macrophages release from cells small membrane-bound vesicles called exosomes which contain mycobacterial lipid components and showed that these exosomes could stimulate a pro-inflammatory response in na?ve macrophages. In the present study we demonstrate that exosomes stimulate both CD4(+) and CD8(+) splenic T cells isolated from mycobacteria-sensitized mice. Although the exosomes contain MHC I and II as well as costimulatory molecules, maximum stimulation of T cells required prior incubation of exosomes with antigen presenting cells. Exosomes isolated from M. bovis and M. tuberculosis infected macrophages also stimulated activation and maturation of mouse bone marrow-derived dendritic cells. Interestingly, intranasal administration of mice with exosomes isolated from M. bovis BCG infected macrophages induce the generation of memory CD4(+) and CD8(+) T cells. The isolated T cells also produced IFN-gamma upon restimulation with BCG antigens. The release of exosomes from infected macrophages may overcome some of the defects in antigen presentation associated with mycobacterial infections and we suggest that exosomes may be a promising M. tuberculosis vaccine candidate.     

Suppression of inflammation by tumor-derived exosomes: a kind of natural liposome packaged with multifunctional proteins

Exosomes are small-membrane vesicles secreted by hematopoietic and malignant epithelial cells as well as trophoblasts. The composition of cancerous exosomes has been proven to play pivotal roles in the maintenance of the microenvironment that is beneficial for the progression of cancer, such as Fas-ligand–triggered lymphocyte apoptosis. We supposed that the immunosuppressive effect of cancerous exosomes might be helpful in the treatment of diseases characterized by overactivation of the immune system and subsequent tissue injury. The aim of this study was to evaluate the protective effect of tumor-derived exosomes in the mice model of lipopolysaccharide (LPS)-induced inflammation. Tetrazolium (MTT) and DNA electrophoresis were used to measure the cytotoxicity of exosomes on lymphocytes. Pathologic observation of tissue sections, serologic analysis of aspartate aminotransferase/alanine aminotransferase (AST/ALT), and urinary analysis of protein were used to assess the protection effect of exosomes in LPS-induced multiorgan damage. In vitro outcomes of MTT and DNA electrophoresis showed the cytotoxicity of exosomes on lymphocytes. Together with the alleviation of organ damages evaluated by urine protein, serum AST/ALT, and pathologic analysis, we confirmed the possibility that pretreatment of mice with exosomes, produced by H22 hepatic tumor cells, resulted in protection against LPS-induced tissue damage, which is caused by overactivation of the immune system and inflammation response. This therapeutic strategy will raise an interesting way to search new therapeutics in pairs of diseases with complementarities in etiology and pathology, namely, a strategy of taking advantage of the mutual complementarities between diseases.     

细胞衰老与衰老细胞

细胞衰老(cellular senescence)是一个应激导致细胞生长停滞的生理过程．一部分发生衰老的细胞会被机体自身清除,但另一些衰老的细胞会随着时间的推移在体内积累增多,并分泌一些免疫刺激因子,导致低水平炎症发生,引起周围组织衰老或癌变,这类具有特殊生物学特征和功能的细胞就是衰老细胞(senescent cell)．实验揭示,衰老细胞不仅是衰老过程的产物,也可能是组织器官进一步衰退的重要原因．近日,Baker等的一项研究成果(Nature,2011,479(7372)：232-236)表明,清除衰老细胞可延缓小鼠的衰老进程,该成果有望开辟出一条对抗衰老的新途径．     

MHC class II+ exosomes in plasma suppress inflammation in an antigen-specific and Fas ligand/Fas-dependent manner

Exosomes are 50- to 100-nm vesicles that are formed within the late endocytic compartment and released from a variety of cell types. Previously, we demonstrated that exosomes derived from dendritic cells transduced with adenoviral vectors expressing IL-10, IL-4, or Fas ligand (FasL) produce anti-inflammatory exosomes able to reduce inflammation in a murine paw delayed-type hypersensitivity model, suppress the onset on murine collagen-induced arthritis, and reduce the severity of established collagen-induce arthritis. In this study, we examined the ability of endogenous, blood-borne exosomes to regulate the immune response. Exosomes isolated from plasma of mice immunized to keyhole limpet hemocyanin, but not from naive or OVA-immunized mice, were able to suppress the keyhole limpet hemocyanin-specific delayed-type hypersensitivity inflammatory response. The anti-inflammatory effect was mediated by MHC class II(+) plasma exosomes that were also FasL(+) and CD11b(+), but CD11c(-). Moreover, the anti-inflammatory effect of the MHC class II(+) plasma-derived exosomes was, in part, dependent upon the presence of FasL in the exosomes and Fas in the recipient mouse. These results suggest that exosomes in the plasma, produced by MHC class II(+) and CD11b(+) cells, have the ability to suppress the immune response in an Ag-specific manner in part through a Fas/FasL-dependent manner.     

外泌体：探究微生物感染机制的新视角

外泌体是细胞外囊泡的一种,由多囊泡体和细胞膜融合后释放到细胞外。外泌体能递送有功能的分子,包括蛋白质、脂质和核酸给受体细胞,参与细胞间通讯,影响细胞的各种生理与病理功能。近年来,越来越多研究发现,外泌体在病原微生物感染性疾病发病机制中也发挥重要作用。在慢性感染中,外泌体能传播感染性蛋白质和病毒RNA,并改变未感染细胞的功能。同时,这些具有极强免疫原性的蛋白质可向免疫系统递送病原信息,激活免疫系统。本文就外泌体在慢性病原体感染中的相关研究进展进行综述。研究这些机制,可为慢性感染的诊断和治疗提供新的思路。     

Exosome function: from tumor immunology to pathogen biology

Exosomes are the newest family member of 'bioactive vesicles' that function to promote intercellular communication. Exosomes are derived from the fusion of multivesicular bodies with the plasma membrane and extracellular release of the intraluminal vesicles. Recent studies have focused on the biogenesis and composition of exosomes as well as regulation of exosome release. Exosomes have been shown to be released by cells of hematopoietic and non-hematopoietic origin, yet their function remains enigmatic. Much of the prior work has focused on exosomes as a source of tumor antigens and in presentation of tumor antigens to T cells. However, new studies have shown that exosomes might also promote cell-to-cell spread of infectious agents. Moreover, exosomes isolated from cells infected with various intracellular pathogens, including Mycobacterium tuberculosis and Toxoplasma gondii , have been shown to contain microbial components and can promote antigen presentation and macrophage activation, suggesting that exosomes may function in immune surveillance. In this review, we summarize our understanding of exosome biogenesis but focus primarily on new insights into exosome function. We also discuss their possible use as disease biomarkers and vaccine candidates.