Andaloussi S, Mäger I, Breakefield XO, Wood MJ. Extracellular vesicles: biology and emerging therapeutic opportunities.Nat Rev Drug Discov2013;12:347-57.

Mathieu M,Lavieu G.Specificities of secretion and uptake of exosomes and other extracellular vesicles for cell-to-cell communication.Nat Cell Biol2019;21:9-17

Rädler J,Zickler A.Exploiting the biogenesis of extracellular vesicles for bioengineering and therapeutic cargo loading.Mol Ther2023;31:1231-50. PMCID:PMC10188647

Jeppesen DK,Franklin JL.Extracellular vesicles and nanoparticles: emerging complexities.Trends Cell Biol2023;33:667-81. PMCID:PMC10363204

Zhang X,Gu J.Engineered extracellular vesicles for cancer therapy.Adv Mater2021;33:e2005709

Munagala R,Jeyabalan J.Bovine milk-derived exosomes for drug delivery.Cancer Lett2016;371:48-61 PMCID:PMC4706492

Jeppesen DK,Franklin JL.Reassessment of exosome composition.Cell2019;177:428-445.e18 PMCID:PMC6664447

Buzas EI.The roles of extracellular vesicles in the immune system.Nat Rev Immunol2023;23:236-50 PMCID:PMC9361922

Raposo G.Extracellular vesicles - on the cusp of a new language in the biological sciences.Extracell Vesicles Circ Nucleic Acids2023;4:240-54.

Dooley K,Xu K.A versatile platform for generating engineered extracellular vesicles with defined therapeutic properties.Mol Ther2021;29:1729-43. PMCID:PMC8116569

Liang Y,Lu J.Engineering exosomes for targeted drug delivery.Theranostics2021;11:3183-95 PMCID:PMC7847680

Harding C,Stahl P.Endocytosis and intracellular processing of transferrin and colloidal gold-transferrin in rat reticulocytes: demonstration of a pathway for receptor shedding.Eur J Cell Biol1984;35:256-63

Buzas EI,Nagy G,Gay S.Emerging role of extracellular vesicles in inflammatory diseases.Nat Rev Rheumatol2014;10:356-64

Sidhom K,Saleem A.A review of exosomal isolation methods: is size exclusion chromatography the best option?.Int J Mol Sci2020;21:6466 PMCID:PMC7556044

Yang B,Shi J.Exosome biochemistry and advanced nanotechnology for next-generation theranostic platforms.Adv Mater2019;31:e1802896.

Gurunathan S,Jeyaraj M,Kim JH.Review of the isolation, characterization, biological function, and multifarious therapeutic approaches of exosomes.Cells2019;8:307 PMCID:PMC6523673

Tauro BJ,Mathias RA.Comparison of ultracentrifugation, density gradient separation, and immunoaffinity capture methods for isolating human colon cancer cell line LIM1863-derived exosomes.Methods2012;56:293-304.

Linares R,Gounou C,Brisson AR.High-speed centrifugation induces aggregation of extracellular vesicles.J Extracell Vesicles2015;4:29509. PMCID:PMC4689953

Van Deun J,Sormunen R.The impact of disparate isolation methods for extracellular vesicles on downstream RNA profiling.J Extracell Vesicles2014;3 PMCID:PMC4169610

Mol EA,Doevendans PA,Vader P.Higher functionality of extracellular vesicles isolated using size-exclusion chromatography compared to ultracentrifugation.Nanomedicine2017;13:2061-5

Contreras-Naranjo JC,Ugaz VM.Microfluidics for exosome isolation and analysis: enabling liquid biopsy for personalized medicine.Lab Chip2017;17:3558-77. PMCID:PMC5656537

Cheng Q,Yao B.Genetically engineered-cell-membrane nanovesicles for cancer immunotherapy.Adv Sci2023;10:e2302131 PMCID:PMC10502869

Jang SC,Yoon CM.Bioinspired exosome-mimetic nanovesicles for targeted delivery of chemotherapeutics to malignant tumors.ACS Nano2013;7:7698-710.

Fuhrmann G,Mazo M,Stevens MM.Active loading into extracellular vesicles significantly improves the cellular uptake and photodynamic effect of porphyrins.J Control Release2015;205:35-44

Haney MJ,Zhao Y.Exosomes as drug delivery vehicles for Parkinson's disease therapy.J Control Release2015;207:18-30 PMCID:PMC4430381

Jhan YY,Palou Zuniga G.Engineered extracellular vesicles with synthetic lipids via membrane fusion to establish efficient gene delivery.Int J Pharm2020;573:118802

Wen Y,Soliwoda A.Cell-derived nanovesicles prepared by membrane extrusion are good substitutes for natural extracellular vesicles.Extracell Vesicle2022;1:100004 PMCID:PMC9794200

Li J,Wun B,King MR.Genetic engineering of platelets to neutralize circulating tumor cells.J Control Release2016;228:38-47 PMCID:PMC4828270

Lewis ND,Kirwin K.Exosome surface display of IL12 results in tumor-retained pharmacology with superior potency and limited systemic exposure compared with recombinant IL12.Mol Cancer Ther2021;20:523-34

Wu WC,Xiao D.Engineered extracellular vesicles encapsulated Bryostatin-1 as therapy for neuroinflammation.Nanoscale2022;14:2393-410.

Xu F,Yang Q.Engineered extracellular vesicles with SHP2 high expression promote mitophagy for alzheimer's disease treatment.Adv Mater2022;34:e2207107

Lv P,Chen X.Genetically engineered cell membrane nanovesicles for oncolytic adenovirus delivery: a versatile platform for cancer virotherapy.Nano Lett2019;19:2993-3001

Zhang P,Qin Z.Genetically engineered liposome-like nanovesicles as active targeted transport platform.Adv Mater2018;30:1705350.

Liu C,Xiang X.A nanovaccine for antigen self-presentation and immunosuppression reversal as a personalized cancer immunotherapy strategy.Nat Nanotechnol2022;17:531-40

Komuro H,Lauro K.Advances of engineered extracellular vesicles-based therapeutics strategy.Sci Technol Adv Mater2022;23:655-81. PMCID:PMC9586594

Cheng Q,Han M,Lenz HJ.Reprogramming exosomes as nanoscale controllers of cellular immunity.J Am Chem Soc2018;140:16413-7. PMCID:PMC6469991

Cheng Q,Smbatyan G,Lenz HJ.Eliciting anti-cancer immunity by genetically engineered multifunctional exosomes.Mol Ther2022;30:3066-77 PMCID:PMC9481992

Xue T,Fang T.Cellular vesicles expressing PD-1-blocking scFv reinvigorate T cell immunity against cancer.Nano Res2022;15:5295-5304.

Lian Z.Functional peptide-based drug delivery systems.J Mater Chem B2020;8:6517-29

Tian Y,Song J.A doxorubicin delivery platform using engineered natural membrane vesicle exosomes for targeted tumor therapy.Biomaterials2014;35:2383-90.

Zhou Y,Liu M,Quan Y.Tumor-specific delivery of KRAS siRNA with iRGD-exosomes efficiently inhibits tumor growth.ExRNA2019;1:28.

Zhu Q,Yang Y.Embryonic stem cells-derived exosomes endowed with targeting properties as chemotherapeutics delivery vehicles for glioblastoma therapy.Adv Sci2019;6:1801899 PMCID:PMC6425428

Tao SC,Wei WJ.Polymeric coating on β-TCP scaffolds provides immobilization of small extracellular vesicles with surface-functionalization and ZEB1-Loading for bone defect repair in diabetes mellitus.Biomaterials2022;283:121465.

Kim MS,Zhao Y.Engineering macrophage-derived exosomes for targeted paclitaxel delivery to pulmonary metastases: in vitro and in vivo evaluations.Nanomedicine2018;14:195-204

Jang SC,Moniz RJ.ExoSTING, an extracellular vesicle loaded with STING agonists, promotes tumor immune surveillance.Commun Biol2021;4:497 PMCID:PMC8062530

Huang CC,Lu Y.Functionally engineered extracellular vesicles improve bone regeneration.Acta Biomater2020;109:182-94 PMCID:PMC8040700

Song Y,Lei S.Silk sericin patches delivering miRNA-29-enriched extracellular vesicles-decorated myoblasts (SPEED) enhances regeneration and functional repair after severe skeletal muscle injury.Biomaterials2022;287:121630.

McAndrews KM,Chronopoulos A,Kugeratski FG.Exosome-mediated delivery of CRISPR/Cas9 for targeting of oncogenic Kras(G12D) in pancreatic cancer.Life Sci Alliance2021;4:e202000875 PMCID:PMC8321670

Gee P,Okuzaki Y.Extracellular nanovesicles for packaging of CRISPR-Cas9 protein and sgRNA to induce therapeutic exon skipping.Nat Commun2020;11:1334 PMCID:PMC7070030

Yao X,Yoo K.Engineered extracellular vesicles as versatile ribonucleoprotein delivery vehicles for efficient and safe CRISPR genome editing.J Extracell Vesicles2021;10:e12076 PMCID:PMC7962171

Bai J,Liu R.Engineered targeting tLyp-1 exosomes as gene therapy vectors for efficient delivery of siRNA into lung cancer cells.Asian J Pharm Sci2020;15:461-71 PMCID:PMC7486479

Bellavia D,Calabrese G.Interleukin 3- receptor targeted exosomes inhibit in vitro and in vivo chronic myelogenous leukemia cell growth.Theranostics2017;7:1333-45 PMCID:PMC5399597

Lu M,Shao W.Photoactivatable silencing extracellular vesicle (pasev) sensitizes cancer immunotherapy.Adv Mater2022;34:e2204765.

Wu S,Pan J.Integrated nanorod-mediated PD-L1 downregulation in combination with oxidative-stress immunogene therapy against cancer.Adv Healthc Mater2023;12:e2300110

Haltom AR,Hensel J.Engineered exosomes targeting MYC reverse the proneural-mesenchymal transition and extend survival of glioblastoma.Extracell Vesicle2022;1:100014 PMCID:PMC10373511

Sun Q,Zhang C,Han Z.Immune checkpoint therapy for solid tumours: clinical dilemmas and future trends.Signal Transduct Target Ther2023;8:320 PMCID:PMC10460796

Ishida Y,Shibahara K.Induced expression of PD-1, a novel member of the immunoglobulin gene superfamily, upon programmed cell death.EMBO J1992;11:3887-95 PMCID:PMC556898

Freeman GJ,Iwai Y.Engagement of the PD-1 immunoinhibitory receptor by a novel B7 family member leads to negative regulation of lymphocyte activation.J Exp Med2000;192:1027-34 PMCID:PMC2193311

Latchman Y,Chernova T.PD-L2 is a second ligand for PD-1 and inhibits T cell activation.Nat Immunol2001;2:261-8

Kornepati AVR,Curiel TJ.Programmed death ligand 1 signals in cancer cells.Nat Rev Cancer2022;22:174-89

Li B,Li Y.Engineered T cell extracellular vesicles displaying PD-1 boost anti-tumor immunity.Nano Today2022;46:101606.

Zhang X,Wang J.PD-1 blockade cellular vesicles for cancer immunotherapy.Adv Mater2018;30:e1707112

Xu F,Xu J.Engineering of dendritic cell bispecific extracellular vesicles for tumor-targeting immunotherapy.Cell Rep2023;42:113138.

Li L,Meng F.Genetic engineering cellular vesicles expressing CD64 as checkpoint antibody carrier for cancer immunotherapy.Theranostics2021;11:6033-43. PMCID:PMC8058713

Fang W,Lin Z.Engineered IL-15/IL-15R α -expressing cellular vesicles promote T cell anti-tumor immunity.Extracell Vesicles2023;2:100021.

Tian T,Erel-Akbaba G.Immune checkpoint inhibition in GBM primed with radiation by engineered extracellular vesicles.ACS Nano2022;16:1940-53. PMCID:PMC9020451

Kuderer NM,Lustberg MB.Mitigating acute chemotherapy-associated adverse events in patients with cancer.Nat Rev Clin Oncol2022;19:681-97.

Keklikoglou I,Güç E.Chemotherapy elicits pro-metastatic extracellular vesicles in breast cancer models.Nat Cell Biol2019;21:190-202. PMCID:PMC6525097

Wills CA,Chen L.Chemotherapy-induced upregulation of small extracellular vesicle-associated PTX3 accelerates breast cancer metastasis.Cancer Res2021;81:452-63 PMCID:PMC7855036

Voloshin T,Kaneti L.Blocking IL1β pathway following paclitaxel chemotherapy slightly inhibits primary tumor growth but promotes spontaneous metastasis.Mol Cancer Ther2015;14:1385-94

Liu G,Qi F.Specific chemotherapeutic agents induce metastatic behaviour through stromal- and tumour-derived cytokine and angiogenic factor signalling.J Pathol2015;237:190-202

Zhang Z,Hu Y,Lee RJ.Application of lipid-based nanoparticles in cancer immunotherapy.Front Immunol2022;13:967505 PMCID:PMC9393708

Liu X,Yu T.CL4-modified exosomes deliver lncRNA DARS-AS1 siRNA to suppress triple-negative breast cancer progression and attenuate doxorubicin resistance by inhibiting autophagy.Int J Biol Macromol2023;250:126147.

Zhou W,Chen X.Pancreatic cancer-targeting exosomes for enhancing immunotherapy and reprogramming tumor microenvironment.Biomaterials2021;268:120546

Jaffray DA,Baumann M.Harnessing progress in radiotherapy for global cancer control.Nat Cancer2023;4:1228-38

Wan FZ,Sun YC.Exosomes overexpressing miR-34c inhibit malignant behavior and reverse the radioresistance of nasopharyngeal carcinoma.J Transl Med2020;18:12 PMCID:PMC6947927

Jiang J,Gong J.Radiosensitizer EXO-miR-197-3p inhibits nasopharyngeal carcinoma progression and radioresistance by regulating the AKT/mTOR axis and HSPA5-mediated autophagy.Int J Biol Sci2022;18:1878-95 PMCID:PMC8935226

Kamerkar S,Sugimoto H.Exosomes facilitate therapeutic targeting of oncogenic KRAS in pancreatic cancer.Nature2017;546:498-503 PMCID:PMC5538883

Goodnow CC.Multistep pathogenesis of autoimmune disease.Cell2007;130:25-35.

Fugger L,Rossjohn J.Challenges, progress, and prospects of developing therapies to treat autoimmune diseases.Cell2020;181:63-80

Foulis AK,Farquharson MA.Insulitis in type 1 (insulin-dependent) diabetes mellitus in man--macrophages, lymphocytes, and interferon-gamma containing cells.J Pathol1991;165:97-103

Katsarou A,Rawshani A.Type 1 diabetes mellitus.Nat Rev Dis Primers2017;3:17016

Zhang X,Wang J.Engineered PD-L1-expressing platelets reverse new-onset type 1 diabetes.Adv Mater2020;32:1907692

Becker MW,Myint T.Immune engineered extracellular vesicles to modulate T cell activation in the context of type 1 diabetes.Sci Adv2023;9:eadg1082. PMCID:PMC10765990

Ying W,Bandyopadhyay G.Adipose tissue macrophage-derived exosomal miRNAs can modulate in vivo and in vitro insulin sensitivity.Cell2017;171:372-84.e12

Deng ZB,Hardy RW.Adipose tissue exosome-like vesicles mediate activation of macrophage-induced insulin resistance.Diabetes2009;58:2498-505. PMCID:PMC2768161

Ying W,Dos Reis FCG.MiR-690, an exosomal-derived miRNA from M2-polarized macrophages, improves insulin sensitivity in obese mice.Cell Metab2021;33:781-790.e5 PMCID:PMC8035248

Ferrante SC,Pillai DK.Adipocyte-derived exosomal miRNAs: a novel mechanism for obesity-related disease.Pediatr Res2015;77:447-54. PMCID:PMC4346410

Li C,Xu H.Roles and mechanisms of exosomal non-coding RNAs in human health and diseases.Signal Transduct Target Ther2021;6:383 PMCID:PMC8578673

Kil LP,van Nimwegen M.Btk levels set the threshold for B-cell activation and negative selection of autoreactive B cells in mice.Blood2012;119:3744-56

Jin X,Pu C.Therapeutic efficacy of anti-CD19 CAR-T cells in a mouse model of systemic lupus erythematosus.Cell Mol Immunol2021;18:1896-903. PMCID:PMC8322088

Lee OJ,Korevaar SS.The importance of dosing, timing, and (in)activation of adipose tissue-derived mesenchymal stromal cells on their immunomodulatory effects.Stem Cells Dev2020;29:38-48

Liu YJ,Lin S.Current progress in treating systemic lupus erythematosus using exosomes/MicroRNAs.Cell Transplant2023;32:9636897221148775 PMCID:PMC9903023

Fang T,Li M.Engineered cell membrane vesicles expressing CD40 alleviate system lupus nephritis by intervening B cell activation.Small Methods2023;7:e2200925

Xu F,Dai H.Mesenchymal stem cell-derived extracellular vesicles with high PD-L1 expression for autoimmune diseases treatment.Adv Mater2022;34:2106265.

DeFronzo RA,Groop L.Type 2 diabetes mellitus.Nat Rev Dis Primers2015;1:15039

Dong J,Tian W.How to maximize the therapeutic effect of exosomes on skin wounds in diabetes mellitus: Review and discussion.Front Endocrinol2023;14:1146991 PMCID:PMC10083381

Zhang P,Jing Y,Zhu D.Global epidemiology of diabetic foot ulceration: a systematic review and meta-analysis^†.Ann Med2017;49:106-16.

Chen Q,Liu Y,Huang L.Exosome-based drug delivery systems for the treatment of diabetes and its complications: current opinion.Extracell Vesicles Circ Nucleic Acids2023;4:502-17

Falanga V,Soulika AM.Chronic wounds.Nat Rev Dis Primers2022;8:50 PMCID:PMC10352385

Gondaliya P,Bhat P.Mesenchymal stem cell-derived exosomes loaded with miR-155 inhibitor ameliorate diabetic wound healing.Mol Pharm2022;19:1294-308

Born LJ,Shoureshi P.HOTAIR-loaded mesenchymal stem/stromal cell extracellular vesicles enhance angiogenesis and wound healing.Adv Healthc Mater2022;11:e2002070 PMCID:PMC8522167

Chu Z,Ma K.Novel neutrophil extracellular trap-related mechanisms in diabetic wounds inspire a promising treatment strategy with hypoxia-challenged small extracellular vesicles.Bioact Mater2023;27:257-70 PMCID:PMC10133407

Zhang D,Li Z.MiR-144-5p, an exosomal miRNA from bone marrow-derived macrophage in type 2 diabetes, impairs bone fracture healing via targeting Smad1.J Nanobiotechnology2021;19:226 PMCID:PMC8327443

Wang N,Tang Z.Increased BMSC exosomal miR-140-3p alleviates bone degradation and promotes bone restoration by targeting Plxnb1 in diabetic rats.J Nanobiotechnology2022;20:97 PMCID:PMC8889728

Qiu P,Chen K.Periosteal matrix-derived hydrogel promotes bone repair through an early immune regulation coupled with enhanced angio- and osteogenesis.Biomaterials2020;227:119552

Lin Z,Meng W.Exosomal PD-L1 induces osteogenic differentiation and promotes fracture healing by acting as an immunosuppressant.Bioact Mater2022;13:300-11 PMCID:PMC8844834

Roth GA,Abajobir A.Global, regional, and national burden of cardiovascular diseases for 10 causes, 1990 to 2015.J Am Coll Cardiol2017;70:1-25.

Vagnozzi RJ,Sargent MA.An acute immune response underlies the benefit of cardiac stem cell therapy.Nature2020;577:405-9 PMCID:PMC6962570

Bolli R.Stem cells: cell therapy for cardiac repair: what is needed to move forward?.Nat Rev Cardiol2017;14:257-8

Sahoo S,Mathiyalagan P,Kafert-Kasting S.Therapeutic and diagnostic translation of extracellular vesicles in cardiovascular diseases: roadmap to the clinic.Circulation2021;143:1426-49 PMCID:PMC8021236

Du Y,Wang L,Lip GYH.Extracellular vesicles in cardiovascular diseases: From pathophysiology to diagnosis and therapy.Cytokine Growth Factor Rev2023;74:40-55

Ma J,Chen H.Advances in lncRNAs from stem cell-derived exosome for the treatment of cardiovascular diseases.Front Pharmacol2022;13:986683. PMCID:PMC9486024

Lai J,Guo Y.Engineered extracellular vesicles and their mimics in cardiovascular diseases.J Control Release2022;347:27-43.

Chen Y,Chen W.MicroRNA-133 overexpression promotes the therapeutic efficacy of mesenchymal stem cells on acute myocardial infarction.Stem Cell Res Ther2017;8:268 PMCID:PMC5702098

Wei Z,Zhao J.miRNA-181a over-expression in mesenchymal stem cell-derived exosomes influenced inflammatory response after myocardial ischemia-reperfusion injury.Life Sci2019;232:116632

Wei Z,Zhao Y.Mononuclear phagocyte system blockade using extracellular vesicles modified with CD47 on membrane surface for myocardial infarction reperfusion injury treatment.Biomaterials2021;275:121000.

Puhka M,Nordberg ME.Metabolomic Profiling of Extracellular Vesicles and Alternative Normalization Methods Reveal Enriched Metabolites and Strategies to Study Prostate Cancer-Related Changes.Theranostics2017;7:3824-41. PMCID:PMC5667407

Zhang M,Liu L.Engineered exosomes from different sources for cancer-targeted therapy.Signal Transduct Target Ther2023;8:124 PMCID:PMC10017761

Liu G,Chen G.The potential therapeutic value and application prospect of engineered exosomes in human diseases.Front Cell Dev Biol2022;10:1051380 PMCID:PMC9751586

Ovchinnikova LA,Ziganshin RH.Reprogramming extracellular vesicles for protein therapeutics delivery.Pharmaceutics2021;13:768 PMCID:PMC8224366

A Study of exoASO-STAT6 (CDK-004) in patients with advanced hepatocellular carcinoma (HCC) and patients with liver metastases from either primary gastric cancer or colorectal cancer (CRC). Available from: https://clinicaltrials.gov/study/NCT05375604#study-overview [Last accessed on 24 Jan 2024]

A phase 1/2a study of CDK-003 in patients with cutaneous T-cell lymphoma (CTCL). (Part B). Available from: https://clinicaltrials.gov/study/NCT05156229?term=NCT05156229&rank=1 [Last accessed on 24 Jan 2024]