High-throughput screening identified selective inhibitors of exosome biogenesis and secretion: A drug repurposing strategy for advanced cancer

Datta, Amrita; Kim, Hogyoung; McGee, Lauren; Johnson, Adedoyin; Talwar, Sudha; Marugán, Juan; Southall, Noel; Hu, Xin; Lal, Madhu; Mondal, Debasis; Ferrer, Marc; Abdel-Mageed, Asim B.

doi:10.1038/s41598-018-26411-7

Cited by 205 publications

(196 citation statements)

References 50 publications

(51 reference statements)

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“…GW4869 and manumycin-A were the first and few molecules known to inhibit exosome secretion [6,20]. Recently, prostate cancer cells were screened with small molecules to test their effects on exosome production [5,6], but the molecules identified in that screen (tipifarnib, nitrefazole, pentetrazol, etc.) have not been tested or shown to work in other cell types [5], despite evidence of cell type-specific effects of small molecules on exosome secretion [6].…”

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…A recent screening approach in prostate cancer cells identified 23 significant exosome stimulators and inhibitors [5], with fenoterol, norepinephrine, forskolin, methyldopamine, and mephenesin the top five stimulators. However, the screen was limited to a single prostate cancer cell type, and the identified molecules have yet to be tested or shown to work in other cell types [5,6]. Given that manumycin-A, a microbial metabolite, inhibits exosome secretion in C4-2B castration-resistant prostate cancer cells but not in normal RWPE-1 cells, it is possible that small molecule modulators have different effects on different cell types [6].…”

Section: Introductionmentioning

confidence: 99%

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Boosting the biogenesis and secretion of mesenchymal stem cell-derived exosomes

Wang

Bonacquisti

Nguyen

2020

Preprint

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A limitation to using exosomes to their fullest potential is their limited secretion from cells, a major bottleneck to efficient exosome production and application. This is especially true for mesenchymal stem cell (MSCs), which can self-renew but have limited expansion capacity, undergoing senescence after only a few passages, with exosomes derived from senescent stem cells showing impaired regenerative capacity compared to young cells. Here we examined the effects of small molecule modulators capable of enhancing exosome secretion from MSCs. Treatment of MSCs with a combination of methyldopamine and norepinephrine robustly increased exosome production by three-fold without altering the ability of the MSC exosomes to induce angiogenesis, polarize macrophages to the anti-inflammatory phenotype, or inhibit fibrosis. These small molecule modulators provide a promising means to increase exosome production by MSCs.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Boosting the biogenesis and secretion of mesenchymal stem cell-derived exosomes

Wang

Bonacquisti

Nguyen

2020

Preprint

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“…Mounting evidence indicates that changes in cancer cells and the tumor microenvironment can regulate the biogenesis, composition, and function of TDEs, however relative little is known about many of these processes, which could offer new avenues for tumor interventions. Indeed, at least one recent study has utilized a high‐throughput screening approach to identify the potential of repurposed drugs to act as selective inhibitors of exosome biogenesis . This approach represents a tempting means to limit the negative local and systemic effects of TDEs on tumor development and metastasis, including their effects on the antitumor immune response.…”

Section: Concluding Remarks and Future Perspectivementioning

confidence: 99%

“…Indeed, at least one recent study has utilized a high-throughput screening approach to identify the potential of repurposed drugs to act as selective inhibitors of exosome biogenesis. 188 This approach represents a tempting means to limit the negative local and systemic effects of TDEs on tumor development and metastasis, including their effects on the antitumor immune response. However, since all cells appear to secrete exosomes, this type of intervention appears likely to cause significant side-effects unless drugs can be identified that target tumorselective mechanisms regulating exosome biogenesis.…”

Section: Concluding Remarks and Future Perspectivementioning

confidence: 99%

Tumor‐derived exosomes (TDEs): How to avoid the sting in the tail

Wan

Ning

Spiegel

et al. 2019

Medicinal Research Reviews

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Exosomes are abundantly secreted extracellular vesicles that accumulate in the circulation and are of great interest for disease diagnosis and evaluation since their contents reflects the phenotype of their cell of origin. Tumor‐derived exosomes (TDEs) are of particular interest for cancer diagnosis and therapy, since most tumor demonstrate highly elevated exosome secretion rates and provide specific information about the genotype of a tumor and its response to treatment. TDEs also contain regulatory factors that can alter the phenotypes of local and distant tissue sites and alter immune cell functions to promote tumor progression. The abundance, information content, regulatory potential, in vivo half‐life, and physical durability of exosomes suggest that TDEs may represent a superior source of diagnostic biomarkers and treatment targets than other materials currently under investigation. This review will summarize current information on mechanisms that may differentially regulate TDE biogenesis, TDE effects on the immune system that promote tumor survival, growth, and metastasis, and new approaches understudy to counteract or utilize TDE properties in cancer therapies.

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Growth Media Conditions Influence the Secretion Route and Release Levels of Engineered Extracellular Vesicles

Bost

Saher

Hagey

et al. 2021

Adv Healthcare Materials

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Extracellular vesicles (EVs) are nanosized cell-derived vesicles produced by all cells, which provide a route of intercellular communication by transmitting biological cargo. While EVs offer promise as therapeutic agents, the molecular mechanisms of EV biogenesis are not yet fully elucidated, in part due to the concurrence of numerous interwoven pathways which give rise to heterogenous EV populations in vitro. The equilibrium between the EV-producing pathways is heavily influenced by factors in the extracellular environment, in such a way that can be taken advantage of to boost production of engineered EVs. In this study, a quantifiable EV-engineering approach is used to investigate how different cell media conditions alter EV production. The presence of serum, exogenous EVs, and other signaling factors in cell media alters EV production at the physical, molecular, and transcriptional levels. Further, it is demonstrated that the ceramide-dependent EV biogenesis route is the major pathway to production of engineered EVs during optimized EV-production. These findings suggest a novel understanding to the mechanisms underlying EV production in cell culture which can be applied to develop advanced EV production methods.

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High-throughput screening identified selective inhibitors of exosome biogenesis and secretion: A drug repurposing strategy for advanced cancer

Cited by 205 publications

References 50 publications

Boosting the biogenesis and secretion of mesenchymal stem cell-derived exosomes

Boosting the biogenesis and secretion of mesenchymal stem cell-derived exosomes

Tumor‐derived exosomes (TDEs): How to avoid the sting in the tail

Growth Media Conditions Influence the Secretion Route and Release Levels of Engineered Extracellular Vesicles

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