Small extracellular vesicles containing arginase-1 suppress T-cell responses and promote tumor growth in ovarian carcinoma

Czystowska-Kuźmicz, Małgorzata; Sosnowska, Anna; Nowis, Dominika; Ramji, Kavita; Szajnik, Marta; Chlebowska-Tuz, Justyna; Wolińska, Ewa; Gaj, Paweł; Grażul, Magdalena; Pilch, Zofia; Zerrouqi, Abdessamad; Graczyk-Jarzynka, Agnieszka; Soroczynska, Karolina; Cierniak, Szczepan; Koktysz, Robert; Elishaev, Esther; Gruca, Sławomir; Stefanowicz, Artur; Błaszczyk, Roman; Borek, Bartłomiej; Gzik, Anna; Whiteside, Theresa L.; Gołąb, Jakub

doi:10.1038/s41467-019-10979-3

Cited by 201 publications

(172 citation statements)

References 63 publications

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“…Further studies by Liu and colleagues reported that also mice glioblastoma cells-EVs promote in vivo tumor cell growth by inhibiting CD8+T cell cytolytic activity [57]. In more recent studies, Maybruck and colleagues correlated the EV-mediated dysfunction of CD8+T cells, in head and neck cancer, with the presence of the immunoregulatory protein, galectin-1 [58], while in ovarian carcinoma, tumor EVs inhibit the proliferation of CD4+ and CD8+ T cells by delivering the metabolic checkpoint molecule arginase-1 [59]. One of the major mechanisms by which tumor cells can inhibit CD8+ T cell functions is correlated with activation of immune checkpoints as that mediated by the PD-1/PD-L1 pathway.…”

Section: Tevs and T Lymphocyte Cellsmentioning

confidence: 99%

Extracellular Vesicles and Tumor-Immune Escape: Biological Functions and Clinical Perspectives

Raimondo

Pucci

Alessandro

et al. 2020

IJMS

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The modulation of the immune system is one of the hallmarks of cancer. It is now widely described that cancer cells are able to evade the immune response and thus establish immune tolerance. The exploration of the mechanisms underlying this ability of cancer cells has always attracted the scientific community and is the basis for the development of new promising cancer therapies. Recent evidence has highlighted how extracellular vesicles (EVs) represent a mechanism by which cancer cells promote immune escape by inducing phenotypic changes on different immune cell populations. In this review, we will discuss the recent findings on the role of tumor-derived extracellular vesicles (TEVs) in regulating immune checkpoints, focusing on the PD-L1/PD-1 axis.

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Section: Tevs and T Lymphocyte Cellsmentioning

confidence: 99%

Extracellular Vesicles and Tumor-Immune Escape: Biological Functions and Clinical Perspectives

Raimondo

Pucci

Alessandro

et al. 2020

IJMS

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“…Another role of ascites-derived exosomes is to serve as the immunosuppressor. Arginase-1 (ARG1)-carrying exosomes accelerate ovarian cancer growth by suppressing T-cells Phosphatidylserine in ascites inhibits T-cell activity and Fas ligand induces the apoptosis of T-cells [41][42][43] Labani-Motlagh et al reported that phosphatidylserine, natural-killer receptor group 2, member D (NKG2D) and DNX accessory molecule-1 (DNAM-1) ligands in ascites-derived exosomes inhibited NK cell activity, resulting in immune suppression [40]. As described above, exosomes contribute to multiple steps during invasive processes and to early steps in peritoneal dissemination and metastasis.…”

Section: Roles Of Exosomes During Ovarian Cancer Progressionmentioning

confidence: 99%

“…Thereafter, CAF-derived exosomes promote epithelial-mesenchymal transition to ovarian cancer cells[48,49]. (4) Ovarian cancer cell-derived exosomes inhibit immune cells and facilitates the conversion of macrophages to tumor-associated macrophages[38,[40][41][42]44,45]. (B) The involvement of exosomes in peritoneal dissemination (5).…”

mentioning

confidence: 99%

Pathophysiological Role and Potential Therapeutic Exploitation of Exosomes in Ovarian Cancer

Shimizu

Sawada

Kimura

2020

Cells

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Exosomes are extracellular vesicles involved in several biological and pathological molecules and can carry many bioactive materials to target cells. They work as important mediators of cell-cell communication and play essential roles in many diseases, especially in cancer. Ovarian cancer is one of the most common gynecological malignancies. Most patients are diagnosed at advanced stages involving widespread peritoneal dissemination, resulting in poor prognosis. Emerging evidence has shown that exosomes play vital roles throughout the progression of ovarian cancer. Moreover, the development of engineered exosome-based therapeutic applications— including drug delivery systems, biomolecular targets and immune therapy—has increased drastically. Herein, we review the functional features of exosomes in ovarian cancer progression and the therapeutic application potential of exosomes as novel cancer treatments.

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“…Indeed, the ability of many soluble protein-dependent mechanisms to alter distant DC function such as in draining lymph node tissues is more limited. The recent realization that tumor-derived exosomes are capable of genetically altering distant immune cell populations implies that these extracellular vesicles and their molecular cargo are likely to be very important players in DC tolerization and tumor-mediated immune evasion (54,55,77).…”

Section: Wnt Ligandsmentioning

confidence: 99%

Role of Tumor-Mediated Dendritic Cell Tolerization in Immune Evasion

et al. 2019

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The vast majority of cancer-related deaths are due to metastasis, a process that requires evasion of the host immune system. In addition, a significant percentage of cancer patients do not benefit from our current immunotherapy arsenal due to either primary or secondary immunotherapy resistance. Importantly, select subsets of dendritic cells (DCs) have been shown to be indispensable for generating responses to checkpoint inhibitor immunotherapy. These observations are consistent with the critical role of DCs in antigen cross-presentation and the generation of effective anti-tumor immunity. Therefore, the evolution of efficient tumor-extrinsic mechanisms to modulate DCs is expected to be a potent strategy to escape immunosurveillance and various immunotherapy strategies. Despite this critical role, little is known regarding the methods by which cancers subvert DC function. Herein, we focus on those select mechanisms utilized by developing cancers to co-opt and tolerize local DC populations. We discuss the reported mechanisms utilized by cancers to induce DC tolerization in the tumor microenvironment, describing various parallels between the evolution of these mechanisms and the process of mesenchymal transformation involved in tumorigenesis and metastasis, and we highlight strategies to reverse these mechanisms in order to enhance the efficacy of the currently available checkpoint inhibitor immunotherapies.

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Small extracellular vesicles containing arginase-1 suppress T-cell responses and promote tumor growth in ovarian carcinoma

Cited by 201 publications

References 63 publications

Extracellular Vesicles and Tumor-Immune Escape: Biological Functions and Clinical Perspectives

Extracellular Vesicles and Tumor-Immune Escape: Biological Functions and Clinical Perspectives

Pathophysiological Role and Potential Therapeutic Exploitation of Exosomes in Ovarian Cancer

Role of Tumor-Mediated Dendritic Cell Tolerization in Immune Evasion

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