IL-10 dampens antitumor immunity and promotes liver metastasis via PD-L1 induction

Background &amp; Aims: The liver is one of the organs most commonly affected by metastasis. The presence of liver metastases has been reported to be responsible for an immunosuppressive microenvironment and diminished immunotherapy efficacy. Herein, we aimed to investigate the role of IL-10 in liver metastasis and to determine how its modulation could affect the efficacy of immunotherapy in vivo. Methods: To induce spontaneous or forced liver metastasis in mice, murine cancer cells (MC38) or colon tumor organoids were injected into the cecum or the spleen, respectively. Mice with complete and cell type-specific deletion of IL-10 and IL-10 receptor alpha were used to identify the source and the target of IL-10 during metastasis formation. Programmed death ligand 1 (PD-L1)-deficient mice were used to test the role of this checkpoint. Flow cytometry was applied to characterize the regulation of PD-L1 by IL-10. Results: We found that Il10-deficient mice and mice treated with IL-10 receptor alpha antibodies were protected against liver metastasis formation. Furthermore, by using IL-10 reporter mice, we demonstrated that Foxp3+ regulatory T cells (Tregs) were the major cellular source of IL-10 in liver metastatic sites. Accordingly, deletion of IL-10 in Tregs, but not in myeloid cells, led to reduced liver metastasis. Mechanistically, IL-10 acted on Tregs in an autocrine manner, thereby further amplifying IL-10 production. Furthermore, IL-10 acted on myeloid cells, i.e. monocytes, and induced the upregulation of the immune checkpoint protein PD-L1. Finally, the PD-L1/PD-1 axis attenuated CD8-dependent cytotoxicity against metastatic lesions. Conclusions: Treg-derived IL-10 upregulates PD-L1 expression in monocytes, which in turn reduces CD8+ T-cell infiltration and related antitumor immunity in the context of colorectal cancer-derived liver metastases. These findings provide the basis for future monitoring and targeting of IL-10 in colorectal cancer-derived liver metastases. Impact and implications: Liver metastasis diminishes the effectiveness of immunotherapy and increases the mortality rate in patients with colorectal cancer. We investigated the role of IL-10 in liver metastasis formation and assessed its impact on the effectiveness of immunotherapy. Our data show that IL-10 is a pro-metastatic factor involved in liver metastasis formation and that it acts as a regulator of PD-L1. This provides the basis for future monitoring and targeting of IL-10 in colorectal cancer-derived liver metastasis.</p

IL-10 dampens antitumor immunity and promotes liver metastasis via PD-L1 induction

Background &amp; Aims: The liver is one of the organs most commonly affected by metastasis. The presence of liver metastases has been reported to be responsible for an immunosuppressive microenvironment and diminished immunotherapy efficacy. Herein, we aimed to investigate the role of IL-10 in liver metastasis and to determine how its modulation could affect the efficacy of immunotherapy in vivo. Methods: To induce spontaneous or forced liver metastasis in mice, murine cancer cells (MC38) or colon tumor organoids were injected into the cecum or the spleen, respectively. Mice with complete and cell type-specific deletion of IL-10 and IL-10 receptor alpha were used to identify the source and the target of IL-10 during metastasis formation. Programmed death ligand 1 (PD-L1)-deficient mice were used to test the role of this checkpoint. Flow cytometry was applied to characterize the regulation of PD-L1 by IL-10. Results: We found that Il10-deficient mice and mice treated with IL-10 receptor alpha antibodies were protected against liver metastasis formation. Furthermore, by using IL-10 reporter mice, we demonstrated that Foxp3+ regulatory T cells (Tregs) were the major cellular source of IL-10 in liver metastatic sites. Accordingly, deletion of IL-10 in Tregs, but not in myeloid cells, led to reduced liver metastasis. Mechanistically, IL-10 acted on Tregs in an autocrine manner, thereby further amplifying IL-10 production. Furthermore, IL-10 acted on myeloid cells, i.e. monocytes, and induced the upregulation of the immune checkpoint protein PD-L1. Finally, the PD-L1/PD-1 axis attenuated CD8-dependent cytotoxicity against metastatic lesions. Conclusions: Treg-derived IL-10 upregulates PD-L1 expression in monocytes, which in turn reduces CD8+ T-cell infiltration and related antitumor immunity in the context of colorectal cancer-derived liver metastases. These findings provide the basis for future monitoring and targeting of IL-10 in colorectal cancer-derived liver metastases. Impact and implications: Liver metastasis diminishes the effectiveness of immunotherapy and increases the mortality rate in patients with colorectal cancer. We investigated the role of IL-10 in liver metastasis formation and assessed its impact on the effectiveness of immunotherapy. Our data show that IL-10 is a pro-metastatic factor involved in liver metastasis formation and that it acts as a regulator of PD-L1. This provides the basis for future monitoring and targeting of IL-10 in colorectal cancer-derived liver metastasis.</p

Mechanical and fracture mechanical properties of fine grained concrete for textile reinforced composites

The development of textile reinforced concrete (TRC), where multi-axial fabrics are used in combination with fine grained concrete, allows the design of very thin-structured concrete elements with a high strength in compression as well as tension. It is the main objective of this study to determine the mechanical and fracture mechanical characteristics of the newly developed fine grained binder systems as a main component of the composite to allow for a reliable dimensioning of TRC structures in the future. In general the serviceability of a concrete structure is defined by the loading capacity under tension and compression determined in short-term tests as well as the time-related deformations under sustained load investigated in long-term tests.In respect of short-term investigations within this work, the relevant material characteristics are determined for both compression and tension, i.e. stress-strain curves with the corresponding compressive or tensile strength and Young’s moduli are determined. A main focus of the presented investigations presented is the determination of the softening behaviour expressed by stress-crack width curves in order to define the fracture behaviour for tension. 3-point bend tests are carried out, and a newly developed analytical model is proposed which allows for the straightforward analytical derivation of a multi-linear sigma-w-relation without finite element (FE) analysis. These findings are verified by numerical simulations. Possible size effects are analysed by investigating the influence of varying specimen size and geometry in compression and tension tests.Within the scope of this study the deformation properties under sustained load are considered for compression only. Long-term tests are carried out to investigate the creep strength and creep resistance which are required for a complete dimensioning of TRC structures. Another important factor in the investigation of thin-walled structures is the influence of carbonation on the mechanical and fracture mechanical properties of fine grained concrete, because a possible strength reducing process of carbonation might be more relevant for the thin structural elements of TRC in comparison with the rather massive structures of ordinary concrete.The experimental tests within this study are carried out for static loads only - neither dynamic nor planned multi-axial loading of concrete specimens is considered within this thesis. The experimental investigations within this work are carried out for three fine grained concrete mixtures which differ in strength and hence show different fracture behaviours. Characteristic design values of fine grained concrete are provided, which allow for the dimensioning and modelling of TRC structures. Knowing the mechanical and fracture mechanical properties of the investigated concrete types ranging from a rather brittle to a ductile fracture behaviour will allow for designing further concrete mixtures with regard to requirements for each case of application of TRC building members