Immune microenvironments in solid tumors: new targets for therapy

Shiao, Stephen L.; Ganesan, Anusha-Preethi; Rugo, Hope S.; Coussens, Lisa M.

doi:10.1101/gad.169029.111

Cited by 283 publications

(243 citation statements)

References 96 publications

(115 reference statements)

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“…Moreover, in the tumor immune microenvironment, there are multiple immune checkpoints that control the tumor surveillance inside organisms. 52 The cytokine levels in the different experimental groups showed a tumor immunomodulation by the AgNP-MSA, which ultimately affects the immune checkpoints.…”

Section: Discussionmentioning

confidence: 99%

Immunomodulatory properties of silver nanoparticles contribute to anticancer strategy for murine fibrosarcoma

et al. 2015

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The use of nanotechnology in nanoparticle-based cancer therapeutics is gaining impetus due to the unique biophysical properties of nanoparticles at the quantum level. Silver nanoparticles (AgNPs) have been reported as one type of potent therapeutic nanoparticles. The present study is aimed to determine the effect of AgNPs in arresting the growth of a murine fibrosarcoma by a reductive mechanism. Initially, a bioavailability study showed that mouse serum albumin (MSA)-coated AgNPs have enhanced uptake; therefore, toxicity studies of AgNP-MSA at 10 different doses (1-10 mg/kg b.w.) were performed in LACA mice by measuring the complete blood count, lipid profile and histological parameters. The complete blood count, lipid profile and histological parameter results showed that the doses from 2 to 8 mg (IC 50 : 6.15 mg/kg b.w.) sequentially increased the count of leukocytes, lymphocytes and granulocytes, whereas the 9-and 10-mg doses showed conclusive toxicity. In an antitumor study, the incidence and size of fibrosarcoma were reduced or delayed when murine fibrosarcoma groups were treated by AgNP-MSA. Transmission electron micrographs showed that considerable uptake of AgNP-MSA by the sentinel immune cells associated with tumor tissue and a morphologically buckled structure of the immune cells containing AgNP-MSA. Because the toxicity studies revealed a relationship between AgNPs and immune function, the protumorigenic cytokines TNF-a, IL-6 and IL-1b were also assayed in AgNP-MSA-treated and non-treated fibrosarcoma groups, and these cytokines were found to be downregulated after treatment with AgNP-MSA. Cellular & Molecular Immunology

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Section: Discussionmentioning

confidence: 99%

Immunomodulatory properties of silver nanoparticles contribute to anticancer strategy for murine fibrosarcoma

et al. 2015

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“…Targeted mAb therapy for human solid tumors relies on binding of the mAb to tumor cell surface target receptors followed by intracellular signaling attenuation to sensitize tumor cells, direct tumor cell killing by FcgIIIA (CD16)-expressing immune cells, and mAb-mediated host immune response activation. Success of mAb therapies in the clinic is limited by several underlying mechanisms including underappreciated TME-mediated host immune response suppression, such as reduced malignant cell killing by CD8 þ CTLs and/or NK cells, and properties of some immune cells harboring protumor activities (25). In addition, tumor cells have been shown to use multiple immunosuppressive mechanisms to avoid host immune attack, including tumor-induced impairment of antigen presentation (41,42), secretion of immunosuppressive and growth factors (e.g., TGFb and IL10) in the TME (43,44), amplification of receptor tyrosine kinases (45), upregulation/expression of negative costimulatory signaling molecules (CTLA-4 binding CD80 and/or CD86, PD-L1 and/or PD-L2) by tumor cells (46,47), inhibition of dendritic cell differentiation and maturation (44,46), and increased infiltration of regulatory T-cells (48,49).…”

Section: Discussionmentioning

confidence: 99%

“…Multiple mechanisms of resistance to these mAbs have been described previously (17,(19)(20)(21)(22)(23)(24). Recently, the role of the tumor ECM has been recognized as a potential contributor to therapeutic resistance (7,25,26).…”

Section: Introductionmentioning

confidence: 99%

Tumor-Associated Hyaluronan Limits Efficacy of Monoclonal Antibody Therapy

Singha

Nekoroski

Zhao

et al. 2015

Molecular Cancer Therapeutics

114

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Despite tremendous progress in cancer immunotherapy for solid tumors, clinical success of monoclonal antibody (mAb) therapy is often limited by poorly understood mechanisms associated with the tumor microenvironment (TME). Accumulation of hyaluronan (HA), a major component of the TME, occurs in many solid tumor types, and is associated with poor prognosis and treatment resistance in multiple malignancies. In this study, we describe that a physical barrier associated with high levels of HA (HA high ) in the TME restricts antibody and immune cell access to tumors, suggesting a novel mechanism of in vivo resistance to mAb therapy. We determined that approximately 60% of HER2 3þ primary breast tumors and approximately 40% of EGFR þ head and neck squamous cell carcinomas are HA high , and hypothesized that HA high tumors may be refractory to mAb therapy. We found that the pericellular matrix produced by HA high tumor cells inhibited both natural killer (NK) immune cell access to tumor cells and antibody-dependent cell-mediated cytotoxicity (ADCC) in vitro. Depletion of HA by PEGPH20, a pegylated recombinant human PH20 hyaluronidase, resulted in increased NK cell access to HA high tumor cells, and greatly enhanced trastuzumab-or cetuximab-dependent ADCC in vitro. Furthermore, PEGPH20 treatment enhanced trastuzumab and NK cell access to HA high tumors, resulting in enhanced trastuzumab-and NK cell-mediated tumor growth inhibition in vivo. These results suggest that HA high matrix in vivo may form a barrier inhibiting access of both mAb and NK cells, and that PEGPH20 treatment in combination with anticancer mAbs may be an effective adjunctive therapy for HA high tumors.

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“…It is clear that there is significant interaction between chemotherapeutic drugs, dying tumor cells, and local immune cells that have various effects on tumor immunogenicity, and many of these effects have been previously described using traditional, MTD drug regimen strategies [12]. These include both immunogenic effects, such as paclitaxel and doxorubicin enhancing antigen-specific Th1 immune responses and tumorigenic effects such as prolonged T cell and B cell depletion [13,14].…”

Section: Low Dose Chemotherapymentioning

confidence: 99%

Immunological Mechanisms of Low and Ultra-Low Dose Cancer Chemotherapy

Landreneau

Shurin

Agassandian

et al. 2013

Cancer Microenvironment

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Traditionally, anticancer chemotherapy has been generally considered to be strongly immunosuppressive. However, increasing evidence suggests that certain chemotherapeutic agents rely on the induction of antitumor immune responses, in both experimental animal models and patients with cancer. Many of these chemotherapeutic agents exert immunogenic effects via the induction and release of immunostimulatory "danger" signals from dying cancerous cells when used in low doses. New data suggests that several common chemotherapeutic agents may also display direct stimulating effects on immune cells even when applied in ultra-low concentrations (chemoimmunomodulation). Importantly, it is becoming clear that both immune effector cells and immune regulatory cells can be targeted by various chemotherapeutic agents to produce favorable antitumor immune responses. Therefore, utilizing cancer drugs to enhance host antitumor immunity should be considered a feasible therapeutic approach; and recent characterization of the immunomodulatory mechanisms of anticancer chemotherapy using both new and traditional cytotoxic agents suggests that combinations of these approaches with "classical" immunomodulatory agents could lead to a viable new therapeutic paradigm for the treatment of cancer.

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Immune microenvironments in solid tumors: new targets for therapy

Cited by 283 publications

References 96 publications

Immunomodulatory properties of silver nanoparticles contribute to anticancer strategy for murine fibrosarcoma

Immunomodulatory properties of silver nanoparticles contribute to anticancer strategy for murine fibrosarcoma

Tumor-Associated Hyaluronan Limits Efficacy of Monoclonal Antibody Therapy

Immunological Mechanisms of Low and Ultra-Low Dose Cancer Chemotherapy

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