Colin Powers scite author profile

Myeloid-derived suppressor cells (MDSC) contribute to an immunosuppressive network that drives cancer escape by disabling T cell adaptive immunity. The prevailing view is that MDSC-mediated immunosuppression is restricted to tissues where MDSC co-mingle with T cells. Here we show that splenic or, unexpectedly, blood-borne MDSC execute far-reaching immune suppression by reducing expression of the L-selectin lymph node (LN) homing receptor on naïve T and B cells. MDSC-induced L-selectin loss occurs through a contact-dependent, post-transcriptional mechanism that is independent of the major L-selectin sheddase, ADAM17, but results in significant elevation of circulating L-selectin in tumor-bearing mice. Even moderate deficits in L-selectin expression disrupt T cell trafficking to distant LN. Furthermore, T cells preconditioned by MDSC have diminished responses to subsequent antigen exposure, which in conjunction with reduced trafficking, severely restricts antigen-driven expansion in widely-dispersed LN. These results establish novel mechanisms for MDSC-mediated immunosuppression that have unanticipated implications for systemic cancer immunity.DOI: http://dx.doi.org/10.7554/eLife.17375.001

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Dynamic control of tumor vasculature improves antitumor responses in a regional model of melanoma

Gabriel

Kim

Fisher

et al. 2020

Sci Rep

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Despite advances in therapy for melanoma, heterogeneous responses with limited durability represent a major gap in treatment outcomes. the purpose of this study was to determine whether alteration in tumor blood flow could augment drug delivery and improve antitumor responses in a regional model of melanoma. This approach to altering tumor blood flow was termed "dynamic control." Dynamic control of tumor vessels in C57BL/6 mice bearing B16 melanoma was performed using volume expansion (saline bolus) followed by phenylephrine. intravital microscopy (iVM) was used to observe changes directly in real time. Our approach restored blood flow in non-functional tumor vessels. it also resulted in increased chemotherapy (melphalan) activity, as measured by formation of DnA adducts. the combination of dynamic control and melphalan resulted in superior outcomes compared to melphalan alone (median time to event 40.0 vs 25.0 days, respectively, p = 0.041). Moreover, 25% (3/12) of the mice treated with the combination approach showed complete tumor response. importantly, dynamic control plus melphalan did not result in increased adverse events. in summary, we showed that dynamic control was feasible, directly observable, and augmented antitumor responses in a regional model of melanoma. early clinical trials to determine the translational feasibility of dynamic control are ongoing.

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Does Cartilage Down-regulate Growth Factor Expression in Tracheal Epithelium?

Hicks¹,

Sigurdson²,

Hard³

et al. 1999

Arch Otolaryngol Head Neck Surg

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Intra-arterial Versus Intravenous Adoptive Cell Therapy in a Mouse Tumor Model

Visioni¹,

Kim²,

Wilfong³

et al. 2018

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Improved Cuff Technique and Intraoperative Detection of Vascular Complications for Hind Limb Transplantation in Mice

Kim

Fisher

Powers

et al. 2018

Transplantation Direct

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BackgroundVascularized composite tissue allotransplantation (VCA) from a cadaveric donor has now become a clinical reality and the treatment modality of choice for patients with devastating injuries, deformities, and complex tissue defects. However, many VCA patients experience severe toxicities due to the strong immunosuppression required secondary to high antigenicity of the grafts. To improve immunosuppressive protocols for VCA, feasible and reliable preclinical models are necessary. The purpose of this study was to introduce new techniques to an established preclinical VCA model to accelerate future investigations.MethodsC57BL/6 (H-2b) and BALB/c (H-2d) mice were used to perform VCA as recipients and donors, respectively. Surgery time, success rate, associated complications, and mortality were analyzed. Blood flow in grafts was interrogated with laser speckle image (LSI).ResultsA nonsuture cuff technique was used with the abdominal aorta for end-to-end anastomosis. The cuff technique demonstrated efficiency for donor surgery (52 ± 10 minutes for donor vs. 45 ± 8 minutes for recipient surgery). Successful revascularization was achieved in 27 (90%) of 30 transplants. The majority of surgical complications occurred within 48 hours including artery occlusion, venous occlusion, cerebral stroke, and minor bleeding without mortality. LSI was useful in detecting intraoperative vascular complications with display patterns predictive of complication type.ConclusionsThe described techniques may facilitate a more efficient heterotopic hind limb transplantation mouse model of VCA.

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Colin Powers

Tumor-induced MDSC act via remote control to inhibit L-selectin-dependent adaptive immunity in lymph nodes

Dynamic control of tumor vasculature improves antitumor responses in a regional model of melanoma

Does Cartilage Down-regulate Growth Factor Expression in Tracheal Epithelium?

Intra-arterial Versus Intravenous Adoptive Cell Therapy in a Mouse Tumor Model

Improved Cuff Technique and Intraoperative Detection of Vascular Complications for Hind Limb Transplantation in Mice

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