Existing strategies to enhance peptide immunogenicity for cancer vaccination generally require direct peptide alteration, which beyond practical issues may impact peptide presentation and result in vaccine variability. Here, we report a simple adsorption approach using polyethyleneimine (PEI) in a mesoporous silica micro-rod (MSR) vaccine to enhance antigen immunogenicity. The MSR-PEI vaccine significantly enhanced host dendritic cell activation and T cell response over the existing MSR vaccine and bolus vaccine formulations. Impressively, a single injection of the MSR-PEI vaccine using an E7 peptide completely eradicated large established TC-1 tumors in ~80% of mice and generated immunological memory. When immunized with a pool of B16F10 or CT26 neoantigens, the MSR-PEI vaccine eradicated established lung metastases, controlled tumor growth and synergized with anti-CTLA4 therapy. Our findings using three independent tumor models suggest that the MSR-PEI vaccine approach may serve as a facile and powerful multi-antigen platform to enable robust personalized cancer vaccination.
Here we describe a blood-cleansing device for sepsis therapy inspired by the spleen, which can continuously remove pathogens and toxins from blood without first identifying the infectious agent. Blood flowing from an infected individual is mixed with magnetic nanobeads coated with an engineered human opsonin--mannose-binding lectin (MBL)--that captures a broad range of pathogens and toxins without activating complement factors or coagulation. Magnets pull the opsonin-bound pathogens and toxins from the blood; the cleansed blood is then returned back to the individual. The biospleen efficiently removes multiple Gram-negative and Gram-positive bacteria, fungi and endotoxins from whole human blood flowing through a single biospleen unit at up to 1.25 liters per h in vitro. In rats infected with Staphylococcus aureus or Escherichia coli, the biospleen cleared >90% of bacteria from blood, reduced pathogen and immune cell infiltration in multiple organs and decreased inflammatory cytokine levels. In a model of endotoxemic shock, the biospleen increased survival rates after a 5-h treatment.
In vivo barcoding using nuclease-induced mutations is a powerful approach for recording biological information, including developmental lineages; however, its application in mammalian systems has been limited. We present in vivo barcoding in the mouse with multiple homing guide RNAs that each generate hundreds of mutant alleles and combine to produce an exponential diversity of barcodes. Activation upon conception and continued mutagenesis through gestation resulted in developmentally barcoded mice wherein information is recorded in lineage-specific mutations. We used these recordings for reliable post hoc reconstruction of the earliest lineages and investigation of axis development in the brain. Our results provide an enabling and versatile platform for in vivo barcoding and lineage tracing in a mammalian model system.
Overcoming the immunosuppressive tumor microenvironment (TME) is critical to realizing the potential of cancer immunotherapy strategies. Agonists of stimulator of interferon genes (STING), a cytosolic immune adaptor protein, have been shown to induce potent anti-tumor activity when delivered into the TME. However, the anionic properties of STING agonists make them poorly membrane permeable, and limit their ability to engage STING in the cytosol of responding cells. In this study, cationic liposomes with varying surface polyethylene glycol (PEG) levels were used to encapsulate cGAMP to facilitate its cytosolic delivery. In vitro studies with antigen-presenting cells (APCs) revealed that liposomal formulations substantially improved the cellular uptake of cGAMP and pro-inflammatory gene induction relative to free drug. Liposomal encapsulation allowed cGAMP delivery to metastatic melanoma tumors in the lung, leading to anti-tumor activity, whereas free drug produced no effect at the same dose. Injection of liposomal cGAMP into orthotopic melanoma tumors showed retention of cGAMP at the tumor site and co-localization with tumor-associated APCs. Liposomal delivery induced regression of injected tumors and produced immunological memory that protected previously treated mice from rechallenge with tumor cells. These results show that liposomal delivery improves STING agonist activity, and could improve their utility in clinical oncology.
Accurate assessment of blood haemostasis is essential for the management of patients who use extracorporeal devices, receive anticoagulation therapy or experience coagulopathies. However, current monitoring devices do not measure effects of haemodynamic forces that contribute significantly to platelet function and thrombus formation. Here we describe a microfluidic device that mimics a network of stenosed arteriolar vessels, permitting evaluation of blood clotting within small sample volumes under pathophysiological flow. By applying a clotting time analysis based on a phenomenological mathematical model of thrombus formation, coagulation and platelet function can be accurately measured in vitro in patient blood samples. When the device is integrated into an extracorporeal circuit in pig endotoxemia or heparin therapy models, it produces real-time readouts of alterations in coagulation ex vivo that are more reliable than standard clotting assays. Thus, this disposable device may be useful for personalized diagnostics and for real-time surveillance of antithrombotic therapy in clinic.
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