Many metrics, including metabolic profiles, have been used to analyze cell health and optimize productivity. In this study, we investigated the ability of a lipid supplement to increase protein ...yield. At a concentration of 1% (v/v) the lipid supplement caused a significant increase in protein titer (1118±65.4ng105 cells−1days−1) when compared to cultures grown in the absence of supplementation (819.3±38.1ng105 cells−1days−1; p<0.05). This equated to a 37% increase in productivity. Furthermore, metabolic profiles of ammonia, glutamate, lactate, and glucose were not significantly altered by the polar lipid supplement. In a separate set of experiments, using the supplement as a feed resulted in 2 notable effects. The first was a 25% increase in protein titer. The second was an extension of peak protein production from 1day to 2days. These results suggest that lipid supplementation is a promising avenue for enhancing protein production. In addition, our results also suggest that an increase in protein production may not necessarily require a change in the metabolic state of the cells.
Cancer treatment utilizing infusion therapies to enhance the patient's own immune response against the tumor have shown significant functionality in a small subpopulation of patients. Additionally, ...advances have been made in the utilization of nanotechnology for the treatment of disease. We have previously reported the potent effects of 3-4 daily intravenous infusions of immune modifying poly(lactic-co-glycolic acid) (PLGA) nanoparticles (IMPs; named ONP-302) for the amelioration of acute inflammatory diseases by targeting myeloid cells. The present studies describe a novel use for ONP-302, employing an altered dosing scheme to reprogram myeloid cells resulting in significant enhancement of tumor immunity. ONP-302 infusion decreased tumor growth
the activation of the cGAS/STING pathway within myeloid cells, and subsequently increased NK cell activation
an IL-15-dependent mechanism. Additionally, ONP-302 treatment increased PD-1/PD-L1 expression in the tumor microenvironment, thereby allowing for functionality of anti-PD-1 for treatment in the B16.F10 melanoma tumor model which is normally unresponsive to monotherapy with anti-PD-1. These findings indicate that ONP-302 allows for tumor control
reprogramming myeloid cells
activation of the STING/IL-15/NK cell mechanism, as well as increasing anti-PD-1 response rates.
Suppressive myeloid cells, including monocyte and neutrophil populations, play a vital role in the metastatic cascade and can inhibit the anti-tumor function of cytotoxic T-cells. Cargo-free ...polymeric nanoparticles (NPs) have been shown to modulate innate immune cell responses in multiple pathologies of aberrant inflammation. Here, we test the hypothesis that the intravenous administration of drug-free NPs in the 4T1 murine model of metastatic triple-negative breast cancer can reduce metastatic colonization of the lungs, the primary metastatic site, by targeting the pro-tumor immune cell mediators of metastatic progression.
studies demonstrated that NP administration reprograms the immune milieu of the lungs and reduces pulmonary metastases. Single-cell RNA sequencing of the lungs revealed that intravenous NP administration alters myeloid cell phenotype and function, skewing populations toward inflammatory, anti-tumor phenotypes and away from pro-tumor phenotypes. Monocytes, neutrophils, and dendritic cells in the lungs of NP-treated mice upregulate gene pathways associated with IFN signaling, TNF signaling, and antigen presentation. In a T-cell deficient model, NP administration failed to abrogate pulmonary metastases, implicating the vital role of T-cells in the NP-mediated reduction of metastases. NPs delivered as an adjuvant therapy, following surgical resection of the primary tumor, led to clearance of established pulmonary metastases in all treated mice. Collectively, these results demonstrate that the
administration of cargo-free NPs reprograms myeloid cell responses at the lungs and promotes the clearance of pulmonary metastases in a method of action dependent on functional T-cells.
Abstract Chemokines are a superfamily of chemotactic cytokines that play an important role in leukocyte trafficking and have been implicated as functional mediators of immunopathology in experimental ...autoimmune encephalomyelitis (EAE). In the present study, we investigated the role of the CCL20 receptor, CCR6, in chronic EAE. After immunization with myelin oligodendrocyte glycoprotein 35–55 in CFA, CCR6−/− mice developed a significantly more severe chronic EAE as compared to wild type immunized animals. CCR6 expression was not required by T cells to induce EAE. Measurement of peripheral T cell responses showed differences in IFN-γ and IL-17 responses between CCR6−/− and wild type mice. At the time when CCR6−/− mice showed significantly more severe chronic EAE there was a significant decrease in PD-L1-expressing mDC in the spleens and no differences in Foxp3 Treg. Furthermore, add back of mDC with increased PD-L1 expression to CCR6−/− mice reduced the severe chronic EAE disease phase to that of wild type controls. The results suggest a role for CCR6-expressing PDL1+ mDC in regulating EAE progression.
Older people exhibit dysregulated innate immunity to respiratory viral infections, including influenza and SARS-CoV-2, and show an increase in morbidity and mortality. Nanoparticles are a potential ...practical therapeutic that could reduce exaggerated innate immune responses within the lungs during viral infection. However, such therapeutics have not been examined for effectiveness during respiratory viral infection, particular in aged hosts. Here, we employed a lethal model of influenza viral infection in vulnerable aged mice to examine the ability of biodegradable, cargo-free nanoparticles, designated ONP-302, to resolve innate immune dysfunction and improve outcomes during infection. We administered ONP-302 via i.v. injection to aged mice at day 3 after infection, when the hyperinflammatory innate immune response was already established. During infection, we found that ONP-302 treatment reduced the numbers of inflammatory monocytes within the lungs and increased their number in both the liver and spleen, without impacting viral clearance. Importantly, cargo-free nanoparticles reduced lung damage, reduced histological lung inflammation, and improved gas exchange and, ultimately, the clinical outcomes in influenza-infected aged mice. In conclusion, ONP-302 improves outcomes in influenza-infected aged mice. Thus, our study provides information concerning a practical therapeutic, which, if translated clinically, could improve disease outcomes for vulnerable older patients suffering from respiratory viral infections.
Abstract
In this study, we show that a negatively charged biodegradable nanoparticles, CNP-301, have strong anti-tumor activity in several tumor models. This effect appears to be driven by shifting ...polarization of tumor associated macrophages (TAMs) to an anti-tumor M1 type and by downregulation of pro-tumorigenic cancer associated fibroblasts. Moreover, we show that CNP-301 treatment induces apoptosis of cancer associated fibroblasts (CAFs) in the tumor supporting a mechanism where perturbations of the TME and the associated stroma results in anti-tumor effects.
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Background: Metastasis is responsible for most cancer-related deaths and depends on the formation of a metastatic niche at distal sites. The metastatic niche consists primarily of ...immunosuppressive myeloid cells, such as neutrophils and monocytes. These cells are recruited to distal sites in response to cancer-induced immune dysregulation and promote the recruitment and survival of disseminated tumor cells. We have employed drug-free poly(lactide-co-glycolide) (PLGA) nanoparticles, ONP-302, to modulate myeloid cell phenotypes and trafficking to disrupt the formation of the metastatic niche. The anti-metastatic efficacy of ONP-302 nanoparticles was evaluated in a translationally relevant mouse model of orthotopic triple-negative breast cancer. Methods: ONP-302 nanoparticles were evaluated in the syngeneic 4T1 model of triple-negative breast cancer in female BALB/c or RAG1KO BALB/c mice. ONP-302 nanoparticles intravenously injected into tumor-bearing mice every 3 days starting 1 day after tumor inoculation. Lungs were extracted 14 and 21 days after inoculation for analysis by single cell RNA sequencing and quantification of metastases by luminescent imaging, respectively. In resection studies, primary tumors were resected 11 days after inoculation and tissues were extracted 42 days after resection for quantification of metastases. Results: ONP-302 nanoparticles significantly reduced primary tumor growth and completely inhibited the formation of lung metastases. ONP-302 was also effective at suppressing metastasis when applied following surgical resection. In mice which received ONP-302 after surgical resection, lung metastases were undetectable up to 42 days after resection, while 44% of control mice developed metastases. These findings suggest that ONP-302 targets both primary tumor growth and metastatic colonization. Single cell RNA sequencing was employed to analyze ONP-302 modulation of the lung metastatic niche. The lungs of ONP-302 treated mice had lower neutrophil infiltration and a higher proportion of monocytes and dendritic cells compared to control mice. Gene expression pathways associated with inflammatory interferon and tumor necrosis factor responses were upregulated in neutrophils, monocytes, and dendritic cells from ONP-302 treated mice. The upregulation of these pathways suggests that ONP-302 treatment prevents the formation of an immunosuppressive niche and promotes anti-tumor cytotoxicity. Adaptive immunity was essential for ONP-302 efficacy, as T and B cell deficient RAG1KO mice demonstrated complete loss of ONP-302 efficacy both in slowing primary tumor growth and preventing metastasis. Conclusions: Our findings demonstrate that our drug-free PLG nanoparticles, ONP-302, impede cancer metastasis as a monotherapy by inhibiting the accumulation of immunosuppressive myeloid cells.
Abstract
Type 1 diabetes (T1D) is an autoimmune disease characterized by inflammatory lesions within islets (insulitis) and β cell loss which is associated T cell and B cell responses specific for ...pancreatic islet β cell proteins. Data show that treatment with poly(lactide-co-glycolide) (PLGA) nanoparticles (i.e. TIMP/COUR’s CNP) containing a single diabetogenic peptide blocks T1D induced by transfer of CD4+ BDC2.5 or CD8+ NY8.3 TCR transgenic T cells to NOD-scid mice. In contrast, Ag-specific tolerance approaches targeting single β-islet cell protein epitopes, e.g. GAD65 or Insulin, have failed to achieve efficacy in both wildtype NOD mice and clinical trials. The possibility exists that T1D initiation and progression is due to activation of T cell populations specific for multiple diabetogenic epitopes. To test this hypothesis, recombinant Chormogranin A, GAD65, and Insulin proteins were encapsulated within CNPs to assess Treg/Tr1 cell induction, inhibition of Ag-specific T cell responses, and blockade of T1D in NOD mice. While treatment of NOD mice with CNPs containing a single protein inhibited the corresponding Ag-specific T cell response, the inhibition of T1D development only occurred if all three diabetogenic proteins were included within the CNPs (CNP-T1D). CNP-T1D-induced blockade of T1D was characterized by Treg/Tr1 cell induction and a significant decrease in both peri-insulitis and immune cell infiltration into pancreatic islets. We have recently published that CNP treatment is both safe and induces Ag-specific tolerance in Phase I/IIa celiac disease clinical trials. Therefore, utilization of this technology including multiple diabetogenic proteins is a promising Ag-specific tolerance approach to T1D treatment.
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