Phagocytosed Polyhedrin-Cytokine Cocrystal Nanoparticles Provide Sustained Secretion of Bioactive Cytokines from Macrophages

Wendler, Astrid; James, Nicholas; Jones, Michael H.; Pernstich, Christian

doi:10.34133/2021/9816485

Cited by 6 publications

(11 citation statements)

References 42 publications

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“…There was a direct relationship between the number of PODS and the amount of accumulated IL-2 detected by the ELISA assay. As had been observed in our previous study 5 , where human IL-6 release was measured from phagocytosed PODS, ingestion by macrophages significantly reduces the amount of free cargo protein accumulating in the media. In the absence of macrophages, (measured only on day 6) the amount of IL-2 that accumulated was about 10-fold higher.…”

Section: In Vitro Il-2 Levelssupporting

confidence: 79%

“…As may be predicted from their physical characteristics 12 (size, shape, surface charge and elasticity), we previously reported 5 that PODS are efficiently taken up by phagocytic cells in-vitro. We also demonstrated that, following phagocytic uptake, the PODS cargo proteins are sustainably secreted in a bioactive form that is able to modulate the phenotype of adjacent heterogenous cells.…”

Section: Introductionmentioning

confidence: 81%

“…Measurement of the release of hIL-2 from PODS-hIL-2, with and without macrophages THP-1 cells were seeded at a density of 2x10 5 cells/ml in 96-well plates and differentiated into M0 macrophages. M0 cells were then incubated with 1x10 5 , 2x10 5 , or 4x10 5 PODS IL-2 per ml for 24 h in complete medium (resulting in 5, 10, or 20 PODS/cell). Additionally, the same number of PODS containing human IL-2 (PODS-IL-2) were added to the wells of a 96-well plate without cells and spun down at 3000 x g for 25 min.…”

Section: Cell Culture and Differentiationmentioning

confidence: 99%

“…To address this challenge, a drug delivery mechanism that (1) stabilizes the protein (2) maintains low serum levels (3) actively delivers to and targets the diseased tissue and (4) provides sustained release at the target tissue, can be expected to reduce drug-related toxicity and improve therapeutic efficacy. PODS® (Polyhedrin Delivery System) 5 is a natural mimetic technology that incorporates target proteins into nano-to-micron-scale crystal structures to form PODS co-crystals (PODS). Purified PODS are non-brittle, durable, and transparent.…”

Section: Introductionmentioning

confidence: 99%

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Low-dose cytokine immunotherapy of solid cancers enabled by phagocytic-competent protein co-crystals

Jones

Calla

Smith

et al. 2023

Preprint

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Protein therapeutics are often compromised by sub-optimal biodistribution contributing to poor efficacy and adverse events. Drug delivery mechanisms better able to target protein drugs to the disease site and provide localized, sustained release have the potential to transform therapeutic standards. PODS crystals (PODS) are natural-mimetic, micron-scale protein co-crystals engineered to incorporate a protein cargo that can be sustainably released under the action of resident proteases. PODS are efficiently taken up by phagocytic cells with the cargo protein subsequently released in a bioactive form. Since blood-circulating phagocytic cells, including monocytes, are actively recruited into diseased and inflamed tissue, such as the tumour microenvironment, we postulated that monocyte/macrophage-mediated PODS delivery could be used as a molecular 'Trojan horse' to efficiently deliver therapeutic proteins to target cells. This could improve the pharmacodynamics and pharmacokinetics of protein drug delivery to treat systemic and disseminated diseases. Interleukin-2 (IL-2) is notoriously toxic at the high doses required for therapeutic efficacy. Here, we demonstrate the therapeutic efficacy and tolerability of low doses of PODS containing IL-2 cargo (PODS-IL-2) administered intravenously in a mouse model of melanoma. We further demonstrate the therapeutic benefit of PODS delivering IL-2, interleukin-15 (IL-15) and interferon gamma (IFN-gamma) in a mouse model of renal cell carcinoma at two doses. Efficacy was seen in both doses with the higher dose generating rapid and complete rejection of the tumour in some of the mice treated with each cytokine. This study provides proof-of-concept for the utility of intravenously administered PODS to provide a generalised and widely applicable mechanism to effectively deliver protein drugs for the therapy of cancer and potentially other diseases.

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Section: In Vitro Il-2 Levelssupporting

confidence: 79%

Section: Introductionmentioning

confidence: 81%

Section: Cell Culture and Differentiationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Low-dose cytokine immunotherapy of solid cancers enabled by phagocytic-competent protein co-crystals

Jones

Calla

Smith

et al. 2023

Preprint

Self Cite

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“…They showed that PODS particles are very efficiently phagocytosed and that cargo cytokines avoid or resist the harsh conditions of phagolysosomes and enable secretion by macrophages. These results suggest the potential utility of PODS in Trojan horse drug delivery strategies for the treatment of cancer [ 206 ].…”

Section: Unconventional Nanocarriersmentioning

confidence: 99%

Exploiting Nanomedicine for Cancer Polychemotherapy: Recent Advances and Clinical Applications

et al. 2023

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The most important limitations of chemotherapeutic agents are severe side effects and the development of multi-drug resistance. Recently, the clinical successes achieved with immunotherapy have revolutionized the treatment of several advanced-stage malignancies, but most patients do not respond and many of them develop immune-related adverse events. Loading synergistic combinations of different anti-tumor drugs in nanocarriers may enhance their efficacy and reduce life-threatening toxicities. Thereafter, nanomedicines may synergize with pharmacological, immunological, and physical combined treatments, and should be increasingly integrated in multimodal combination therapy regimens. The goal of this manuscript is to provide better understanding and key considerations for developing new combined nanomedicines and nanotheranostics. We will clarify the potential of combined nanomedicine strategies that are designed to target different steps of the cancer growth as well as its microenvironment and immunity interactions. Moreover, we will describe relevant experiments in animal models and discuss issues raised by translation in the human setting.

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Understanding the Phagocytosis of Particles: the Key for Rational Design of Vaccines and Therapeutics

et al. 2022

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Phagocytosed Polyhedrin-Cytokine Cocrystal Nanoparticles Provide Sustained Secretion of Bioactive Cytokines from Macrophages

Cited by 6 publications

References 42 publications

Low-dose cytokine immunotherapy of solid cancers enabled by phagocytic-competent protein co-crystals

Low-dose cytokine immunotherapy of solid cancers enabled by phagocytic-competent protein co-crystals

Exploiting Nanomedicine for Cancer Polychemotherapy: Recent Advances and Clinical Applications

Understanding the Phagocytosis of Particles: the Key for Rational Design of Vaccines and Therapeutics

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