Jeroen Deckers scite author profile

Nucleic acid detection methods based on CRISPR and isothermal amplification techniques show great potential for point-of-care diagnostic applications. However, most current methods rely on fluorescent or lateral flow assay readout, requiring external excitation or postamplification reaction transfer.Here, we developed a bioluminescent nucleic acid sensor (LUNAS) platform in which target dsDNA is sequence-specifically detected by a pair of dCas9-based probes mediating split NanoLuc luciferase complementation. LUNAS is easily integrated with recombinase polymerase amplification (RPA), providing attomolar sensitivity in a rapid one-pot assay. A calibrator luciferase is included for a robust ratiometric readout, enabling real-time monitoring of the RPA reaction using a simple digital camera. We designed an RT-RPA-LUNAS assay that allows SARS-CoV-2 RNA detection without the need for cumbersome RNA isolation and demonstrated its diagnostic performance for COVID-19 patient nasopharyngeal swab samples. Detection of SARS-CoV-2 from samples with viral RNA loads of ∼200 cp/μL was achieved within ∼20 min, showing that RPA-LUNAS is attractive for point-of-care infectious disease testing.

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Engineering cytokine therapeutics

Deckers¹,

Anbergen²,

Hokke

et al. 2023

Nat Rev Bioeng

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Cytokines have pivotal roles in immunity, making them attractive as therapeutics for a variety of immune-related disorders. However, the widespread clinical use of cytokines has been limited by their short blood half-lives and severe side effects caused by low specificity and unfavourable biodistribution. Innovations in bioengineering have aided in advancing our knowledge of cytokine biology and yielded new technologies for cytokine engineering. In this Review, we discuss how the development of bioanalytical methods, such as sequencing and high-resolution imaging combined with genetic techniques, have facilitated a better understanding of cytokine biology. We then present an overview of therapeutics arising from cytokine re-engineering, targeting and delivery, mRNA therapeutics and cell therapy. We also highlight the application of these strategies to adjust the immunological imbalance in different immune-mediated disorders, including cancer, infection and autoimmune diseases. Finally, we look ahead to the hurdles that must be overcome before cytokine therapeutics can live up to their full potential.

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Injectable alginate hydrogels for synergistic tumor combination therapy through repolarization of tumor-associated macrophages

Xiao

Zhu

Liang

et al. 2022

Journal of Controlled Release

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Definition of Unique and Shared T-Cell Defined Tumor Antigens in Human Renal Cell Carcinoma

Brouwenstijn¹,

Hoogstraten²,

Verdegaal³

et al. 1998

Journal of Immunotherapy

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From peripheral blood mononuclear cells of a patient with renal cell carcinoma (RCC), we isolated several T-cell clones, which efficiently lyse the autologous RCC cell line (LE-8915-RCC), but not the autologous Epstein Barr virustransformed lymphoblastoid cell line. Most of the cytotoxic T lymphocyte (CTL) clones recognize HLA-A 1-positive allogeneic RCC cell lines, indicating that HLA-A1 is the restricting element for these T cells. One CTL clone exclusively recognizes the autologous tumor cells. The HLA-A I-restricted CTL clones can be divided further into two subsets of T-cell clones, one blocked by an HLA-AI-specific monoclonal antibody, the other not. The reactivity of HLA-Al-restricted T-cell clone 6/135 was studied in greater detail. This T-cell clone also recognizes a number of melanoma cell lines, indicating that expression of the antigen seen by this CTL clone is not restricted to RCC. Strikingly, the antigen is not exclusively expressed by tumor cell lines, because primary cultures of proximal tubulus epithelium cells, adult mesangial cells, and normal breast epithelium cells are also lysed. These results corroborate the notion that renal carcinoma cells are immunogenic by virtue of a broadly distributed antigenic structure that may serve as a target for cytotoxic T cells and may be a potential candidate for tumor vaccine development. Key Words: Renal cell carcinomaMelanoma-Cytotoxic T cells-Tumor-associated antigens-Self-antigens.Renal cell carcinoma (RCC) is a solid tumor of the kidney that accounts for 2% of all adult cancers (1).Because of the resistance of this tumor type to chemo-, radio-, and hormonal therapy, the probability of 10-year survival is 70% in the absence, but zero in the presence of metastases at the time of diagnosis (2). Therefore, there is an urgent need for more effective new treatment modalities, of which immunotherapy might be an option. Like melanoma, RCC is a relatively immunogenic tumor, as illustrated by massive T-cell infiltrates (TIL) in the tumors, spontaneous tumor regressions, and the isolation of tumor-specific T cells from TIL and peripheral blood lymphocytes (PBL) (3-5). Accordingly, therapies aimed at rejection of tumors by the patients immune system have yielded encouraging results (6).We and others have described cytotoxic T lymphocyte (CTL) clones that specifically recognize RCC cells (5, 7-9). Some of these T-cell clones cross-reacted with HLA-matched allogeneic RCC cell lines, indicating that

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Nanoengineering Apolipoprotein A1‐Based Immunotherapeutics

Schrijver

Dreu

Hofstraat

et al. 2021

Advanced Therapeutics

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In the slipstream of targeting the adaptive immune system, innate immunotherapy strategies are being developed. In this context, technologies based on natural carrier vehicles that inherently interact with the innate immune system, are increasingly being considered. Immunoregulatory nanotherapeutics based on natural apolipoprotein A1 (apoA1) are discussed here. This protein is a helical, amphipathic macromolecule and the main constituent of high-density lipoprotein. In that capacity, apoA1 interacts specifically with innate immune cells, such as monocytes and macrophages, to collect and transport lipophilic molecules throughout the body. Exactly these unique features make apoA1 a compelling elementary constituent of biocompatible self-assembled nanotherapeutics. Such apoA1-based nanotherapeutics (A1-nanotherapeutics) can be engineered and functionalized to induce or mitigate an innate immune response or to orchestrate an adaptive immune response through antigen delivery to dendritic cells. The authors first discuss apoA1's properties and how these can be exploited to generate libraries of A1-nanotherapeutics using advanced manufacturing approaches such as microfluidics or continuous flow methods. Using high-throughput in vitro screening methods and in vivo imaging to identify promising formulations are then recommend. Finally, three distinct immunotherapy strategies are proposed to effectively treat a variety of diseases-including cancer, infection, and cardiovascular disease-and promote allograft survival in transplantation.

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Jeroen Deckers

Glow-in-the-Dark Infectious Disease Diagnostics Using CRISPR-Cas9-Based Split Luciferase Complementation

Engineering cytokine therapeutics

Injectable alginate hydrogels for synergistic tumor combination therapy through repolarization of tumor-associated macrophages

Definition of Unique and Shared T-Cell Defined Tumor Antigens in Human Renal Cell Carcinoma

Nanoengineering Apolipoprotein A1‐Based Immunotherapeutics

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