Pål Kristian Selbo scite author profile

Background and AimsPhotochemical internalization (PCI) is a technology for inducing release of endocytosed antigens into the cell cytosol via a light-induced process. Preclinical experiments have shown that PCI improves MHC class I antigen presentation, resulting in strongly enhanced CD8+ T-cell responses to polypeptide antigens. In PCI vaccination a mixture of the photosensitizing compound fimaporfin, vaccine antigens, and an adjuvant is administered intradermally followed by illumination of the vaccination site. This work describes an open label, phase I study in healthy volunteers, to assess the safety, tolerability, and immune response to PCI vaccination in combination with the adjuvant poly-ICLC (Hiltonol) (ClinicalTrials.gov Identifier: NCT02947854).MethodsThe primary objective of the study was to assess the safety and local tolerance of PCI mediated vaccination, and to identify a safe fimaporfin dose for later clinical studies. A secondary objective was to analyze the immunological responses to the vaccination. Each subject received 3 doses of HPV16 E7 peptide antigens and two doses of Keyhole Limpet Hemocyanin (KLH) protein. A control group received Hiltonol and vaccine antigens only, whereas the PCI groups in addition received fimaporfin + light. Local and systemic adverse effects were assessed by standard criteria, and cellular and humoral immune responses were analyzed by ELISpot, flow cytometry, and ELISA assays.Results96 healthy volunteers were vaccinated with fimaporfin doses of 0.75–50 µg. Doses below 17.5 µg were safe and tolerable, higher doses exhibited local tolerability issues in some study subjects, mainly erythema, and pain during illumination. There were few, and only mild and expected systemic adverse events. The employment of PCI increased the number of subjects exhibiting a T-cell response to the HPV peptide vaccine about 10-fold over what was achieved with the antigen/Hiltonol combination without PCI. Moreover, the use of PCI seemed to result in a more consistent and multifunctional CD8+ T-cell response. An enhancement of the humoral immune response to KLH vaccination was also observed.ConclusionsUsing PCI in combination with Hiltonol for intradermal vaccination is safe at fimaporfin doses below 17.5 µg, and gives encouraging immune responses to peptide and protein based vaccination.

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Photochemical internalization enhances cytosolic release of antibiotic and increases its efficacy against staphylococcal infection

Zhang

Boer

Heiliegers

et al. 2018

Journal of Controlled Release

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Bacterial pathogens such as Staphylococcus aureus and Staphylococcus epidermidis can survive in different types of cells including professional phagocytes, causing intracellular infections. Antibiotic treatment of intracellular infections is often unsuccessful due to the low efficacy of most antibiotics inside cells. Therefore, novel techniques which can improve intracellular activity of antibiotics are urgently needed. We aimed to use photochemical internalization (PCI) to enhance cytosolic release of antibiotics from endocytic vesicles after internalization. Our results show that PCI indeed caused cytosolic release of gentamicin and significantly increased its efficacy against S. epidermidis in vitro in mouse macrophages. Upon illumination for 15 min, the killing of intracellular S. epidermidis in RAW 264.7 cells by 10 or 30 μg/ml gentamicin was increased to 1 or 3 CFU log, respectively, owing to the use of PCI, whereas no killing by gentamicin only without PCI was observed. Moreover, survival of S. aureus-infected zebrafish embryos was significantly improved by treatment with PCI-gentamicin. PCI improved the therapeutic efficacy of gentamicin at a dose of 0.1 ng per embryo to a level similar to that of a dose of 0.4 ng per embryo, indicating that PCI can lower the antibiotic dose required for treating (intracellular) staphylococcal infection. Thus, the present study shows that PCI is a promising novel approach to enhance the intracellular efficacy of antibiotics via cytosolic release, allowing them to reach intracellular bacteria. This will expand their therapeutic window and will increase the numbers of antibiotics which can be used for treatment of intracellular infections.

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Light-controlled elimination of PD-L1+ cells

Wong

Selbo

2021

Preprint

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The programmed death ligand-1 (PD-L1), also known as CD274 or B7-H1, is mainly expressed on cancer cells and/or immunosuppressive cells in the tumor microenvironment (TME) and plays an essential role in tumor progression and immune escape. Immune checkpoint inhibitors (ICIs) of the PD-1/PD-L1 axis have shown impressive clinical success, however, the majority of the patients do not respond to immune checkpoint therapy (ICT). Thus, to overcome ICT resistance there is a high need for potent and novel strategies that simultaneously target both tumor cells and immunosuppressive cells in the TME. In this study, we show that the intracellular light-controlled drug delivery method photochemical internalization (PCI) induce specific and strongly enhanced cytotoxic effects of the PD-L1-targeting immunotoxin, anti-PD-L1-saporin (Anti-PDL1-SAP), in the PD-L1+ triple-negative breast cancer MDA-MB-231 cell line, while no enhanced efficacy was obtained in the PD-L1 negative control cell line MDA-MB-453. Using fluorescence microscopy, we reveal that the anti-PD-L1 antibody binds to PD-L1 on the surface of the MDA-MD-231 cells and overnight accumulates in late endosomes and lysosomes where it co-localizes with the PCI photosensitizer fimaporfin (TPCS2a). Moreover, light-controlled endosomal/lysosomal escape of the anti-PD-L1 antibody and fimaporfin into the cytosol was obtained. We also confirm that the breast MDA-MB-468 and the prostate PC-3 and DU-145 cancer cell lines have subpopulations with PD-L1 expression. In addition, we show that interferon-gamma strongly induce PD-L1 expression in the per se PD-L1 negative CT26.WT cells and enhance the PD-L1 expression in MC-38 cells, of which both are murine colon cancer cell lines. In conclusion, our work provides an in vitro proof-of-concept of PCI-enhanced targeting and eradication of PD-L1 positive immunosuppressive cells. This light-controlled combinatorial strategy has a potential to advance cancer immunotherapy and should be explored in preclinical studies.

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