Survival curves were analysed using the Kaplan–Meier method and t

Survival curves were analysed using the Kaplan–Meier method and the differences were evaluated using the log-rank test (GraphPad). Relative percentage of survival (RPS) was calculated according to RPS (%) = [(1 − mortality treated group)/mortality control] × 100. At 5 dpi, two surviving fish from each group were randomly sampled for virus recovery [30]. The biodistribution of the NLc liposomes in adult zebrafish was studied following i.p. injection

of the fish with fluorescently labelled liposomes (AF750-NLc liposomes). Whole-animal images revealed a fluorescence signal in the peritoneal cavity of all the individuals up to 72 h with no detectable fluorescence signal in any ISRIB concentration other part of the fish (Fig. 1A). Quantification of this signal confirmed a sustained presence of the liposomal formulation. A slight decrease was observed at 72 h: from 3.76 × 109 Radiant Efficiency (RE) at 0 h to 2.16 × 109 RE at 72 h (Fig. 1B). Organ ex vivo analysis was performed at 0, 24, 48 and 72 h post-injection, and the corresponding signal intensities were quantified ( Fig. 1C). Significant accumulation of the NLc liposomes was observed in the spleen from 0 to 72 h (from 1.92 × 106 RE/organ area at 0 h to 1.05 × 106 RE/organ BTK inhibitor library area at 72 h), and in

the liver at 72 h (5.71 × 105 RE/organ area). These values are consistent with those from previous studies using radioactive labelling, which had shown that large unilamellar liposomes injected into fish had localised mainly in the spleen [13]. To identify the cells targeted by the NLc liposomes in vivo, we worked with adult Bumetanide rainbow trout instead of zebrafish, as the larger size of the former enabled us to isolate mononuclear phagocytes from the main immunologically related organs (spleen and head kidney) for subsequent characterisation by flow cytometry and by confocal microscopy. In a typical experiment, fluorescent NLc liposomes were injected into trout (n = 4), and at 24 h post-injection the spleen and the head kidney were dissected for primary cell culture. The NLc liposomes were tracked by flow cytometry and by confocal microscopy at 24, 48 and 72 h. Fluorescence

signals were significantly detected by flow cytometry ( Fig. 2A) in spleen-derived cells at 24, 48 and 72 h. NLc liposomes were also found in head kidney-derived cells, although in far lower levels than in the spleen. For example, at 72 h, the percentage of total positive cells in the spleen was 30.3 ± 12.6%, compared to 2.9 ± 1.2% for the head kidney. Interestingly, fluorescent cells were detected even up to 6 days post-injection, indicating that the NLc liposomes can persist for at least 1 week (data not shown). For the confocal microscopy analysis, the cell membranes and nuclei were stained with either CellMask or Hoechst, respectively. The monocytes/macrophages were easily distinguishable by the kidney-shaped nuclei and the rugosity of their plasma membranes ( Fig.

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