Efficacy of oleylphosphocholine (OlPC) in vitro and in a mouse model of invasive aspergillosis.

Invasive aspergillosis (IA) has become increasingly common and is characterised by high morbidity and mortality. Upcoming resistance threatens treatment with azoles and highlights the continuous need for novel therapeutics. This laboratory study investigated the in vitro and in vivo potential of the alkylphospholipid oleylphosphocholine (OlPC) against Aspergillus. In vitro activities of OlPC, miltefosine, posaconazole and voriconazole were determined for Aspergillus fumigatus, A. niger, A. terreus and A. flavus. In vivo efficacy of OlPC was evaluated in a systemic A. fumigatus mouse model, adopting a short-term and long-term oral or intraperitoneal dosing regimen. OlPC showed good in vitro activity against A. fumigatus (IC50 = 1.04 µmol l(-1)). Intraperitoneal administration of 50 mg kg(-1) day(-1) OlPC significantly reduced the fungal organ burdens at 4 days post-infection (dpi). Although 5- and 10-day OlPC treatment improved survival, organ burdens were not affected at 10 and 15 dpi. While this study showed excellent in vitro activity of OlPC against Aspergillus spp., its therapeutic efficacy in an acute mouse model for IA was less convincing. Given the limited therapeutic options in the current antifungal market for invasive infections, OlPC activity should be assessed in a less stringent in vivo model, potentially in combination treatment with other already marketed antifungal drugs.

Pain sensitivity and vasopressin analgesia are mediated by a gene-sex-environment interaction.

Quantitative trait locus mapping of chemical/inflammatory pain in the mouse identified the Avpr1a gene, which encodes the vasopressin-1A receptor (V1AR), as being responsible for strain-dependent pain sensitivity to formalin and capsaicin. A genetic association study in humans revealed the influence of a single nucleotide polymorphism (rs10877969) in AVPR1A on capsaicin pain levels, but only in male subjects reporting stress at the time of testing. The analgesic efficacy of the vasopressin analog desmopressin revealed a similar interaction between the drug and acute stress, as desmopressin inhibition of capsaicin pain was only observed in nonstressed subjects. Additional experiments in mice confirmed the male-specific interaction of V1AR and stress, leading to the conclusion that vasopressin activates endogenous analgesia mechanisms unless they have already been activated by stress. These findings represent, to the best of our knowledge, the first explicit demonstration of analgesic efficacy depending on the emotional state of the recipient, and illustrate the heuristic power of a bench-to-bedside-to-bench translational strategy.