Public Health
Abstract
Empirical data from survivors of Lassa fever and experimental disease modelling efforts, particularly those using mouse models, are at odds with respect to T cell-mediated pathogenesis. In mice, T cells have been shown to be imperative in disease progression and lethality, whereas in humans, an early and robust T cell responses has been associated with survival. Here, we assessed the role of CD4+ and CD8+ T cells on disease progression and severity of Lassa virus infection in a non-human primate model. Using an antibody-mediated T cell depletion strategy prior to and post-inoculation, we were able to examine Lassa virus infection in the absence of specific T cell responses. In animals depleted for either CD4+ or CD8+ T cells, Lassa virus infection remained uniformly lethal, with only a slight delay in disease progression observed in the CD4-depleted group when compared to non-depleted controls. Milder pulmonary pathology was noticed in the absence of CD4+ or CD8+ T cells. Overall, our findings suggest that T cells have a limited impact on the development of Lassa fever in non-human primates.
Authors
Jérémie Prévost, Nikesh Tailor, Geoff Soule, Jonathan Audet, Yvon Deschambault, Robert Vendramelli, Jessica Prado-Smith, Kevin Tierney, Kimberly Azaransky, Darwyn Kobasa, Chad S. Clancy, Heinz Feldmann, Kyle Rosenke, David Safronetz
Abstract
The FDA-approved phosphodiesterase type 4 (PDE4) inhibitor, apremilast, has been recently investigated as a pharmacotherapy for alcohol use disorder (AUD) with promising efficacy in rodent models and humans. However, apremilast’s effects on mechanical allodynia associated with AUD as well as distinct responses of this drug between males and females are understudied. The present study examined the behavioral and electrophysiological effects of apremilast in Marchigian Sardinian alcohol-preferring (msP) rats and their Wistar counterparts. We used a 2–bottle choice (2-BC) alcohol drinking procedure and tested mechanical sensitivity across our drinking regimen. Spontaneous inhibitory GABA-mediated postsynaptic currents from the central nucleus of the amygdala (CeA) following apremilast application were tested in a subset of rats using ex vivo electrophysiology. Transcript levels for Pde4a or -4b subtypes were assessed for their modulation by alcohol. Apremilast reduced alcohol drinking in both strains of rats. Apremilast reduced mechanical allodynia immediately after drinking, persisting into early and late abstinence. Apremilast increased GABAergic transmission in CeA slices of alcohol-exposed Wistars but not msP rats, suggesting neuroadaptations in msPs by excessive drinking and mechanical allodynia. Pde4 subtype transcript levels were increased in CeA by alcohol. These results suggest that apremilast alleviates co-occurring excessive drinking and pain sensitivity, and they further confirm PDE4’s role in pain-associated AUD.
Authors
Valentina Vozella, Vittoria Borgonetti, Bryan Cruz, Celsey M. St. Onge, Ryan Bullard, Roman Vlkolinsky, Diego Gomez Ceballos, Angela R. Ozburn, Amanda J. Roberts, Roberto Ciccocioppo, Michal Bajo, Marisa Roberto
No posts were found with this tag.
