[
Cell Host Microbe,
2014]
During acute infection our behavior tends to change. Despite how common sickness behavior is, its molecular basis is not well understood. In a study published in Cell, Kim and colleagues (Meisel etal., 2014) implicate bacterial secondary metabolites as triggers of neural TGF-? signaling, which results in behavioral change during infection.
[
Worm,
2016]
The hypoxic response is a well-studied and highly conserved biological response to low oxygen availability. First described more than 20 y ago, the traditional model for this response is that declining oxygen levels lead to stabilization of hypoxia-inducible transcription factors (HIFs), which then bind to hypoxia responsive elements (HREs) in target genes to mediate the transcriptional changes collectively known as the hypoxic response.(1,2) Recent work in C. elegans has forced a re-evaluation of this model by indicating that the worm HIF (HIF-1) can mediate effects in a cell non-autonomous fashion and, in at least one case, increase expression of an intestinal hypoxic response target gene in cells lacking HIF-1.