Do Lions Panthera leo Actively Select Prey or Do Prey Preferences Simply Reflect Chance Responses via Evolutionary Adaptations to Optimal Foraging?

Research on coursing predators has revealed that actions throughout the predatory behavioral sequence (using encounter rate, hunting rate, and kill rate as proxy measures of decisions) drive observed prey preferences. We tested whether similar actions drive the observed prey preferences of a stalking predator, the African lion Panthera leo. We conducted two 96 hour, continuous follows of lions in Addo Elephant National Park seasonally from December 2003 until November 2005 (16 follows), and compared prey encounter rate with prey abundance, hunt rate with prey encounter rate, and kill rate with prey hunt rate for the major prey species in Addo using Jacobs' electivity index. We found that lions encountered preferred prey species far more frequently than expected based on their abundance, and they hunted these species more frequently than expected based on this higher encounter rate. Lions responded variably to non-preferred and avoided prey species throughout the predatory sequence, although they hunted avoided prey far less frequently than expected based on the number of encounters of them. We conclude that actions of lions throughout the predatory behavioural sequence, but particularly early on, drive the prey preferences that have been documented for this species. Once a hunt is initiated, evolutionary adaptations to the predator-prey interactions drive hunting success

Interleukin-31-mediated photoablation of pruritogenic epidermal neurons reduces itch-associated behaviours in mice

Itch\u2014a major symptom of many chronic skin diseases\u2014can exacerbate inflammation by provoking scratching and subsequent skin damage. Here, we show that activation, via near infrared illumination, of a phototoxic agent that selectively targets itch-sensing cells can reduce itch-associated behaviours in mice. We generated a SNAP-tagged interleukin-31 (IL-31) ligand derivative (IL-31 K138A\u2013SNAP ) that selectively binds receptors on itch-associated cells, without evoking IL-31-receptor signalling or scratching, and conjugated it to the photosensitizer IRDye 700DX phthalocyanine. Subcutaneous injection of IL-31 K138A\u2013SNAP \u2013IR700 in mice followed by near infrared illumination resulted in the long-term reversal of the scratching behaviour evoked by the pruritogenic IL-31, an effect that was associated with the selective retraction of itch-sensing neurons in the skin. We also show that a topical preparation of IL-31 K138A\u2013SNAP \u2013IR700 reversed the behavioural and dermatological indicators of disease in mouse models of atopic dermatitis and of the genetic skin disease familial primary localized cutaneous amyloidosis. Targeted photoablation may enable itch control for the treatment of inflammatory skin diseases