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  • Ghrelin readily crosses the blood brain barrier Banks et

    2021-11-29

    Ghrelin readily crosses the blood zj to j mg barrier (Banks et al., 2002, Banks et al., 2008), and recent studies have identified central nervous system sites of action for ghrelin-mediated appetite and hyperphagia (Alvarez-Crespo et al., 2012, King et al., 2011, Schele et al., 2016, Skibicka et al., 2011, Skibicka et al., 2013, St-Onge et al., 2015). Among these various sites, the hippocampus, a brain region traditionally associated with learning and memory, has been identified as a site of importance in the higher-order control of feeding and energy balance (Benoit et al., 2010, Davidson et al., 2005, Davidson et al., 2014, Kanoski, 2012, Kanoski and Grill, 2017, Parent et al., 2014, Tracy et al., 2001). Interestingly, ghrelin receptors are extensively expressed in the hippocampus, particularly in the ventral subregion (vHP) (Mani et al., 2014, Zigman et al., 2006). Work from our laboratory revealed that ghrelin acts in the vHP to modulate learned feeding behaviors in response to either environmental food-associated discrete stimuli (Kanoski et al., 2013) or circadian-driven food cues (Hsu et al., 2015). Importantly, social learning tasks like the STFP have been shown to be hippocampal-dependent (Carballo-Marquez et al., 2009, Countryman and Gold, 2007, Countryman et al., 2005, Winocur et al., 2001), and the vHP subregion has been identified as a critical neural substrate that regulates learning and memory processes related to social cues (Countryman et al., 2005, Gold et al., 2011, Hegde et al., 2016, Smith et al., 2007). Collectively, these data provide support for a hypothesis where ghrelin signaling in the vHP acts as an integrative central endocrine process that facilitates learned aspects of socially-driven feeding behaviors. The current manuscript utilizes multiple levels of analyses involving site-specific neuropharmacology, vHP targeted adeno-associated virus (AAV)-mediated GHSR-1A knockdown, and behavioral analyses to determine whether vHP ghrelin signaling plays an endogenous role in modulating learned feeding behaviors induced by social food-related cues.
    Materials and methods
    Results
    Discussion Learning and memory processes have a powerful influence on food intake and energy balance. Recent research has identified ghrelin as a particularly important biological substrate that modulates these types of conditioned, learned feeding behaviors (Hsu et al., 2016). Here we illuminate a novel neural substrate through which ventral hippocampus (vHP) neurons are integrated with ghrelin receptor signaling to facilitate socially-mediated food preferences. We first demonstrated that pharmacological activation of vHP GHSR-1As results in an increased preference for foods that are associated with social interaction with another rat. Importantly, while the animals had elevated vHP ghrelin signaling during the social interaction phase, the preference test occurred 24hr after vHP ghrelin administration, well beyond the typical hyperphagic effects of vHP GHSR-1A activation (up to 5 h, see (Hsu et al., 2015, Kanoski et al., 2013)). Importantly there were no group differences in the time spent during social interaction, indicating that vHP ghrelin did not interfere with general social exploration. Taken together, these data suggest that vHP GHSR-1A activation facilitates the learned aspects of socially-driven feeding behavior. It should be noted that the current study did not systematically characterize the mnemonic zj to j mg constructs involved in vHP ghrelin mediated social food learning (e.g. acquisition, consolidation, retrieval). Recent work has demonstrated that vHP processing mediates the acquisition and consolidation of social long-term memories (Countryman et al., 2005, Gold et al., 2011, Hegde et al., 2016, Smith et al., 2007). In the present study vHP ghrelin was administered prior to the conditioning phase (the social interaction) and therefore may have influenced acquisition and/or consolidation. Future studies could dissociate between ghrelin's effect on these three phases of memory formation and expression by administering ghrelin immediately after the social interaction, or shortly before the retention/test phase.