@article{3b1592a5d519468e8b8ef7fa43c84d03,
title = "Homeostatic circuits selectively gate food cue responses in insular cortex",
abstract = "Physiological needs bias perception and attention to relevant sensory cues. This process is 'hijacked' by drug addiction, causing cue-induced cravings and relapse. Similarly, its dysregulation contributes to failed diets, obesity, and eating disorders. Neuroimaging studies in humans have implicated insular cortex in these phenomena. However, it remains unclear how 'cognitive' cortical representations of motivationally relevant cues are biased by subcortical circuits that drive specific motivational states. Here we develop a microprism-based cellular imaging approach to monitor visual cue responses in the insular cortex of behaving mice across hunger states. Insular cortex neurons demonstrate food-cue-biased responses that are abolished during satiety. Unexpectedly, while multiple satiety-related visceral signals converge in insular cortex, chemogenetic activation of hypothalamic 'hunger neurons' (expressing agouti-related peptide (AgRP)) bypasses these signals to restore hunger-like response patterns in insular cortex. Circuit mapping and pathway-specific manipulations uncover a pathway from AgRP neurons to insular cortex via the paraventricular thalamus and basolateral amygdala. These results reveal a neural basis for state-specific biased processing of motivationally relevant cues.",
author = "Yoav Livneh and Ramesh, \{Rohan N.\} and Burgess, \{Christian R.\} and Levandowski, \{Kirsten M.\} and Madara, \{Joseph C.\} and Henning Fenselau and Goldey, \{Glenn J.\} and Diaz, \{Veronica E.\} and Nick Jikomes and Resch, \{Jon M.\} and Lowell, \{Bradford B.\} and Andermann, \{Mark L.\}",
note = "We thank S. Subramanian, N. Patel, M. Gyetvan, G. Niyazov, D. Anderson, and M. Dello Russo (mouse training), and A. Sugden (electronics). We thank the Lowell laboratory, Andermann laboratory, D. Nachmani, T. Anthony, and J. Assad for discussions. We thank the GENIE Project, Howard Hughes Medical Institute, for GCaMP6. The HSV129? TK-TT was provided by the Center for Neuroanatomy with Neurotropic Viruses (grant P40RR018604). Authors were supported by a European Molecular Biology Organization postdoctoral fellowship; Edmond and Lily Safra Center for Brain Sciences postdoctoral award (Y.L.); Davis Family Foundation postdoctoral fellowship (C.R.B.); National Science Foundation Graduate Research Fellowship Program and the Sackler Scholars Program (N.J.); National Institutes of Health (NIH), National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) NRSA F31 DK105678 (R.N.R.); F32 DK103387 (J.M.R.); an NIH New Innovator Award DP2 DK105570 and R01 DK109930, the Klarman Family Foundation, a McKnight Scholar Award, a Pew Scholar Award and a Smith Family Foundation Award (M.L.A.); NIH R01s DK075632, DK096010, DK089044, DK111401, and P30s DK046200 and DK057521 (B.B.L.). Contributions - Y.L., B.B.L., and M.L.A. designed the experiments and wrote the manuscript. Y.L. performed all imaging, feeding studies, pharmacological silencing, and data analyses. Y.L. and K.M.L. performed circuit mapping. Y.L., G.J.G., and M.L.A. developed the InsCtx microprism surgery. Y.L. and V.E.D. performed fibre photometry. J.C.M. and H.F. performed slice electrophysiology. Y.L. and N.J. performed locomotion experiments. R.N.R. assisted with data analysis and provided conceptual input. C.R.B. assisted with initial imaging and AgRP activation, and provided conceptual input. J.M.R. assisted with initial pharmacological silencing.",
year = "2017",
month = jun,
day = "29",
doi = "10.1038/nature22375",
language = "الإنجليزيّة",
volume = "546",
pages = "611--616",
journal = "Nature",
issn = "0028-0836",
publisher = "Nature Research",
number = "7660",
}