Lateral hypothalamic leptin receptor neurons drive hunger-gated food-seeking and consummatory behaviours in male mice.
Young Hee LeeYu-Been KimKyu Sik KimMirae JangHa Young SongSang-Ho JungDong-Soo HaJoon Seok ParkJae Geon LeeKyung Min KimDeok-Hyeon CheonInhyeok BaekMin-Gi ShinEun Jeong LeeSang Jeong KimHyung Jin ChoiPublished in: Nature communications (2023)
For survival, it is crucial for eating behaviours to be sequenced through two distinct seeking and consummatory phases. Heterogeneous lateral hypothalamus (LH) neurons are known to regulate motivated behaviours, yet which subpopulation drives food seeking and consummatory behaviours have not been fully addressed. Here, in male mice, fibre photometry recordings demonstrated that LH leptin receptor (LepR) neurons are correlated explicitly in both voluntary seeking and consummatory behaviours. Further, micro-endoscope recording of the LH LepR neurons demonstrated that one subpopulation is time-locked to seeking behaviours and the other subpopulation time-locked to consummatory behaviours. Seeking or consummatory phase specific paradigm revealed that activation of LH LepR neurons promotes seeking or consummatory behaviours and inhibition of LH LepR neurons reduces consummatory behaviours. The activity of LH LepR neurons was increased via Neuropeptide Y (NPY) which acted as a tonic permissive gate signal. Our results identify neural populations that mediate seeking and consummatory behaviours and may lead to therapeutic targets for maladaptive food seeking and consummatory behaviours.