Neuroimmune mechanisms underlying obesity

The Domingos laboratory researches neuroimmune mechanisms underlying obesity. We discovered the sympathetic neuro-adipose junction, a functional synapse-like connection between the sympathetic nervous system and white adipocytes (Cell 2015). We found that this neuro-adipose junction is necessary and sufficient for fat mass reduction via norepinephrine (NE) signaling (Cell 2015, Nature Comm 2017). We then discovered Sympathetic neuron-Associated Macrophages (SAMs) that directly import and metabolize NE. Abrogation of SAM function promotes long-term amelioration of obesity independently of food intake (Nature Medicine, 2017). Given the recent discovery of SAMs, virtually nothing is insofar known about the cell biology of these cells or what other immune cells populate the SNS to cross talk with SAMs.

This PhD project aims to uncover  biological mechanisms of SAM biology. Using single cell sequencing methods, the student will unravel the heterogeneity of the sympathetic neuro-immune cross talk involving SAMs. By identifying novel immune cell mediators, we will have a better understanding of how SAMs are regulated, and pave the way to the identification of cellular and molecular targets that would then be amenable to drug delivery. We will be guided by singe cell sequencing dataset for formulating hypothesis that model fundamental aspects regarding the biology of these cells. The interactions between SNS axons and SAMs, or other resident cells identified by single cell sequencing, will be resolved by super resolution microscopy and 3D reconstruction, for a better understanding of the intricate topology of SAMs’ morphology in relation to SNS axons (Nature Medicine 2017). The PhD candidate can also use optogenetics to probe neuro-immune interactions (as in Nature Medicine 2017), as well as 3DISCO imaging for mapping the distribution of the aforementioned cells in adipose tissues. This project will give a candidate a tremendous opportunity to apply cutting-edge methods in the growing field of neuroimmune biology.