Pascal Kaeser

Pascal Kaeser, M.D.

Professor of Neurobiology, Harvard Medical School

Our goal is to understand molecular mechanisms that underlie functions and plasticity of release sites for neurotransmitters and neuromodulators. Neurons predominantly communicate through fast neurotransmission at synapses. Synaptic and neuronal activity levels are tightly controlled, and adjusted to changes in demand. Prominent cellular events that underlie these adaptations are synaptic plasticity and neuromodulation via release of non-classical transmitters. My laboratory is interested in molecular mechanisms at presynaptic neurotransmitter release sites that participate in controlling neuronal activity, and we pursue two missions. (1) It is known that synaptic vesicles containing neurotransmitters fuse exclusively at hot spots for release in presynaptic nerve terminals called active zones. Active zones are fascinating molecular machines that consist of a complex network of multi-domain proteins, orchestrating the ultrafast membrane trafficking process required for synaptic transmission. We are investigating the composition of active zones, how they operate, how they change during plasticity and learning, and how these changes tune behaviors. (2) Neuronal activity is regulated by an intriguing variety of non-classical neurotransmitters called neuromodulators. Prominent neuromodulatory substances include a multitude of neuropeptides, monoamines such as dopamine, and neurotrophins. The machinery that mediates their release, however, is poorly understood. We are dissecting the molecular apparatus that controls release of dopamine, which will reveal general mechanisms of neuromodulation. Understanding dopamine release will also provide a molecular framework to investigate aspects of neuro-psychiatric disorders. Studies in my laboratory are founded on molecular and biochemical methods to identify novel components and protein interactions at neuronal release sites. We employ techniques ranging from conditional gene targeting in mice to electrophysiological and optogenetic analyses of synaptic activity to dissect their roles.

"My laboratory is interested in molecular mechanisms at presynaptic neurotransmitter release sites that participate in controlling neuronal activity."

Publications View
Nanoscale Location Matters: Emerging Principles of Ca2+ Channel Organization at the Presynaptic Active Zone.
Authors: Authors: Liu C, Kaeser PS.
Neuron
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Firing rate homeostasis can occur in the absence of neuronal activity-regulated transcription.
Authors: Authors: Tyssowski KM, Letai KC, Rendall SD, Tan C, Nizhnik A, Kaeser PS, Gray JM.
J Neurosci
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The RAB3-RIM Pathway Is Essential for the Release of Neuromodulators.
Authors: Authors: Persoon CM, Hoogstraaten RI, Nassal JP, van Weering JRT, Kaeser PS, Toonen RF, Verhage M.
Neuron
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RIM is essential for stimulated but not spontaneous somatodendritic dopamine release in the midbrain.
Authors: Authors: Robinson BG, Cai X, Wang J, Bunzow JR, Williams JT, Kaeser PS.
Elife
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Immuno-SABER enables highly multiplexed and amplified protein imaging in tissues.
Authors: Authors: Saka SK, Wang Y, Kishi JY, Zhu A, Zeng Y, Xie W, Kirli K, Yapp C, Cicconet M, Beliveau BJ, Lapan SW, Yin S, Lin M, Boyden ES, Kaeser PS, Pihan G, Church GM, Yin P.
Nat Biotechnol
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SynGO: An Evidence-Based, Expert-Curated Knowledge Base for the Synapse.
Authors: Authors: Koopmans F, van Nierop P, Andres-Alonso M, Byrnes A, Cijsouw T, Coba MP, Cornelisse LN, Farrell RJ, Goldschmidt HL, Howrigan DP, Hussain NK, Imig C, de Jong APH, Jung H, Kohansalnodehi M, Kramarz B, Lipstein N, Lovering RC, MacGillavry H, Mariano V, Mi H, Ninov M, Osumi-Sutherland D, Pielot R, Smalla KH, Tang H, Tashman K, Toonen RFG, Verpelli C, Reig-Viader R, Watanabe K, van Weering J, Achsel T, Ashrafi G, Asi N, Brown TC, De Camilli P, Feuermann M, Foulger RE, Gaudet P, Joglekar A, Kanellopoulos A, Malenka R, Nicoll RA, Pulido C, de Juan-Sanz J, Sheng M, Südhof TC, Tilgner HU, Bagni C, Bayés À, Biederer T, Brose N, Chua JJE, Dieterich DC, Gundelfinger ED, Hoogenraad C, Huganir RL, Jahn R, Kaeser PS, Kim E, Kreutz MR, McPherson PS, Neale BM, O'Connor V, Posthuma D, Ryan TA, Sala C, Feng G, Hyman SE, Thomas PD, Smit AB, Verhage M.
Neuron
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Liquid Active Zones for Controlling the Phases of Synaptic Transmission.
Authors: Authors: Emperador-Melero J, Kaeser PS.
Mol Cell
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Mechanisms and regulation of dopamine release.
Authors: Authors: Liu C, Kaeser PS.
Curr Opin Neurobiol
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A Presynaptic Liquid Phase Unlocks the Vesicle Cluster.
Authors: Authors: Wang SSH, Kaeser PS.
Trends Neurosci
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RIM C2B Domains Target Presynaptic Active Zone Functions to PIP2-Containing Membranes.
Authors: Authors: de Jong APH, Roggero CM, Ho MR, Wong MY, Brautigam CA, Rizo J, Kaeser PS.
Neuron
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