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INFORMATION FOR

    Candie Paulsen, PhD

    Assistant Professor of Molecular Biophysics & Biochemistry
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    About

    Titles

    Assistant Professor of Molecular Biophysics & Biochemistry

    Biography

    I love exploring the unknown and the thrill and sense of accomplishment that comes with making the unknown familiar. This passion has inspired me to make significant transitions, both conceptually and with methodology, at every stage of my career. I purposefully choose research projects that serve to improve human health as well as stand to make fundamental discoveries of basic biology and physiology. Moreover, I thoroughly enjoy teaching, mentoring, and helping young scientists find the joy in science. As a graduate student with Kate Carroll at the University of Michigan and The Scripps Research Institute in Jupiter, FL, I studied redox regulation of signal transduction cascades important to cancer. As a postdoctoral fellow with David Julius at the University of California, San Francisco, I determined the first structures of an important pain receptor, TRPA1 by cryo-EM. In the Paulsen Lab, we combine my diverse trainings to take a multidisciplinary approach to understand how TRPA1 is regulated and dysregulated by novel natural variants and through protein-protein interactions. This work is carried out with an eye towards discovering what a pain receptor "sees" in a cellular context, how those molecules can modulate its activity basally, and how those interactions may be modified to contribute to the development of chronic pain/inflammation.

    Appointments

    Education & Training

    Staff Scientist
    Yale University (2017)
    Staff Scientist
    University of California, San Francisco (2017)
    Postdoctoral Fellow
    University of California, San Francisco (2017)
    Postdoctoral Fellow
    The Scripps Research Institute (2012)
    PhD
    University of Michigan, Chemical Biology (2011)
    BS
    Purdue University, Genetic Biology (2006)

    Research

    Overview

    Pain is a fundamental protective mechanism initiated in response to harmful thermal, mechanical, or chemical stimuli that is necessary for survival of a species. When pain sensory neurons become hyper-sensitized, pain can outlive its protective utility and become chronic and debilitating. 100 million Americans suffer from chronic pain, yet, little progress has been made to develop new pain remedies beyond non-steroidal anti-inflammatory agents and opioids, which harbor significant side effects and the risk of addiction. The wasabi receptor, TRPA1, is a non-selective homotetrameric cation channel expressed in primary pain sensory neurons where its activation by diverse chemical irritants initiates pain signals and neurogenic inflammation. This central role of TRPA1 in initiating and enhancing pain signaling through neurogenic inflammation has deemed it a gatekeeper to the development of chronic pain and mark it a viable target for new pain therapeutics. Despite its importance, there is much we do not understand about how TRPA1 is regulated, how it becomes hyper-activated, and how hyper-activated TRPA1 uniquely contributes to the development of chronic pain. Our current research program focuses on determining how TRPA1 is regulated by proteins, lipids, and small molecules and how modifications to those regulatory mechanisms contribute to channel hypersensitivity and aberrant pain signaling. To answer these questions, we employ a multidisciplinary approach that includes chemical biology, molecular biology, protein biochemistry, ion channel electrophysiology, and single-particle electron cryo-microscopy.


    Research at a Glance

    Yale Co-Authors

    Frequent collaborators of Candie Paulsen's published research.

    Publications

    2024

    2023

    2022

    2020

    2018

    2017

    2016

    2015

    Academic Achievements & Community Involvement

    • activity

      Alpha Chi Sigma

    • activity

      Biophysical Society

    • activity

      Frontiers in Pain Research

    • activity

      Communications Biology

    • honor

      Award in Pain Scholar

    Get In Touch

    Contacts

    Academic Office Number
    Lab Number

    Administrative Support

    Locations

    • Bass Center

      Academic Office

      266 Whitney Avenue, Fl 2, Rm 234

      New Haven, CT 06511