BME WEBINAR SERIES: Mikhail G. Shapiro, PhD, California Institute of Technology
Friday,
October 30, 2020
11:00 AM - 12:00 PM
Online
On Friday, October 30th @ 11:00AM EDT, we welcome Mikhail G. Shapiro, PhD, Professor of Chemical Engineering and Investigator in the Heritage Medical Research Institute at the California Institute of Technology as he presents, "Talking to Cells: Biomolecular Engineering for Non-Invasive Imaging and Control of Cellular Function."
ABOUT THE SEMINAR
The study of biological function in intact organisms and the development of targeted cellular therapeutics necessitate methods to image and control cellular function in vivo. Technologies such as fluorescent proteins and optogenetics serve this purpose in small, translucent specimens, but are limited by the poor penetration of light into deeper tissues. In contrast, most non-invasive techniques such as ultrasound and magnetic resonance imaging – while based on energy forms that penetrate tissue effectively – are not effectively coupled to cellular function. Our work attempts to bridge this gap by engineering biomolecules with the appropriate physical properties to interact with magnetic fields and sound waves. In this talk, I will describe our recent development of biomolecular reporters and actuators for ultrasound and magnetic resonance imaging. The reporters are based on a unique class of gas-filled protein nanostructures from buoyant photosynthetic microbes. These proteins produce nonlinear scattering of sound waves, enabling their detection with ultrasound, and perturb magnetic fields, allowing their detection with MRI. I will describe our recent progress in understanding the biophysical and acoustic properties of these biomolecules, engineering their mechanics and targeting at the genetic level, developing methods to enhance their detection in vivo, expressing them heterologously as reporter genes, and turning them into dynamic sensors of enzyme activity. Our actuators are based on temperature-dependent transcriptional repressors, which provide switch-like control of bacterial gene expression in response to small changes in temperature. We have genetically tuned these repressors to activate at thresholds within the biomedically relevant range of 32ºC to 46ºC, and constructed genetic logic circuits to connect thermal signals to various cellular functions. This allows us to use focused ultrasound to remote-control engineered cells in vivo. In addition, I will describe methods to use ultrasound in combination with viral vectors and engineered receptors to provide spatially and cell-type specific non-invasive control over neural activity.
ABOUT THE SPEAKER
Mikhail G. Shapiro, PhD
Professor of Chemical Engineering
Investigator, Heritage Medical Research Institute
California Institute of Technology
Mikhail Shapiro is a Professor of Chemical Engineering and an Investigator of the Heritage Medical Research Institute at Caltech. The Shapiro laboratory develops biomolecular technologies allowing cells to be imaged and controlled inside the body using sound waves and magnetic fields to enable the study of biological function in vivo and the development of cell-based diagnostic and therapeutic agents. Mikhail received his PhD in Biological Engineering from MIT and his BSc in Neuroscience from Brown, and conducted post-doctoral research at the University of Chicago and the University of California, Berkeley, where he was a Miller Fellow. Mikhail’s awards include the Packard Fellowship, the Pew Scholarship, the Camille Dreyfus Teacher-Scholar Award and the Roger Tsien Award for Excellence in Chemical Biology.
ABOUT THE 2020-2021 BME WEBINAR SERIES
The Department of Biomedical Engineering at Columbia University is proud to host an annual weekly webinar series on the latest developments and research in Biomedical Engineering
ABOUT THE SEMINAR
The study of biological function in intact organisms and the development of targeted cellular therapeutics necessitate methods to image and control cellular function in vivo. Technologies such as fluorescent proteins and optogenetics serve this purpose in small, translucent specimens, but are limited by the poor penetration of light into deeper tissues. In contrast, most non-invasive techniques such as ultrasound and magnetic resonance imaging – while based on energy forms that penetrate tissue effectively – are not effectively coupled to cellular function. Our work attempts to bridge this gap by engineering biomolecules with the appropriate physical properties to interact with magnetic fields and sound waves. In this talk, I will describe our recent development of biomolecular reporters and actuators for ultrasound and magnetic resonance imaging. The reporters are based on a unique class of gas-filled protein nanostructures from buoyant photosynthetic microbes. These proteins produce nonlinear scattering of sound waves, enabling their detection with ultrasound, and perturb magnetic fields, allowing their detection with MRI. I will describe our recent progress in understanding the biophysical and acoustic properties of these biomolecules, engineering their mechanics and targeting at the genetic level, developing methods to enhance their detection in vivo, expressing them heterologously as reporter genes, and turning them into dynamic sensors of enzyme activity. Our actuators are based on temperature-dependent transcriptional repressors, which provide switch-like control of bacterial gene expression in response to small changes in temperature. We have genetically tuned these repressors to activate at thresholds within the biomedically relevant range of 32ºC to 46ºC, and constructed genetic logic circuits to connect thermal signals to various cellular functions. This allows us to use focused ultrasound to remote-control engineered cells in vivo. In addition, I will describe methods to use ultrasound in combination with viral vectors and engineered receptors to provide spatially and cell-type specific non-invasive control over neural activity.
ABOUT THE SPEAKER
Mikhail G. Shapiro, PhD
Professor of Chemical Engineering
Investigator, Heritage Medical Research Institute
California Institute of Technology
Mikhail Shapiro is a Professor of Chemical Engineering and an Investigator of the Heritage Medical Research Institute at Caltech. The Shapiro laboratory develops biomolecular technologies allowing cells to be imaged and controlled inside the body using sound waves and magnetic fields to enable the study of biological function in vivo and the development of cell-based diagnostic and therapeutic agents. Mikhail received his PhD in Biological Engineering from MIT and his BSc in Neuroscience from Brown, and conducted post-doctoral research at the University of Chicago and the University of California, Berkeley, where he was a Miller Fellow. Mikhail’s awards include the Packard Fellowship, the Pew Scholarship, the Camille Dreyfus Teacher-Scholar Award and the Roger Tsien Award for Excellence in Chemical Biology.
ABOUT THE 2020-2021 BME WEBINAR SERIES
The Department of Biomedical Engineering at Columbia University is proud to host an annual weekly webinar series on the latest developments and research in Biomedical Engineering
Register at the link above!
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