Publication: Elucidation of immune cell function via nanotechnology and single-cell profiling.
Date
2014-06-06
Authors
Published Version
Published Version
Journal Title
Journal ISSN
Volume Title
Publisher
The Harvard community has made this article openly available. Please share how this access benefits you.
Citation
Gaublomme, Jellert Thomas. 2014. Elucidation of immune cell function via nanotechnology and single-cell profiling.. Doctoral dissertation, Harvard University.
Research Data
Abstract
A healthy immune system's core challenge is to mount appropriate responses to an immense and unknown variety of antigenic stimuli. By unraveling the regulatory networks that drive and control immune-cell behaviors, we can begin to identify the means by which proper balance can be achieved and aberrant behaviors clinically corrected. Traditionally, major advances in our understanding of cellular immunological processes depended critically on both improved perturbation and enhanced observation methods. In my doctoral research, I have pursued both strategies to elucidate the differentiation and effector functions of adaptive immune Th17 cells. These cells exemplify the need for balance: while Th17 cells are needed to induce clearance of fungal infections and extracellular bacteria, irregular responses have been strongly implicated in autoimmunity.
Description
Other Available Sources
Keywords
Nanoscience, Molecular biology, Immunology, EAE, heterogeneity, nanowires, regulatory network, single-cell, Th17
Terms of Use
Metadata Only