Multimodal Measurement of Apoptosis -- Integration of Biosensing,
Imaging, and Analysis
- Boyang Chen,
- Daniel Butt,
- Stephen Cross,
- Janice Kiely,
- Alin Achim,
- Richard Luxton,
- Paul Verkade
Boyang Chen
University of the West of England - City Campus
Author ProfileStephen Cross
University of Bristol Wolfson Bioimaging Facility
Author ProfileJanice Kiely
University of the West of England - City Campus
Author ProfileAlin Achim
University of Bristol School of Computer Science Electrical and Electronic Engineering and Engineering Maths
Author ProfileRichard Luxton
University of the West of England - City Campus
Author ProfilePaul Verkade
University of Bristol School of Biochemistry
Corresponding Author:p.verkade@bristol.ac.uk
Author ProfileAbstract
Apoptosis is a highly regulated form of cell death. Currently, the
established methods for apoptosis detection include observation of cell
morphology and probing of DNA fragmentation. These methods focus on the
detection of changes that occur later in the apoptotic process.
Nevertheless, detection of apoptosis at the early stages, prior to gross
morphological changes, is critical for understanding the entire
apoptotic pathway and for providing the possibility to intervene and
enhance longevity and productivity of cell cultures used to produce
biologicals. A group of proteases known as caspases act together in a
cascade to cleave proteins at aspartic acid residues. This proteolytic
cascade amplifies the apoptotic signalling pathway and thus leads to
rapid cell death. In this paper, an impedance spectroscopy technique
using non-Faradaic measurement of caspase-9 was combined with
fluorescence-based light microscopy including an associated macro-based
image analysis suite for ImageJ in a multimodal approach. Whereas the
biosensor measurements provide a cell population overview, the
microscopic analysis provides individual cell analysis. Combined, these
approaches allowed us to detect cells in the early stages of apoptosis
in the cell population. We believe these complementary methods will
allow us to follow the progression of apoptosis in cells more accurately
and give us a handle to intervene at early stages of apoptosis.