Carbohydrates act as sorting determinants in ER - Journal of Cell
LumaCyte label-free single cell analysis and sorting products and services
Transcript of LumaCyte label-free single cell analysis and sorting products and services
Label-based Analysis
o Label-based analysis is used extensively in flow
cytometry and microscopy
o Labels include antibodies and genetic markers
(e.g. green fluorescent protein)
o Label-based analysis is:
• Widely used
• Highly specific
• Commoditized
o However, it is not without problems and limitations
Limits of Label-based Analysis
o Inaccurate: Analysis skewed by presupposition
of labels needed to identify target cells.
o Incomplete: Cannot detect cells expressing
unknown or unexpressed surface target
proteins or antigens (false negatives). Antibody
non-specific binding can lead to false positives.
o Biased: Labels can affect cells causing
biochemical changes thereby biasing results.
o Inefficient: Resource-intensive activities
increase errors, consume time and capital.
RadianceTM
Lighting the Way…
RadianceTM is a microfluidic
and optical instrument for
label-free cell analysis and
sorting.
RadianceTM
Fundamental Technology
o Initiates and measures
optical force on single
cells
o Precisely characterizes
intrinsic cellular properties:
• Shape, Morphology
• Biochemistry
• Deformability
RadianceTM
o Microfluidic environment
precisely controls cells, enabling
single cell analysis and sorting
o High resolution imaging and
video capture of each cell
o Cells are viable after sorting for
further analysis
o Small volumes can be used to
conserve precious samples
Features
Deformability, Optical Force and Biology
o Deformability is measured to gauge cytoskeletal changes
due to disease, cell state or pharmaceutical action
o Optical force is a complex, sensitive quantity that reflects
a variety of phenotypic changes within a cell
RadianceTM : Who Benefits?
Small, mid-size and global biopharmas that want to
control costs while simultaneously increasing the
reach and accuracy of their research.
RadianceTM Key Applications
o Phenotypic Drug Discovery
(PDD)
o Vaccine Development – rapid
viral titering and infectivity
studies
o Cell Clearance – apoptosis,
macrophages
o Cancer Biology – solid and
circulating tumor cells
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Average Velocity (mm/sec)
Control Day 2
MOI 1 Day 2
MOI 5 Day 2
975
Adenovirus Infection in HEK 293 Cells
Infected cells can be rapidly
identified by their low velocity
o Traditional methods to detect virus can take 5 – 10+ days o Infection of mammalian cells can be seen in 2 days or
less using RadianceTM
o The percentage of low velocity cells measured correlates with the viral titer of the sample
Apoptosis in adenocarcinoma cells (A549)
staurosporine
Induction of apoptosis changes cell morphology, biochemical composition and optical force
HCC2429 tumor cell line
Focal point of laser beam Deformability
Deformability in Lung Cancer Cells
Entry point Native cell shape
Time lapse images showing cell deformability measured using RadianceTM
Cancer Drug Candidate Testing
Selumetinib: an oral small-molecule MEK inhibitor
Tested on adenocarcinoma cells (A549)
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Average Velocity (microns/sec)
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2 uM Selumetinib
20uM Selumetinib
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Average velocity 93%
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Untreated 2uM Sel 20uM Sel
Viability
o Cellular response to drug candidates can be quantified using optical force measurements
Cancer Drug Candidate Testing
Selumetinib: an oral small-molecule MEK inhibitor
Tested on adenocarcinoma cells (A549)
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Average Velocity (microns/sec)
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2 uM Selumetinib
20uM Selumetinib
o Cellular changes can be measured using optical force, deformability, and imaging to better understand drug candidate action on cells
Lighting the Way….Learn More About LumaCyte
Sean Hart, Ph.D. President, Chief Executive Officer
Dr. Hart led the second group in the world
to research optical chromatography that
led to the invention of the technology used
in RadianceTM.
• PhD in Chemistry from Tufts University
• 4 patents issued / 4 patents pending
• 50+ journal articles
Thank you for your time and kind consideration.
Lumacyte.com
(888) 472-9295