Lecture 13: Monitoring Mammalian Cell Growth PDF

Summary

This document provides lecture notes on monitoring mammalian cell growth. It covers both direct and indirect methods, including cell counting, microscopic counts, electronic counters, and metabolic activity measurements such as glucose measurement. The lectures detail various aspects from theory to application of these techniques.

Full Transcript

Week 1 Tue 10th Sept Lecture Module Introduction

Week 2 Mon 16th Sept Lecture 1 Use of mammalian cells
Tue 17th Sept Lecture 2 Cell Culture Laboratory Lab layout, Equipment and
Materials
Week 3 Mon 23rd Sept Lecture 3 Contamination control
Tue 24th Sept Lecture 4 Contamination control
Week 4 Mon 30th Sept Lecture 5 Contamination control
Tue 01st Oct Lecture 2, 3, 4 and 5 recap and sample assessment questions
Week 5 Mon 07th Oct Lecture 6 Nutrient uptake
Tue 08th Oct Lecture 7 Nutrient uptake and sample assessment questions
Week 6 Mon 14th Oct Lecture 8 Biology of Culture Cells
Tue 15th Oct Lecture 9 Cell culture media

Week 7 Mon 21st Oct Lecture 10 Cell culture media postponed
Tue 22nd Oct Lab 3 data analysis
Reading Week
Week 8 Mon 04thNov Lecture 10 Cell culture media
Tue 05 Nov
th Lecture 11 Cell Culture Media
Week 9 Mon 11th Nov Lecture 12 Growing mammalian cells
Tue 12th Nov Lecture 8, 9, 10 and 11 recap and sample assessment questions
Week 10 Mon 18th Nov Lecture 13 Monitoring growth
Tue 19th Nov Lecture 14 Cryopreservation of cells and Lecture 12, 13 and 14
recap and sample assessment questions
Week 11 Mon 25th Nov Lecture 15 Innate immune response
Tue 26th Nov Lecture 16 Adaptive immune response & Bioassays
Lecture 15 and 16 recap and sample assessment questions
Week 12 Mon 02nd Dec Revision
Tue 03rd Dec
 Monitoring Mammalian Cell Growth

Lecture Overview

Introduction: Why discuss this topic
Main discussion: Direct and Indirect methods
for monitoring growth of mammalian cells
Conclusion: Take home message

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 2
 Monitoring Mammalian Cell Growth

Introduction

For any bioprocess using cells need to be able to
monitor the growth of the cells

Methods can be:
- direct or indirect
- in-line or off-line

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 3
 Monitoring Mammalian Cell Growth

Cell quantification is required for applications that require
the use of cells

The accurate determination of cell growth is pivotal to
monitoring a bioprocess

DIRECT methods of measuring mammalian growth
Counting cells
microscopic counts (manual, automated)
electronic counters

INDIRECT methods of monitoring mammalian growth
Not counting cells directly
metabolic activity e.g. glucose measurement

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 4
 Monitoring Mammalian Cell Growth
Direct Measurements
Cell Counts Hemacytometer
Concentration of cell
suspension determined
by placing cells in a
haemocytometer and
counting using a phase
contrast microscope
Specialized chamber with
etched grid used to count
the number of cells in a
sample.
Use of trypan blue allows
differentiation between
living and dead cells Count all cells
within the four
corner areas.

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 5
 Monitoring Mammalian Cell Growth
Direct Measurements
Cell Counts Hemacytometer
Phase Contrast Microscope
A phase contrast microscope
with objectives below the
specimen.
A phase plate will aid in
exploiting differences in
refractive indices in different
areas of the cells and
surrounding areas, creating
contrast

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 6
 Monitoring Mammalian Cell Growth
Direct Measurements
Using the haemacytometer What the cells look like
Remove the hemacytometer and Living cells - Bright refractile
coverslip (carefully), wash and dry “spheres”
thoroughly. Dead cells - blue
Center coverslip on hemacytometer
Barely fill the grid under the coverslip
with your cell suspension.
Count cells in four squares.

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 7
 Monitoring Mammalian Cell Growth
Direct Measurements
Using the haemacytometer

Count all the cells in the four corner squares.
Separate count of live and dead cells.
Include cells on top and left line. Do not count
cells touching middle line at bottom and right.
Total volume counted – 0.4µl (0.1µl when
averaged)

Cells/ml = cell count x dilution factor x 104
4

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 8
 Monitoring Mammalian Cell Growth

Cells/ml
Count *dilution * 104
4

% Viability
Live cells * 100
Total cells

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 9
 Monitoring Mammalian Cell Growth
A. 150 cells (average) B. 110 cells (average)
125 live 105 live
25 Dead 5 Dead
10µl cells + 90µl Trypan Blue 50µl cells + 50µl Trypan Blue

Live cell count/ml? Total cell count/ml?
% Viability % Viability

C. 10 live 16 live
2 dead 1 dead
Count all cells
within the four
corner areas.
13 live 17 live
4 dead 2 dead

20µl cells + 80µl Trypan Blue
Live cell count/ml?
% Viability
BIOT6012 Mammalian Biotechnology Lecture 13 Slide 10
 Monitoring Mammalian Cell Growth
Direct Measurements
Countess Automated Cell Counter
Front View
Automated
Side View
cell counter that
performs cell count and viability
Slide Port Power measurements using trypan blue
USB Port
Button
stain
A single, sample measurement within
Touchscreen
a minute provides the following data:
LiveFocus
and dead cell
Focus Knob
Lock

concentration/mL
Total cell concentration/mL
Viability (% live cells to total cells)
Mean diameter
Cell images
Graphical data representation

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 11
 Monitoring Mammalian Cell Growth

Cell Density Calculation

Calculate the volume of stock cell culture that must be taken
and the volume of diluting growth medium that must be added
to accomplish a final concentration in the new flask of 1 x 104
cells/ml in a final volume of 10ml.
Stock cell culture = 1 x 106 cells/ml
Required concentration in new flask = 1 x 104 cells/ml in a final volume
of 10ml.

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 12
 Monitoring Mammalian Cell Growth
Direct Measurements
Electronic cell counter
Cell suspension is forced through a small hole.
Electrodes on either side of the hole measures electrical resistance.
Electrical resistance increases each time a cell passes through the hole –
recorded as a signal by the electronic counter.

Advantage – speed of analysis makes it suitable for counting a large
number of samples
Disadvantage – does not distinguish between live and dead cells
- cell aggregates can result in underestimated counts
BIOT6012 Mammalian Biotechnology Lecture 13 Slide 13
 Monitoring Mammalian Cell Growth
Indirect Measurements
Indirect methods of estimating cell growth involve the
chemical analysis of a culture component or a measure of
metabolic activity.
- nucleic acid or protein (estimate of biomass)
- glucose depletion (estimate of cellular activity)

Main substrates Waste Products
Glucose Lactate
Amino Acids Ammonia
Alanine

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 14
 Monitoring Mammalian Cell Growth
Indirect Measurements

Glucose is the main substrates of mammalian cells.
- utilised by the cells in the highest amount of all available
substrates.

Cells recruit most of their energy from glucose. Limitation results
in:
- cessation of cell growth
- cell death
- loss of productivity

Control of glucose concentration is crucial for any bioprocess
using mammalian cells.
- photometric enzyme-based assays (off-line)
- glucose sensors (in-line)

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 15
 Monitoring Mammalian Cell Growth
Indirect Measurements
Photometric enzyme-based assays as per BIOT6012 Lab 3
E.g. Glucose oxidase assay can be used to measure glucose
concentration.
- colourimetric assay that utilises two enzymes.

Glucose oxidase
D-glucose + H2O + O2 D-gluconic acid + H2O2

Peroxidase
2H2O2 + phenol + 4-aminophenazone red quinone + 4H2O

Coloured complex measured
with spectrophotometer
BIOT6012 Mammalian Biotechnology Lecture 13 Slide 16
 Monitoring Mammalian Cell Growth

YSI Glucose Analyser (automated enzyme analysis)
Measure important nutrients and
metabolites including glucose, lactate,
glutamine, glutamate, ammonium,
potassium, ethanol, methanol and more.

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 17
 Monitoring Mammalian Cell Growth
Remove a
sample from No removal
the growth of a sample
vessel from the
growth
vessel

Off-line and in-line monitoring of growth

Haemocytometer Sample
Automated removed
counters Off-line
from
Electronic analysis
culture
counters vessel for
Glucose analysis analysis

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 18
 Monitoring Mammalian Cell Growth
Cell Counting
Off-line In-line
Example: Aber Biomass Probes

Remove Bioreactor - sterilisable probe that can be
sample inserted via a port into the vessel.
from
culture
vessel

- works in complex industrial media
- suitable for suspension and attached cells
Manual counting - measures viable cells using capacitance
(Haemocytometer) - insensitive to media, cell debris and gas
Automated counting (Countess bubbles
or other)

BIOT6012 Mammalian Biotechnology Lecture 13 Slide 19
 Monitoring Mammalian Cell Growth
Conclusion

The accurate determination of cell growth is pivotal to monitoring a
bioprocess

DIRECT methods of measuring microbial growth
Counting cells – can be manual or automated. Can determine % viability

INDIRECT methods of measuring microbial growth
Not counting cells directly
metabolic activity e.g. glucose measurement

Direct and indirect methods can be in-line or off-line

Measuring device Sample removed
e.g. sensor inserted from the growth
into growth medium vessel and
measured
BIOT6012 Mammalian Biotechnology Lecture 13 Slide 20