Lecture 5: Contamination in Mammalian Cell Cultures (PDF)

Summary

This document is a lecture slide set on contamination in mammalian cell cultures. It discusses various types of contamination, including bacterial, viral, and mycoplasma contamination. It also covers the characteristics of different types of contamination, detection, and prevention techniques. The summary also notes the practical implications of contamination.

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
Tue 22nd Oct Lab 3 data analysis
Reading Week
Week 8 Mon 04thNov Lecture 11 Cell Culture Media
Tue 05 Nov
th Lecture 8, 9, 10 and 11 recap and sample assessment questions

Week 9 Mon 11th Nov Lecture 12 Growing mammalian cells
Tue 12th Nov Lecture 13 Monitoring growth
Week 10 Mon 18th Nov Lecture 14 Cryopreservation of cells
Tue 19th Nov 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

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 1
 Contamination in Mammalian Cell Cultures

Lecture Overview

Introduction: Why discuss this topic
Main discussion: Identify Most Common
Contamination sources in the Cell Culture
Laboratory
Conclusion: Take home message

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 2
 Contamination in Mammalian Cell Cultures

Introduction

Mammalian cell culture is the removal of animal
cells and subsequent propagation and cultivation in
vitro in an artificial environment that is suitable for
growth

An aseptic environment is created to reduce or
eliminate incidences of contamination

Contamination can be from biological or chemical
sources

This lecture will identify the most common cell
culture contaminants
BIOT6012 Mammalian Biotechnology Lecture 5 Slide 3
 Contamination in Mammalian Cell Cultures

Mammalian Cell Culture Biological Threats
Any biological entity other than the desired mammalian cell is
contamination

Other cell lines (cross contamination)
Yeast
Molds
Viruses
Bacteria (particularly problematic Mycoplasma)

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 4
 Contamination in Mammalian Cell Cultures

Characteristics of Bacterial Contamination of Mammalian Cell Cultures
pH
- sudden change in pH is often a strong indicator of contamination,
phenol red in the medium gives indication of pH

Phenol red pH chart — Media containing phenol red will appear red with
a pH of 7.4 and will range from yellow to purple as the pH changes.

Contamination of a culture of relatively slowly dividing mammalian cells*
can be quickly overgrown by microorganisms, resulting in the
acidification of the medium, and the indicator turning yellow.
Mammalian cell waste products themselves will slowly decrease the pH,
gradually turning the solution orange indicating that the medium needs
replacing, or the cells need to be sub-cultured.
*Note: mammalian cell doubling time 12 – 48 hours
bacteria e.g. E. coli 20 minutes
BIOT6012 Mammalian Biotechnology Lecture 5 Slide 5
 Contamination in Mammalian Cell Cultures

Characteristics of Bacterial Contamination of Mammalian Cell Cultures

Turbidity (adherent cells)
– Media looks cloudy

Microscopic evaluation
– Can see individual contaminating microorganisms

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 6
 Contamination in Mammalian Cell Cultures
Characteristics of Bacterial Contamination of Mammalian Cell Cultures

A B

Both flask A and B were inoculated with BHK (adherent) cells and examined
after 24 hours incubation at 37°C, 5% Co2.
Which flask is contaminated and why?

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 7
 Contamination in Mammalian Cell Cultures
Characteristics of Yeast Contamination of Mammalian Cell Cultures
Like bacterial contamination, cultures contaminated with yeasts become
turbid, especially if the contamination is in an advanced stage.
There is very little change in the pH of the culture contaminated by yeasts
until the contamination becomes heavy, at which stage the pH usually
increases.
Under microscopy, yeast appear as individual ovoid or spherical particles,
that may bud off smaller particles.
Yeast contamination of cell culture

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 8
 Contamination in Mammalian Cell Cultures
Characteristics of Mold Contamination of Mammalian Cell Cultures
pH of the culture remains stable in the initial stages of
contamination, then rapidly increases as the culture become more
heavily infected and becomes turbid.
Under microscopy, the mycelia usually appear as thin, wisp-like
filaments, and sometimes as denser clumps of spores.

Mold contamination of cell culture

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 9
 Contamination in Mammalian Cell Cultures

Which type of microbial contamination easiest to observe?

BIOT6012 Mammalian Biotechnology
 Contamination in Mammalian Cell Cultures

Virus Contamination of Mammalian Cell Cultures
Viruses are microscopic infectious agents that take over the host
cells machinery to reproduce

Their extremely small size makes them very difficult to detect in
culture, and to remove them from reagents used in cell culture
laboratories

Using virally infected cell cultures can present a serious health
hazard to the laboratory personnel, especially if human or primate
cells are cultured in the laboratory

Some viruses cause morphological changes to infected cells (e.g.
cytopathic effect) which are detectable by microscopy, however
some viral contaminations causes no visual evidence of infection

Viral infection of cell cultures can be detected by electron
microscopy, ELISA assays, or PCR with appropriate viral primers

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 10
 Contamination in Mammalian Cell Cultures

Virus Contamination of Mammalian Cell Cultures

The microscopic appearance of a
monolayer of uninfected human
fibroblasts grown in cell culture (A) and
the same cells after infection with herpes
simplex virus (B), demonstrating the
cytopathic effect caused by viral
replication and concomitant cell lysis.

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 11
 Contamination in Mammalian Cell Cultures

Cross-Contamination
- with other cell lines

Avoiding cross-contamination:
- obtaining cell lines from reputable cell banks
- periodically checking the characteristics of the cell
lines
- operating in an aseptic environment

Detection:
- DNA fingerprinting
- Karyotype analysis
- Isotype analysis

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 12
 Contamination in Mammalian Cell Cultures

Eradication of Contamination

Microbial Contamination:
Most reliable method of eliminating a microbial contamination
is to discard the culture and the medium and reagents used
with it

Not recommended to treat a culture with antibiotic as this
may lead to the development of an antibiotic-resistant
microorganisms

The general rule is to discard contaminated cultures and that
decontamination is not attempted unless it is absolutely vital
to retain the cell strain.

Viral Contamination:
There are no reliable methods for eliminating viruses from a
culture at present; disposal is the only option
BIOT6012 Mammalian Biotechnology Lecture 5 Slide 13
 Contamination in Mammalian Cell Cultures

Mycoplasma – common cell culture contaminant

Major problems for basic research as well as for the
manufacturing of biopharmaceuticals.
Small bacteria cells (10% volume of E. coli) which lack a
cell wall.
Characteristic elasticity allowing them to form a variety of
different shapes.
Unaffected by many common antibiotics (that target cell
wall synthesis).

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 14
 Contamination in Mammalian Cell Cultures

Structure of a typical mycoplasma cell

Size comparison of Mycoplasma genitallium compared to other microscopic organisms

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 15
 Contamination in Mammalian Cell Cultures

Why is the small size of mycoplasma problematic for
detecting contamination?
 Contamination in Mammalian Cell Cultures

Mycoplasma may induce cellular changes affecting
metabolism and growth. Severe Mycoplasma infections
may result in the death of a cell line.
- inhibition of cell proliferation by up to 50%.
- significant changes in gene expression profiles
Mycoplasma can be retained by filtration with 0.1 µm
filters.
Need to routinely check cells for presence of
Mycoplasma
- immunoassays
- PCR
- DNA fluorescence staining
- microbiological broth-agar colony assay (25 days
before results available)

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 16
 Contamination in Mammalian Cell Cultures
Endotoxin
Lipopolysaccharide (Lipid A) component of Gram negative
cell walls.
/upload.wikimedia.org/wikipedia/commons/thumb/8/82/LPS_en.svg/220px-LPS_en.svg.png

Bound to the bacterium
Small amounts shed during growth and large
amounts shed following death (cell lysis)
Can be toxic to specific hosts.
Capable of producing systematic effects:
- fever, shock, blood coagulation,
intestinal haemorrhage.

Detection:
Limulus amoebocyte lysate (LAL) assay - aqueous extract of blood cells
(amoebocytes) from the horseshoe crab, Limulus polyphemus.
- LAL reacts with bacterial endotoxin – a gel clot forms.

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 17
 Contamination in Mammalian Cell Cultures

Endotoxin test

Test sample (cell culture media,
supernatant from cultured cells) is
incubated with LAL reagent

If endotoxin is present an enzyme
cascade is triggered in the LAL reagent

Formation of a clot is positive for
endotoxin

Variations in test methods available for
quantitative measurement of endotoxin

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 18
 Contamination in Mammalian Cell Cultures

Source of Endotoxin in Cell Culture
- water
- serum
- media and additives
- glassware
- plasticware

Effects of Endotoxin on Cell Culture
Vary greatly between cell lines
May be direct or indirect
- Membrane and morphological effects
- Mitogenesis (endotoxin is a powerful mitogen)
- Influence on adherence

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 19
 Contamination in Mammalian Cell Cultures

Conclusion
Contamination can be biological or chemical
Variety of biological contamination: bacteria, fungi,
viruses, other cell lines
Particularly problematic contaminants:
- mycoplasma (small size)
- endotoxin (affects cell growth)
Key: routine testing for the presence of contamination

BIOT6012 Mammalian Biotechnology Lecture 5 Slide 20