Title: Baculovirus expression system
1 Baculovirus expression system
- Paras Yadav1, Annu Yadav1, P. Kumar1, J.S.
Arora1, T.K.Datta1, S. De1, S.L. Goswami1, Mukesh
Yadav2, Shalini Jain3, Ravinder Nagpal4 and
Hariom Yadav3 - 1Department of Animal Biotechnology, 3Animal
Biochemistry Division and 4Dairy Microbiology
Division, National Dairy Research Institute,
Karnal 132001 (Haryana), India 2SOS in
Chemistry, Jiwaji University, Gwalior-474011,
M.P., India
2 Baculovirus
- Baculovirus are present in invertebrates
primarily insect species - They are not infectious for vertebrates plants
- Genome is covalently closed circular double
stranded of 134 kbp, due to its small it can
accommodate large fragments of foreign DNA - They are divided into two groups on the basis of
their structure as- - Nucleopolyhedroviruses (NPV)
- Granuloviruses
- These NPV are mainly used as expression
vectors i.e. Autographa californica NPV (AcMNPV)
isolated from the larva of the alfalfa looper
3Contd..
- Baculovirus expression system based upon the
ability to propagate AcMNPV in insect cells - Uses many of the protein modification,
processing - and transport systems present in higher
eukaryotic - cells.
- Virus that can be propagated to high titers
adapted - for growth in suspension cultures
- obtain large amounts of recombinant protein with
- relative ease
- Baculovirus are noninfectious to vertebrates and
- their promoters are inactive in mammalian cells.
4Insects Insect cells
- Baculovirus infects lepidopteran (butterflies
moths) insects and insect cell lines - Commonly used cell lines are sf9 sf21 derived
from the pupal ovarian tissue of the fall army
worm spodoptera frugiperda and high five derived
from the ovarian cells of the cabbage looper
5Baculovirus expression system
- Recombinant baculovirus have become widely used
as vectors to express heterologous genes in
cultured insect cells and insects larvae - Heterologous genes placed under the
transcriptional control of the strong polyhedrin
promoter of the Autographa californica
polyhedrosis virus (AcNPV) - Based on site specific transposition of an
expression cassette (pfast Bac with gene of
interest) into a baculovirus shuttle vector
(bacmid)
6Steps in recombinant baculovirus production
- Clone the gene of interest in pfast Bac donor
plasmid - Expression cassette in pfast Bac is flanked by
left and right arms of Tn7 and also an SV40
polyadenylation signal to form a miniTn7 - Cloned pfast Bac is transformed in E.coli host
strain (DH10Bac) which contains a baculovirus
shuttle vector bacmid having a mini-attTn7 target
site - Helper plasmid which allows to transpose the
gene of interest from pfast to bacmid (shuttle
vector) - Transposition occurs between the mini-att Tn7
target site to generate a recombinant bacmid - This recombinant bacmid can now be used to
transfect insect cell lines.
7Figure
Tn7R p10
Gent Tn7L
Gene of Interest
Gene construct
Gene of Interest
PpH
Tn7 L
Tn7 R
pfast Bac with insert
8Contd..
Tn7R GOI Tn7L
Transposed pfast Bac
Bacmid DNA
9Contd..
- PCR amplification using M-13 Forward and Reverse
primers - If no transposition, then a region a bacmid alone
will amplify to gave product of 300bp - In condition of transposition then the amplified
size will be 2300bpsize of insert - Recombinant bacmid is now ready to transfect to
insect cell lines
10Insect Medium
- Graces Insect medium- unsupplemented but
contains L-glutamine - Graces Insect medium supplemented-contains
additional TC yeastolate Lactalbumin
hydrolysate - Trichoplusia ni Medium formulation hink (TNM-FH)-
contains 10 FBS
11Requirements for proper cell culture
- Temperature- Optimal range is 27-28 C
- pH- Optimal range is 6.1 to 6.4
- Aeration-Requires passive 02 diffusion for
optimal growth recombinant protein expression - Osmolality- Optimum is 345-380 mOsm/kg
- FBS- Working with suspension culture it is
advisable to use (10-20 FBS) to gave protection
from cellular shear forces
12 Seeding density of cells
13 Density of Insect Cells at confluency
- Cell number may vary depending upon the culture
conditions and the health of the culture
14 Types of cell culturing
- Monolayer culture
- Suspension culture
15Methods of sub culturing adherent cells
- Three methods to dislodge monolayers in adherent
cell culture - - Sloughing
- -Trypsinization
- -Tapping the layer until monolayer loosens
16Procedure of monolayer sub culture
- Monolayer should reach to confluency in 2-4 days.
- Serum supplemented cultures do not adhere to
surface tightly where as serum free attach very
tightly to substrates Aspirate medium floating
cells from a confluent monolayer discard them. - Add 4ml of RT complete growth medium to each
25cm2 flask(12 ml to a 75 cm2 flask) - Resuspend cells by pipetting the medium across
the monolayer with a Pasteur pipette. (Enzymatic
dissociation is not recommended) - Observe cell monolayer using an inverted
microscope to ensure adequate cell detachment
17Contd..
- Perform viable cells count on harvested cells.
- Inoculate cells at 2 x 105 viable cells/ml into
respective culture vessels. - Inoculate cultures kept at 25-28 C with loose
caps to allow gaseous exchange - On day 4 post-planting, aspirate the spent medium
from one side of the monolayer subculture the
flask - With slower growing cell lines, it may be
necessary to feed the flasks on day 3-4 post
planting - Subculture the flasks when the monolayer reaches
80-100 confluency, approx 2-3 days post planting
18Working with suspension culture
- Insect cells are not generally anchorage
dependent can be well adapted to suspension
culture - Prior to establish a spinner culture, cells are
maintained firstly as healthy adherent cells. - Cell density reaches to 2-2.5 x 106 cells/ml they
should be diluted to no less than 7 x 105
cells/ml - Use a spinner flask with a vertical impeller
- Culture volume should not exceed half of the
volume of the flask - Use of surfactant to decrease shearing e.g.
Pluronic F-68
19Contd..
- Not necessary to change medium regularly. Sub
culturing requires the removal of cell suspension
the addition of medium - Impeller should be rotating regularly
- Impeller should be submerged 1 cm or more to
ensure adequate aeration - Cell viability of 95 is required
- Minimum density of 1 x 106 cells/ml is required
20Contd
- Keep record of the passage number. After 30
passage or more (2-3 months), cells doubling time
increased and also loose their viability and
infectivity. - Keep a cell log, to do so one should have a
knowledge of following - date of initiation of culture, lot number
date of passage passage number density
viability at passage comment on cell appearance
medium its lot number
21 Types of Insect cell lines
22Initiation of culture with freezed
cells
- Thaw the frozen suspension rapidly in a water
bath at 28 C - Seed the cells into a culture flask (1 x 106)
containing medium 5 ml TC 100 medium - Incubate at 28 C for 5 hrs
- Change with fresh medium
- Incubate again, until it reach confluence
- Subculture it for experimental purpose
23Cryopreseravtion of cells
- Freezing cells should be 90 viable and
80-90confluent - Freezing medium should have 60 Graces insect
medium supplemented with 30FBS 10 DMSO -
24Procedure
- Count cells using haemocytometer
- Placed cryovials on ice label them
- Centrifuge cells at 400-600 g for 10 mts at RT.
Remove the supernatant - Resuspend the cells to the given density in the
freezing medium - Transfer 1 ml of the cell suspension to sterile
cryovials - Place at -20 C for 1 hr then transfer to -80 C
for 24-48 hrs then finally store at Liquid
nitrogen
25Advantages of working with Baclo system
- High expression levels using the polyhedrin or
p10 promoter - Supports post-translation modifications
- BEVS enables simultaneous expression of certain
genes - Expressed proteins do not have size limitations
- Capable of producing cytotoxic proteins
26 Leukemia in working with BEVS
- Baculovirus system works only in invertebrates so
the expressed vertebrate proteins are different
in post translation modifications with high
mannose type glycosylation. - It has limited capacity to properly processed
inactive precursor proteins due to the absence of
pro-protein convertases - Limited protein yield due to accumulation of
insoluble protein within the cells
27Do and Don'ts
- Check cells daily until a confluent monolayer is
formed. - Passage cells at confluency only, as cells will
be easy to dislodge shows better viability - Do not overgrow cells, it results in decreased
viability - Do not splits cells too for. Densities lower than
20 confluency inhibit growth - Passage the cells only in log phase, log phase
growth can be maintained by splitting cells in
15 dilution
28Basic aseptic conditions
- If working on the bench use a Bunsen flame to
heat the air surrounding the Bunsen - Swab all bottle tops necks with 70 ethanol
- Flame all bottle necks pipette by passing very
quickly through the hottest part of the flame - Avoiding placing caps pipettes down on the
bench practice holding bottle tops with the
little finger - Work either left to right or vice versa, so that
all material goes to one side, once finished - Clean up spills immediately always leave the
work place neat tidy
29Contd..
- Possibly keep cultures free of antibiotics in
order to be able to recognize the contamination - Never use the same media bottle for different
Insect cell lines. If caps are dropped or bottles
touched unconditionally touched, replace them
with new ones - Necks of glass bottles prefer heat at least for
60 secs at a temperature of 200 C - Switch on the laminar flow cabinet 20 mts prior
to start working - Cell cultures which are frequently used should be
subcultered stored as duplicate strains