Gene Therapy (2000) 7, 910–913 2000 Macmillan Publishers Ltd All rights reserved 0969-7128/00 $15.00 www.nature.com/gt VIRAL TRANSFER TECHNOLOGY BRIEF COMMUNICATION
Production and concentration of pseudotyped HIV-1-based gene transfer vectors
J ReiserDevelopmental and Metabolic Neurology Branch, National Institute of Neurological Disorders and Stroke, National Institutes ofHealth, Bethesda, MD; and Louisiana State University Gene Therapy Program, Louisiana State University School of Medicine, NewOrleans, LA, USA
Strategies to generate highly concentrated HIV-1 vector
ing titers of up to 109 transducing units per milliliter. There
pseudotypes involving different envelope (Env) proteins
was no loss in titer with any of the pseudotypes tested. Thus,
including the vesicular stomatitis virus (VSV) G glycoprotein,
like lentiviral vectors pseudotyped with VSV-G, HIV-1-based
the Moloney murine leukemia virus (MLV) 4070A ampho-
vectors pseudotyped with the MLV 4070A amphotropic Env
tropic Env and the rabies G glycoprotein were established.
and the rabies G glycoprotein resist inactivation during con-
Virus stocks were prepared by transient transfection using
centration. This opens up the possibility to generate highly
standard cell culture media or serum-free media. Such
concentrated HIV-1 vector stocks carrying alternative Env
stocks were concentrated 50- to 300-fold by ultracentrifug-
proteins on a large scale. Gene Therapy (2000) 7, 910–913.
ation or by ultrafiltration using Centricon Plus-80 units yield-
Keywords: lentiviral vectors; pseudotypes; gene therapy
Lentiviral vectors including HIV-1-based vectors are
This paper documents the fact that HIV-1 vectors
being increasingly used for gene delivery in vitro. They
pseudotyped with alternative Env proteins including the
are also promising for long-term gene expression in vivo
MLV amphotropic Env and the rabies G glycoprotein
in cells of the central nervous system, hematopoietic sys-
retain full infectivity after ultracentrifugation. The paper
tem, retina, muscle and liver, lung and pancreatic islets.1,2
also extends our original protocol with emphasis on
Lentivirus-based vectors are traditionally produced by
scale-up of vector production, mode of concentration
transient cotransfection of human embryonic kidney 293T
(ultracentrifugation versus ultrafiltration) and compo-
cells using three to four different plasmids encoding
sition of the medium (serum-containing media versus
helper (packaging), envelope (Env) and gene transfer
protein-free media). A novel 293-based cell line express-
functions, respectively. Typical virus titers range from 106
ing the amphotropic MLV Env protein allowing the gen-
to 107 transducing units per milliliter. Increased titers can
eration of high-titer amphotropic HIV-1 pseudotypes is
be achieved by physical concentration. Pseudotyped len-
tiviral particles containing the VSV-G glycoprotein have
The influences of time and composition of the cell cul-
been shown to be quite stable and to withstand concen-
ture medium on vector production were evaluated first.
tration by ultracentrifugation without significant loss in
293T cells were cotransfected with the previously
titer,3,4 thus opening up the way to generate highly con-
described HIV-neo⌬E vector7 encoding G418 resistance
centrated vector stocks for in vivo applications. Ultracen-
together with the C-Help packaging construct7 and the
trifugation protocols to concentrate HIV-1 pseudotypes
LTR-G envelope construct encoding VSV-G6 (Figure 1).
involving alternative Env proteins have not been
Twelve hours later the medium was removed and
described so far, in part because it was assumed that such
replaced with DMEM containing 10% fetal bovine serum
pseudotypes would be unstable. This was previously
or with media lacking serum (UltraCULTURE). Media
observed with MLV-based vectors involving Env pro-
were replaced again 24, 40, 60 and 80 h after initiating
transfection and the culture supernatants were collected
Alternative concentration protocols were established
and frozen immediately. For titration the samples were
for HIV-1-based vectors. Reiser et al6 have developed a
thawed simultaneously and end point titers (G418-
facile ultrafiltration procedure to concentrate HIV-1
resistant colony-forming units (c.f.u.) per milliliter) were
pseudotypes. Good recoveries were obtained with HIV-
determined on human osteosarcoma (HOS) cells follow-
1 particles containing VSV-G or the MLV amphotropic
ing G418 selection. HOS cells were primarily used
because they have been shown in the past to be readilyinfectable
presented in Figure 2 show that there was an increase in
Correspondence: J Reiser, LSU Gene Therapy Program, LSU School of
titer up to 40 h in serum-containing and serum-free
Medicine, MEB 3205, 1901 Perdido Street, New Orleans, LA 70112, USA
media with titers reaching 2 × 107 c.f.u./ml. Subsequent
Received 2 September 1999; accepted 15 February 2000
to that virus production dropped. This was particularly
Production of HIV-1 vectors J Reiser Figure 2 Effects of cell culture medium on vector production. For the preparation of HIV-1 pseudotypes 5 g each of C-Help packaging plasmid DNA,7 LTR-G plasmid DNA6 and HIV-neo⌬E vector plasmid DNA7 were co-transfected into sub-confluent 293T cells by using the calcium phosphate precipitation method.11 Approximately 4 × 105 cells were seeded into six-well plates 24 h before transfection. Chloroquine (25 m final concentration) was added to the cells immediately before transfection and Figure 1 Components of the HIV-1-based gene transfer system. (a) Trans- the medium was replaced 12 h later with 2 ml per well of fresh DMEMducing vector constructs. The HIV-neo⌬E vector construct was describedsupplemented with 10% FBS or serum-free UltraCULTURE mediumbefore.7 Boxes interrupted by jagged lines contain partial deletions. SV,(BioWhittaker, Walkersville, MD, USA) containing glutamine (2 mm)SV40 early promoter; CMV, human cytomegalovirus immediate–earlyand penicillin/streptomycin. Media were replaced four more times 24, 40,promoter; Ori, 168-bp fragment encompassing SV40 origin of replication;660, and 83 h after initiation of transfection and aliquots of the culturePPT, 133-bp fragment harboring HIV-1 polypurine tract sequence.12 (b)supernatants were immediately frozen on dry ice and stored at −80°C.Helper (packaging) construct. The C-Help packaging plasmid wasAll aliquots were thawed simultaneously and end-point titers (mean ±
described previously.7 The open triangle symbolizes a deletion affectings.d.) determined on HOS cells using G418 selection (Life Technologies;the packaging signal between the 5Ј splice donor site and the beginning0.35–0.5 mg of active drug per milliliter) as described in the legend toof the gag sequence. The polyA site was derived from the bovine growthhormone gene. (c) Env expression constructs. The LTR-G, LTR-RVG andALF expression constructs encode the VSV-G glycoprotein, the rabies Gglycoprotein and the MLV amphotropic (4070A) Env protein, respect-
determined on HOS cells following G418 selection. Titers
ively.6–8 VSV-G and rabies G gene expression are driven by the HIV-1
remained relatively constant (1–2 × 107 c.f.u./ml) at 37°C
LTR. The polyA site was derived from the SV40 late region. The 4070A
from 40 h up to 86 h in DMEM/10% FBS and in Ultra-
Env coding region is driven by the Friend FB29 MLV LTR.8
CULTURE medium. At 33°C titers in both media reacheda plateau at 60 h and remained above 107 c.f.u./ml upto 86 h (data not shown). Taken together with the data
obvious with cells kept in DMEM/10% while cells kept
presented in Figure 2, these results indicate that HIV-1
in serum-free UltraCULTURE medium showed a more
vectors pseudotyped with VSV-G are stable for at least
prolonged phase of virus production. Thus, serum-free
86 h in serum-containing and in serum-free media at
media such as UltraCULTURE allow multiple collections
for extended periods of time. This is an attractive feature
HIV-1 vector particles pseudotyped with the MLV
for virus production at a preparative scale. Also, the
amphotropic Env have previously been produced using
absence of serum in the final virus preparation may be
three-component transient transfection protocols with tit-
advantageous in certain circumstances where serum
ers around 105 transducing units per milliliter.3,7 With a
interferes with the physiology of the target cell to be
view toward increasing the titers of HIV-1 vectors
pseudotyped with the amphotropic Env, stable cell lines
To investigate the stability of VSV-G-pseudotyped
expressing the 4070A Env protein were generated.
HIV-1 vector particles during production, the accumu-
293 Cells were transfected using the the ALF plasmid
lated vector titers in DMEM/10% FBS and in serum-free
encoding the 4070A Env8 and clones were obtained fol-
medium were investigated at 37°C and at 33°C. Trans-
lowing selection with phleomycin (50 g/ml final
fected cells were incubated at 37°C and 33°C and aliquots
concentration). Some of the best clones yielded vector tit-
of the culture supernatants were collected 40, 60, and 86 h
ers up to 3 × 106 c.f.u./ml following transient transfection
after the start of the transfection and immediately frozen.
of such clones with the C-Help and HIV-neo⌬E plasmids.
Media were not changed during collection. All aliquots
These titers are are about five- to 10-fold higher than the
were thawed simultaneously and end point titers were
Production of HIV-1 vectors
Increases in viral titers were achieved by concentration
of the culture supernatants by ultracentrifugation. Ultra-centrifugation protocols to generate high-titer HIV-1 vec-tor stocks pseudotyped with VSV-G have been describedbefore.3,4 However, the stability of HIV-1 vectors pseudo-typed with alternative Env proteins has not been investi-gated. The results shown in Table 1 demonstrate thatHIV-neo⌬E pseudotypes carrying the MLV 4070A Env orthe rabies G glycoprotein could be concentrated some 70-to 100-fold by ultracentrifugation with good recovery asjudged from the virus titers. These findings suggest thatHIV-1-based vectors pseudotyped with the MLV 4070Aamphotropic Env or the rabies G glycoprotein resist inac-tivation during ultracentrifugation similar to other retro-viral vectors pseudotyped with VSV-G. Other HIV-1-based vector constructs also lend themselves to concen-tration by ultracentrifugation. The NL-EGFP/P vectorencoding EGFP was pseudotyped with VSV-G and con-centrated about 300-fold using ultracentrifugation. TheNL-EGFP/P and HIV-neo⌬E vectors differ in terms ofthe reporter genes, internal promoters and presence orabsence of the tat and rev coding regions (Figure 1a). Itis apparent from the results presented in Figure 3 thatunconcentrated vector stocks reached titers between 5 ×106 and 1 × 107 transducing units per milliliter in T-150flasks and that subsequent concentration by ultracentri-
Figure 3 Production and concentration of vector pseudotypes encoding
fugation yielded titers above 109 transducing units per
EGFP. Transfections into 293T cells were carried out as described in the
milliliter. The recovered virus titer after centrifugation
legend to Table 1, but using the NL-EGFP/P vector construct (Figure 1a).Thirty milliters of virus supernatant were collected 60 h after transfectionand filtered through a 0.45 m membrane. Ultracentrifugation (25 000
Ultrafiltration was used as an alternative to ultracentri-
r.p.m., 15°C, 115 min) was carried out using a Beckman SW28 rotor.
fugation to generate concentrated virus stocks. Centricon
The viral pellet was resuspended in 0.1 ml of DMEM/10% FBS at 4°C
Plus-80 units with a 100 kDa molecular weight cut-off
for 1 h. HOS cells in six-well plates (1–2 × 105 cells per well) were trans-
filter were used. HIV-neo⌬E vectors pseudotyped with
duced with different amounts of the virus in 0.5 ml of DMEM/10% FBS
VSV-G, the MLV 4070A Env or the rabies G glycoprotein
containing polybrene (8 g/ml) for 16 h at 37°C. The concentrated virus
were prepared in T-75 or T-150 cell culture flasks using
was diluted 300-fold and different amounts of the diluted virus were usedfor transduction. Four days later the cells were detached from the plateusing trypsin/EDTA (Life Technologies) and collected into DMEM/10%
Concentration of virus stocks by ultracentrifugation
FBS and subsequently washed with Hank’s balanced salt solution (LifeTechnologies) containing 2% FBS (Hank’s/FBS). The cells were washedwith Hank’s/FBS and fixed in 2% paraformaldehyde for 5 min and resus-pended in Hank’s/FBS, and then subjected to FACS analysis. The graphshows the percentage of EGFP-positive cells relative to the volume of virusadded (unconcentrated virus or concentrated virus which was sub-sequently diluted). To calculate titers the number of target cells was multi-plied by the percentage of EGFP-positive cells divided by the volume of
Transfections into 293T cells10 were done in T-150 flasks using 30ml of DMEM/10% FBS in the presence of chloroquine (25 m final
15 ml or 30 ml, respectively of DMEM/10% FBS per flask.
concentration). Thirty micrograms each of helper, Env and vector
The cell-free supernatants were then concentrated 60- to
DNA were combined with 250 mm CaCl2 in a total volume of 3 ml.
70-fold by ultrafiltration (Table 2). Surprisingly, the titers
An equal volume of 2 × HEPES-buffered saline (HBS)11 was sub-sequently added by vortexing. Media were changed 12 h after
increased up to 350-fold. Titers around 5 × 107 c.f.u./ml
transfection. Thirty milliliters of virus supernatant were collected
were observed for rabies G pseudotypes and up to 109
60 h after transfection and filtered through a 0.45 m membrane.
c.f.u./ml for VSV-G and 4070A pseudotypes. This sug-
Ultracentrifugation (25 000 r.p.m., 15°C, 105 min) was carried out
gests that the ultrafiltration procedure may have
using a Beckman SW28 rotor. Virus titers were determined by limit-
removed an inhibitor of viral infection. Higher than
ing dilution in the following way. Target cells were split into six-
expected virus titers following ultrafiltration were
well plates the day before infection to give approximately 50% con-fluence at the time of infection. Infections were performed with ser-
observed before with spleen necrosis virus vector prep-
ial dilutions of virus stocks in a total of 0.5 ml of medium containing
arations.9 Ultrafiltration is expected to bypass resuspen-
8 g of polybrene per milliliter. After 3 to 6 h at 37°C, the virus
sion problems that are encountered with virus stocks
was removed and 2 ml of medium was added and the plates incu-
concentrated by ultracentrifugation. However, for in vivo
bated at 37°C for an additional 3 days. The medium was then aspir-
experiments the use of serum-free medium during virus
ated, and 2 ml of medium supplemented with G418 (0.35 to 0.5 mg
production is recommended in order to avoid serum pro-
of active drug per milliliter; Life Technologies Inc, Gaithersburg,MD, USA) was placed into each well. The medium was changed
teins that tend to accumulate during ultrafiltration.
every 3 to 4 days, and the colonies were counted on days 10 or 14
A variety of different Env proteins are currently being
after staining with crystal violet (0.2% in 20% ethanol).
tested with regard to their capacity to pseudotype lentivi-
Production of HIV-1 vectors J Reiser Table 2 Concentration of virus stocks by ultrafiltration using
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Ohio Department of Health Three-Page NAPH Anthrax Prophylaxis Screening, Consent, and Declination Patient information: Fill out or Prefix the label Last name Drug Allergies: (Note: Examples. Section relates to specific dispensed meds!) Are you allergic to ciprofloxacin or another quinolone antibiotic?Are you allergic to doxycycline or tetracycline?Have you had a serious reaction to a
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