Quantitative analysis of gene suppression in integrated retrovirus vectors

CAR-T cell potency: from structural elements to vector backbone components

Chimeric antigen receptor (CAR) T cell therapy, in which a patient’s own T lymphocytes are engineered to recognize and kill cancer cells, has achieved remarkable success in some hematological malignancies in preclinical and clinical trials, resulting in six FDA-approved CAR-T products currently available in the market. Once equipped with a CAR construct, T cells act as living drugs and recognize and eliminate the target tumor cells in an MHC-independent manner. In this review, we first described all structural modular of CAR in detail, focusing on more recent findings. We then pointed out behind-the-scene elements contributing to CAR expression and reviewed how CAR expression can be drastically affected by the elements embedded in the viral vector backbone.

Modifying inter-cistronic sequence significantly enhances IRES dependent second gene expression in bicistronic vector: Construction of optimised cassette for gene therapy of familial hypercholesterolemia

Internal ribosome entry site (IRES) sequences have become a valuable tool in the construction of gene transfer and therapeutic vectors for multi-cistronic gene expression from a single mRNA transcript. The optimal conditions for effective use of this sequence to construct a functional expression vector are not precisely defined but it is generally assumed that the internal ribosome entry site dependent expression of the second gene in such as cassette is less efficient than the cap-dependent expression of the first gene. Mainly tailoring inter-cistronic sequence significantly enhances IRES dependent second gene expression in bicistronic vector further in construction of optimised cassette for gene therapy of familial hypercholesterolemia. We tailored the size of the inter-cistronic spacer sequence at the 5′ region of the internal ribosome entry site sequence using sequential deletions and demonstrated that the expression of the 3′ gene can be significantly increased to similar levels as the cap-dependent expression of the 5’ gene. Maximum expression efficiency of the downstream gene was obtained when the spacer is composed of 18–141 base pairs. In this case a single mRNA transcriptional unit containing both the first and the second Cistron was detected. Whilst constructs with spacer sequences of 216 bp or longer generate a single transcriptional unit containing only the first Cistron. This suggests that long spacers may affect transcription termination. When the spacer is 188 bp, both transcripts were produced simultaneously in most transfected cells, while a fraction of them expressed only the first but not the second gene. Expression analyses of vectors containing optimised cassettes clearly confirm that efficiency of gene transfer and biological activity of the expressed transgenic proteins in the transduced cells can be achieved. Furthermore, Computational analysis was carried out by molecular dynamics (MD) simulation to determine the most emerges as viable containing specific binding site and bridging of 5′ and 3′ ends involving direct RNA-RNA contacts and RNA-protein interactions. These results provide a mechanistic basis for translation stimulation and RNA resembling for the synergistic stimulation of cap-dependent translation.

A system for creating stable cell lines that express a gene of interest from a bidirectional and regulatable herpes simplex virus type 1 promoter

Expression systems used to study the biological function of a gene of interest can have limited utility due to three major factors: i) weak or heterogeneous gene expression; ii) poorly controlled gene expression; and iii) low efficiencies of stable integration and persistent expression. We envisioned that the ideal system should be tightly controlled and coupled with the ability to efficiently create and identify stable cell lines. Herein, we describe a system based upon a bidirectional Herpes simplex virus type 1 promoter that is naturally responsive to the VP16 transactivator and modified to permit tetracycline-regulated transcription on one side while maintaining constitutive activity on the other side. Incorporation of this element into the Sleeping Beauty transposon resulted in a novel bidirectional system with the capacity for high-efficiency stable integration. Using this system, we created stable cell lines in which expression of a gene of interest was tightly and uniformly controlled across a broad range of levels via a novel combination of doxycycline-sensitive de-repression and VP16-mediated sequence-specific induction. The unique characteristics of this system address major limitations of current methods and provide an excellent strategy to investigate the effects of gene dosing in mammalian models.

Development of murine leukemia virus-based self-activating vectors that efficiently delete the selectable drug resistance gene during reverse transcription

Expression of the selectable drug resistance gene in retroviral vectors used for gene therapy can lead to a decreased expression of the gene of interest and may induce a host immune response, resulting in a decreased efficiency of gene therapy. In this study, we demonstrate that high-frequency deletion of direct repeats, an inherent property of reverse transcriptases, can be used to efficiently excise the drug resistance gene during reverse transcription. One retroviral vector containing a direct repeat deleted the neomycin resistance expression cassette during a single replication cycle at >99% efficiency.

A general approach to the non-invasive imaging of transgenes using cis-linked herpes simplex virus thymidine kinase

Non-invasive imaging of gene expression opens new prospects for the study of transgenic animals and the implementation of genetically based therapies in patients. We have sought to establish a general paradigm to enable whole body non-invasive imaging of any transgene. We show that the expression and imaging of HSV1-tk (a marker gene) can be used to monitor the expression of the LacZ gene (a second gene) under the transcriptional control of a single promoter within a bicistronic unit that includes a type II internal ribosomal entry site. In cells bearing a single copy of the vector, the expression of the two genes is proportional and constant, both in vitro and in vivo. We demonstrate that non-invasive imaging of HSV1-tk gene accurately reflects the topology and activity of the other cis-linked transgene.

Development of a self-inactivating lentivirus vector

We have constructed a new series of lentivirus vectors based on human immunodeficiency virus type 1 (HIV-1) that can transduce nondividing cells. The U3 region of the 5' long terminal repeat (LTR) in vector constructs was replaced with the cytomegalovirus (CMV) promoter, resulting in Tat-independent transcription but still maintaining high levels of expression. A self-inactivating (SIN) vector was constructed by deleting 133 bp in the U3 region of the 3' LTR, including the TATA box and binding sites for transcription factors Sp1 and NF-kappaB. The deletion is transferred to the 5' LTR after reverse transcription and integration in infected cells, resulting in the transcriptional inactivation of the LTR in the proviruses. SIN viruses can be generated with no significant decreases in titer. Injection of viruses into the rat brain showed that a SIN vector containing the green fluorescent protein gene under the control of the internal CMV promoter transduced neurons as efficiently as a wild-type vector. Interestingly, a wild-type vector without an internal promoter also successfully transduced neurons in the brain, indicating that the HIV-1 LTR promoter is transcriptionally active in neurons even in the absence of Tat. Furthermore, injection of viruses into the subretinal space of the rat eye showed that wild-type vector transduced predominantly retinal pigment epithelium and photoreceptor cells, while SIN vector was able to transduce other types of retinal cells, including bipolar, Müller, horizontal, and amacrine cells. This finding suggests that the HIV-1 LTR can negatively influence the internal CMV promoter in some cell types. SIN HIV vectors should be safer for gene therapy, and they also have broader applicability as a means of high-level gene transfer and expression in nondividing cells.

Effects of an internal transcription unit and its orientation on retrovirus titre and expression

Using the retroviral vector pMsp, constructs were produced with different coding sequences under the control of the Herpes simplex virus type 1 (HSV) thymidine kinase (tk) promoter, with the internal coding sequence in the same or reverse orientations with respect to long terminal repeat (LTR)-driven transcription and with or without an internal tk polyadenylation (polyA) signal. Following introduction of these constructs into ecotropic or amphotropic packaging cell lines by transfection or infection, it was found that, most consistently, those constructs in which the internal coding sequence/polyA signal component was inserted in the same orientation as LTR-driven transcription produced lower titres of virus than those in which this component was inserted in the reverse orientation. Also, in a construct containing a coding sequence in the same orientation as LTR-driven transcription, but lacking an internal polyA signal, virus titre was much greater than in the corresponding construct possessing the internal polyA signal. Additionally, although functional assays have previously demonstrated expression of the inserted sequences, transcription from the internal tk promoter was inefficient in all these constructs.

Murine leukemia virus-based Tat-inducible long terminal repeat replacement vectors: a new system for anti-human immunodeficiency virus gene therapy

We have constructed new murine leukemia virus (MLV)-based vectors (TIN vectors) which, following integration, contain human immunodeficiency virus (HIV) type 1 U3 and R sequences in place of the MLV U3 and R regions. This provides, for the first time, single transcriptional unit retroviral vectors under the control of Tat. TIN vectors have several advantages for anti-HIV gene therapy applications.

Effect of telomere length on telomeric gene expression

Telomeres gradually shorten as human somatic cells divide and a correlation has been observed between the average telomere length and cell senescence. It has been proposed that the genes responsible for cell senescence are located near the telomere and are activated when telomere length reaches a critical point. This is consistent with evidence from Saccharomyces cerevisiae, in which genes are regulated differently depending on their distance from the telomere. We investigated the possibility that differential gene expression is conferred by telomere length in human cells. A plasmid containing the neomycin phosphotransferase (neo) gene was transfected into the SV40-transformed human fibroblast cell line LM217. In one transfectant the plasmid was integrated at the telomere of chromosome 13. Subclones of this cell line that had various lengths of telomeric repeat sequences on the end of this chromosome were isolated. No effect on neo gene expression was found when the length of the telomere varied between 25 and 0.5 kb, as demonstrated by colony forming ability, growth rates and RNA blot analysis. These results therefore suggest that putative chromatin structural differences conferred by telomere length do not affect the expression of genes located near telomeres.

Comparison of 5' and 3' long terminal repeat promoter function in human immunodeficiency virus

The architecture of a retroviral genome presents some unusual features for transcriptional regulation because of duplication of the transcriptional control sequences in the 5' and 3' long terminal repeats (LTRs). We have studied the transcriptional activity of the 5' and 3' LTRs of human immunodeficiency virus type 1 (HIV-1) vectors. Using full-length HIV molecular clones, we demonstrate that both LTRs function as Tat-inducible promoters. However, the absolute levels of transcription were found to be much higher for the 5' LTR than for the 3' LTR promoter. When transcription was assayed for an integrated HIV-1 provirus, we also found that the upstream 5' LTR element was the major transcriptional promoter. 3' LTR transcription, however, can be triggered by inactivation of the 5' LTR promoter. Likewise, 5' LTR transcription is induced in constructs lacking a functional 3' LTR promoter. This phenomenon of promoter suppression may have important implications for the design of HIV-based retrovirus vectors.

Retrovirus-mediated gene transfer to cystic fibrosis airway epithelial cells: effect of selectable marker sequences on long-term expression

Retrovirus-mediated gene transfer offers the potential for stable long-term expression of transduced genes in host cells subsequent to integration of vector DNA into the host genome. Using a murine amphotropic retrovirus vector containing an interleukin-2 receptor (IL-2R) gene as a reporter and a neomycin phosphotransferase (neor) gene as a dominant selectable marker, we measured the efficiency of retrovirus-mediated gene transfer and the stability of transduced gene expression in a cystic fibrosis tracheal epithelial cell line (CFT1). The use of the IL-2R cell surface marker as a reporter of infection permitted both quantitation of vector gene expression and flow cytometric sorting of cells transduced with the vector. In initial studies, the optimal conditions for retrovirus-mediated gene transfer were determined. The presence of a polycation was required for optimal transduction efficiency. The efficiency of infection of CFT1 cells was increased by repetitive exposure to virus such that it was possible to transduce approximately 80% of the cells following three successive daily exposures. The long-term stability of expression of the non-selected IL-2R gene was also evaluated. A slow decline in the percentage of cells expressing IL-2R was seen with cells that were maintained under constant selection pressure for expression of the neor gene, which was expressed from an internal promoter. Similar results were obtained when cultures were selected initially for neor gene expression and maintained without selection thereafter. In contrast, stable expression was observed in CFT1 cells for at least one year following multiple infections in the absence of G418 selection. In conclusion, (i) transduction of foreign genes into human airway epithelial cells using an amphotropic retrovirus vector can be highly efficient in the presence of appropriate polycations and multiple exposures; and (ii) stable expression of a non-selected gene in these epithelial cells is better maintained without selection.

Transcription enhances intrachromosomal homologous recombination in mammalian cells

The influence of transcription on homologous intrachromosomal recombination between direct and inverted repeats has been examined by using Chinese hamster ovary cells. Recombination was monitored between two integrated neomycin (neo) genes, including one silent allele and a second allele regulated by the inducible mouse mammary tumor virus promoter. Transcription of mouse mammary tumor virus neo alleles was regulated with the glucocorticoid hormone dexamethasone. Alleles transcribed at high levels recombined about two- to sevenfold more frequently than identical alleles transcribed at low levels. Direct repeats recombined primarily by a gene conversion mechanism; inverted repeats produced a variety of rearranged products. These results are discussed in relation to recombinational processes that regulate gene expression, influence gene family structures, and mediate genomic instability associated with cellular transformation and tumorigenesis.

Transcription enhances intrachromosomal homologous recombination in mammalian cells

The influence of transcription on homologous intrachromosomal recombination between direct and inverted repeats has been examined by using Chinese hamster ovary cells. Recombination was monitored between two integrated neomycin (neo) genes, including one silent allele and a second allele regulated by the inducible mouse mammary tumor virus promoter. Transcription of mouse mammary tumor virus neo alleles was regulated with the glucocorticoid hormone dexamethasone. Alleles transcribed at high levels recombined about two- to sevenfold more frequently than identical alleles transcribed at low levels. Direct repeats recombined primarily by a gene conversion mechanism; inverted repeats produced a variety of rearranged products. These results are discussed in relation to recombinational processes that regulate gene expression, influence gene family structures, and mediate genomic instability associated with cellular transformation and tumorigenesis.

Transcriptional interaction between retroviral long terminal repeats (LTRs): mechanism of 5' LTR suppression and 3' LTR promoter activation of c-myc in avian B-cell lymphomas

Chicken syncytial viruses induce bursal lymphomas by integrating into the c-myc locus and activating myc expression by 3' long terminal repeat (LTR) promoter insertion. In contrast to wild-type proviruses, in which transcription initiates predominantly in the 5'LTR, these myc-associated proviruses exhibit a predominance of transcription from the 3' LTR and little transcription from the 5' LTR. Most of these proviruses contain deletions within the 5' end of their genome that spare the 5' LTR. We report the identification of a 0.3-kb viral leader sequence that modulates 5' and 3' LTR transcriptional activities. In the presence of this sequence, transcription from the 5' LTR predominates, but in its absence, the 3' LTR promoter becomes activated, resulting in a high level of myc expression. This viral sequence does not behave like a classical enhancer; it activates transcription only when located downstream from the promoter and in the sense orientation. In this regard, it resembles the recently described human immunodeficiency virus RNA enhancer. This study suggests that retroviruses contain internal sequences which directionally activate the 5' LTR promoter to facilitate transcription of the viral genome and that deletion of these sequences is one step in the activation of the 3' LTR of myc-associated proviruses in avian bursal lymphomas.

Appropriate in vivo expression of a muscle-specific promoter by using avian retroviral vectors for gene transfer [corrected]

The promoter regions of the chicken skeletal muscle alpha-actin (alpha sk-actin) and the cytoplasmic beta-actin genes were linked to the bacterial chloramphenicol acetyltransferase (CAT) gene. Replication-competent retroviral vectors were used to introduce these two actin/CAT cassettes into the chicken genome. Chickens infected with retroviruses containing the alpha sk-actin promoter expressed high levels of CAT activity in striated muscle (skeletal muscle and heart); much lower levels of CAT activity were produced in the other nonmuscle tissues. In contrast, chickens infected with retroviruses containing the beta-actin promoter linked to the CAT gene expressed low levels of CAT activity in many different tissue types and with no discernible tissue specificity. Data are presented to demonstrate that the high levels of CAT activity that were detected in the skeletal muscle of chickens infected with the retrovirus containing the alpha sk-actin promoter/CAT cassette were not due to preferential infectivity, integration, or replication of the retrovirus vector in the striated muscles of these animals.

Retroviral vectors containing putative internal ribosome entry sites: development of a polycistronic gene transfer system and applications to human gene therapy

Recombinant retroviral vectors producing multicistronic mRNAs were constructed. Picornavirus putative internal ribosome entry sites (IRES) were used to confer cap-independent translation of an internal cistron. Internal cistrons were engineered by ligation of various lengths of the IRES of encephalomyocarditis (EMC) virus or polio virus to the E. coli chloramphenicol acetyltransferase (CAT) gene. The IRES/CAT fusions were introduced into retroviral vectors 3' to the translation stop codon of the neomycin phosphotransferase (NEO) gene, and the molecular constructs transfected into retroviral vector packaging lines. Retroviral vector producer cells efficiently express the internal CAT gene product only when the full length IRES is used. Both the EMC/CAT and polio/CAT retroviral vectors produced high titer vector supernatant capable of productive transduction of target cells. To test the generality of this gene transfer system, a retroviral vector containing an IRES fusion to the human adenosine deaminase (ADA) gene was constructed. Producer cell supernatant was used to transduce NIH/3T3 cells, and transduced cells were shown to express NEO, and ADA. Novel three-gene-containing retroviral vectors were constructed by introducing the EMC/ADA fusion into either an existing internal-promoter-containing vector, or a polio/CAT bicistronic vector. Producer cell clones of the three-gene vectors synthesize all three gene products, were of high titer, and could productively transduce NIH/3T3 cells. By utilizing cap-independent translation units, IRES vectors can produce polycistronic mRNAs which enhance the ability of retroviral-mediated gene transfer to engineer cells to produce multiple foreign proteins.

The encephalomyocarditis virus internal ribosome entry site allows efficient coexpression of two genes from a recombinant provirus in cultured cells and in embryos

Rous sarcoma virus-based retroviral vectors were constructed to compare three different approaches for coexpressing two genes in individual infected cells. All vectors expressed the upstream gene (lacZ) from the Rous sarcoma virus long terminal repeat, while the downstream gene (the chloramphenicol acetyltransferase gene [cat] or v-src) was expressed in one of three ways: from a subgenomic mRNA generated by regulated splicing, from a strong internal promoter, or from the encephalomyocarditis virus internal ribosome entry site (IRES). Both biochemical and immunohistochemical assays of cultured cells showed that the encephalomyocarditis virus IRES provided the most efficient means for coexpressing two genes from a single provirus. Most importantly, most cells infected by a LacZ-IRES-CAT virus expressed both LacZ and CAT, whereas most cells infected by internal promoter or regulated splicing vectors expressed either LacZ or CAT but not both. In addition, viral titers were highest with IRES vectors. Presumably, use of the IRES avoids transcriptional controls and RNA processing steps that differentially affect expression of multiple genes from internal promoter and regulated splicing vectors. Finally, we injected a LacZ-IRES-v-Src virus into chicken embryos and then identified the progeny of infected cells with a histochemical stain for LacZ. LacZ-positive cells in both skin and mesenchyme displayed morphological abnormalities attributable to expression of v-src. Thus, IRES vectors can be used to coexpress a reporter gene and a bioactive gene in vivo.

The encephalomyocarditis virus internal ribosome entry site allows efficient coexpression of two genes from a recombinant provirus in cultured cells and in embryos

Rous sarcoma virus-based retroviral vectors were constructed to compare three different approaches for coexpressing two genes in individual infected cells. All vectors expressed the upstream gene (lacZ) from the Rous sarcoma virus long terminal repeat, while the downstream gene (the chloramphenicol acetyltransferase gene [cat] or v-src) was expressed in one of three ways: from a subgenomic mRNA generated by regulated splicing, from a strong internal promoter, or from the encephalomyocarditis virus internal ribosome entry site (IRES). Both biochemical and immunohistochemical assays of cultured cells showed that the encephalomyocarditis virus IRES provided the most efficient means for coexpressing two genes from a single provirus. Most importantly, most cells infected by a LacZ-IRES-CAT virus expressed both LacZ and CAT, whereas most cells infected by internal promoter or regulated splicing vectors expressed either LacZ or CAT but not both. In addition, viral titers were highest with IRES vectors. Presumably, use of the IRES avoids transcriptional controls and RNA processing steps that differentially affect expression of multiple genes from internal promoter and regulated splicing vectors. Finally, we injected a LacZ-IRES-v-Src virus into chicken embryos and then identified the progeny of infected cells with a histochemical stain for LacZ. LacZ-positive cells in both skin and mesenchyme displayed morphological abnormalities attributable to expression of v-src. Thus, IRES vectors can be used to coexpress a reporter gene and a bioactive gene in vivo.

Promoter interactions in retrovirus vectors introduced into fibroblasts and embryonic stem cells

The activity of the Moloney murine leukemia virus promoter is restricted in mouse embryonic stem cells. Gene expression with retrovirus vectors can be achieved in these cells if internal promoters are used. To address the possible influence of the viral enhancer sequences on expression from the internal promoter, we have constructed high-titer, self-inactivating retrovirus vectors which delete viral regulatory sequences upon integration in the host genome. We show that deleting most of the viral enhancer sequences has no significant effect on viral titer. This enhancer deletion leads to either an increase or a decrease in the amount of RNA transcribed from the internal promoter, but no consistent change can be found with any type of vector. The same changes in expression from the internal promoter observed in embryonic stem cells are also observed in 3T3 fibroblast cells, in which the viral promoter is active. These results indicate that viral regulatory elements influence expression from an internal promoter independently of expression from the virus promoter.

Heritable retroviral transgenes are highly expressed in chickens

This report describes expression of heritable reticuloendotheliosis virus (REV) vector ME111 in 20 independent lines of transgenic chickens. The results are strikingly different from studies of Moloney virus in transgenic mice, where restricted expression of inherited proviruses has led to their use primarily as insertional mutagens rather than general agents for gene transfer. In contrast, the REV ME111 provirus is actively transcribed in a variety of tissues from transgenic chickens, is expressed from transcriptional control elements present in the long terminal repeat of the provirus, and codes for active neomycin phosphotransferase II. The REV vector system as applied to the chicken represents a departure from the long-established paradigm of retroviral transgenes in mice and provides a new approach to the study of avian biology.

Transcription stimulates homologous recombination in mammalian cells

Transcription stimulates homologous recombination in Saccharomyces cerevisiae and has been implicated in the control of recombinational events during the development of mammalian immune systems. Here, we describe a plasmid-based system in which an inducible promoter from the mouse mammary tumor virus is located upstream of heteroallelic neomycin genes carried on two plasmids. Pairs of plasmids are introduced into Chinese hamster ovary cells by electroporation, and recombination is monitored by scoring colonies resistant to the aminoglycoside G418. When transcription is induced with dexamethasone, a synthetic glucocorticoid hormone, and double-strand breaks are introduced at mutation sites, recombination is stimulated sixfold over noninduced levels. Inducing transcription in circular substrates or in substrates cleaved at sites distant from the mutations has no detectable effect on recombination between neomycin genes. Results are presented that are consistent with the observed stimulation of recombination occurring before plasmids integrate into the cellular DNA. Our results are discussed in relation to molecular models for extrachromosomal recombination in mammalian cells.

Transcription stimulates homologous recombination in mammalian cells

Transcription stimulates homologous recombination in Saccharomyces cerevisiae and has been implicated in the control of recombinational events during the development of mammalian immune systems. Here, we describe a plasmid-based system in which an inducible promoter from the mouse mammary tumor virus is located upstream of heteroallelic neomycin genes carried on two plasmids. Pairs of plasmids are introduced into Chinese hamster ovary cells by electroporation, and recombination is monitored by scoring colonies resistant to the aminoglycoside G418. When transcription is induced with dexamethasone, a synthetic glucocorticoid hormone, and double-strand breaks are introduced at mutation sites, recombination is stimulated sixfold over noninduced levels. Inducing transcription in circular substrates or in substrates cleaved at sites distant from the mutations has no detectable effect on recombination between neomycin genes. Results are presented that are consistent with the observed stimulation of recombination occurring before plasmids integrate into the cellular DNA. Our results are discussed in relation to molecular models for extrachromosomal recombination in mammalian cells.

Ping-pong amplification of a retroviral vector achieves high-level gene expression: human growth hormone production

Retroviral vectors offer major advantages for gene transfer studies but have not been useful for producing proteins in large quantities. This deficiency has resulted in part from interference to superinfection, which limits the numbers of active proviruses in cells. Recently, we found that these vectors amplify when they are added as calcium phosphate precipitates to cocultures of cells that package retroviruses into ecotropic and amphotropic host range envelopes. Helper-free virions from either cell type can infect the other without interference, resulting in theoretically limitless back-and-forth (ping-pong) vector replication. In initial studies, however, amplifications of a vector that contained the human growth hormone gene ceased when the hormone produced was 0.3% or less of cellular protein synthesis. This limit was caused by two factors. First, recombinant shutoff viruses that are replication defective and encode envelope glycoproteins form at a low probability during any round of the vector replication cycle and these spread in cocultures, thereby establishing interference. Single cells in shutoff cocultures therefore synthesize both ecotropic and amphotropic envelope glycoproteins, and they release promiscuous (presumably hybrid) virions. The probability of forming shutoff viruses before the vector had amplified to a high multiplicity was reduced by using small cocultures. Second, cells with large numbers of proviruses are unhealthy and their proviral expression can be unstable. Stable expresser cell clones were obtained by selection. Thereby, cell lines were readily obtained that stably produce human growth hormone as 4 to 6% of the total protein synthesis. A ping-pong retroviral vector can be used for high-level protein production in vertebrate cells.

Stably transmitted triple-promoter retroviral vectors and their use in transformation of primary mammalian cells

Retroviral vectors were constructed which coexpressed three inserted genes from independent transcriptional promoters in singly infected cells. Several such triple-promoter vectors were constructed with various combinations of oncogenes and selectable drug resistance genes. All expressed three mRNAs of the expected size in infected cells. One vector expressing the v-Ha-ras, v-myc, and neo genes was characterized in detail. This retrovirus did not undergo rearrangement during the process of infection, as judged by Southern analysis, and infection of primary rat embryo fibroblasts demonstrated that ras-myc-cotransformed cells could be selected in G418. This demonstration that retroviral vectors can be used to express three cistrons independently increases their value as gene transfer vehicles, particularly for studies involving oncogene cooperation in primary cells.

Comparison of expression in hemopoietic cells by retroviral vectors carrying two genes

In order to identify factors that influence expression by retroviral vectors in hemopoietic cells, we have compared viral RNA levels in cells infected with several different recombinant viruses. All of the vectors tested carry the neomycin resistance gene and provide for the insertion of a second gene which, in these studies, comprised sequences from the myc or myb oncogenes or the gene encoding granulocyte-macrophage colony-stimulating factor. The vectors utilize two different strategies for the coexpression of the two genes: alternate splicing and the use of a separate internal promoter. We found that expression in hemopoietic cells could be increased by substituting sequences from the myeloproliferative sarcoma virus long terminal repeat for those of the Moloney murine leukemia virus long terminal repeat. However, none of the vectors examined was able to express a second gene at levels equivalent to those achieved by the parental vectors carrying only the neomycin resistance gene. The reasons for this varied with the different vectors and included inefficient splicing and/or a reduction in the level of unspliced transcripts upon insertion of a second gene. Although the basis of the latter phenomenon is not clear, it is probably related to the position--near the 5' long terminal repeat--at which the second gene was inserted, since insertion of the same genes near the 3' end of another vector had no effect on viral RNA levels. In an attempt to circumvent some of these problems, we constructed a vector that employs an internal beta-actin promoter. Although this vector could express granulocyte-macrophage colony-stimulating factor sequences in a responsive hemopoietic cell line, the level of granulocyte-macrophage colony-stimulating factor produced was disappointingly low. The results from these studies suggest approaches to the design of improved vectors for effective expression of genes in hemopoietic cells.

Stably transmitted triple-promoter retroviral vectors and their use in transformation of primary mammalian cells

Retroviral vectors were constructed which coexpressed three inserted genes from independent transcriptional promoters in singly infected cells. Several such triple-promoter vectors were constructed with various combinations of oncogenes and selectable drug resistance genes. All expressed three mRNAs of the expected size in infected cells. One vector expressing the v-Ha-ras, v-myc, and neo genes was characterized in detail. This retrovirus did not undergo rearrangement during the process of infection, as judged by Southern analysis, and infection of primary rat embryo fibroblasts demonstrated that ras-myc-cotransformed cells could be selected in G418. This demonstration that retroviral vectors can be used to express three cistrons independently increases their value as gene transfer vehicles, particularly for studies involving oncogene cooperation in primary cells.

Rescue of cells from ras oncogene-induced growth arrest by a second, complementing, oncogene

Established REF52 cells (rat embryo fibroblasts) completely resist stable transformation by ras oncogenes, and simian virus 40 large tumor (T) antigen collaborates with ras to convert REF52 cells to tumorigenic state. A temperature-sensitive simian virus 40 large T antigen (encoded by tsA58) allowed the T24 Ha-ras oncogene to transform REF52 cells in a temperature-dependent manner. Two thirds of the clones transformed with tsA58 and ras became arrested in G2 or late S phase when shifted to a nonpermissive temperature for T antigen stability. Thus, ras induced growth arrest rather than stable transformation in the absence of a functional collaborating oncogene. These results indicate that collaborating oncogenes can regulate cellular responses to ras and have implications regarding therapeutic strategies to control tumor cells expressing activated ras oncogenes.

Nature and specificity of lymphokine independence induced by a selectable retroviral vector expressing v-src

A murine retroviral vector, LSNLsrc, has been constructed and examined for its ability to induce growth factor independence in cells normally dependent on interleukin 2 (IL-2) or interleukin 3 (IL-3) for growth. The LSNLsrc vector coexpressed the v-src gene of Rous sarcoma virus and the neo gene from transposon Tn5, allowing infected cells to be selected on the basis of G418 resistance. The murine cell lines CTLL-2 and FD.C/1, which are dependent for growth on IL-2 and IL-3, respectively, were both readily infected with the LSNLsrc virus. LSNLsrc-infected, G418-resistant cultures of FD.C/1 cells were able to give rise to IL-3-independent progeny, but all G418-resistant CTLL-2 cells retained normal IL-2 dependence. The induction of IL-3 independence by v-src was not a direct event, since limiting dilution analysis of the LSNLsrc-infected FD.C/1 cells showed that most of them were IL-3 dependent, despite expression of v-src mRNA and active pp60v-src kinase. However, clones selected from this population in the presence of IL-3 were able to undergo a subsequent progression event and generate IL-3-independent progeny. The generation of factor-independent variants in the clonal cultures was a rare event, as witnessed by the death of most of the cells in each clone when IL-3 was withdrawn. Together, these data indicate that a secondary event, in addition to v-src expression, was required to generate IL-3-independent growth. No evidence was found for an autocrine mechanism of transformation involving IL-2, IL-3, interleukin 4, or granulocyte-macrophage colony-stimulating factor.

Transcription from a spleen necrosis virus 5' long terminal repeat is suppressed in mouse cells

To determine the block(s) to spleen necrosis virus (SNV) replication in mouse cells, we studied the expression of a dominant selectable marker, neo, or a gene whose product is easily assayed, the chloramphenicol acetyltransferase (cat) gene, in SNV-derived and murine leukemia virus-derived vectors. Using transient (CAT) and stable (Neor phenotype) transfection assays, we showed that the SNV promoter was used in mouse cells only when the 3' SNV long terminal repeat (LTR) was absent. Infection of mouse cells with recombinant SNV viruses was 1% as efficient as infection of permissive dog (D17) cells. The SNV proviruses in mouse cells appeared normal by Southern blot analysis, indicating that their integration probably occurred by normal mechanisms. S1 nuclease analyses of Neor mouse cell clones, each harboring a single recombinant SNV provirus, showed that the selected (internal) promoter was active, but that the 5' SNV LTR promoter was not. However, in the rare (less than 10(-6)) Neor colonies in which expression of the 5' LTR was selected, both promoters were active. Thus, the block to SNV infection of mouse cells is at least at two levels; one is a 100-fold-decreased efficiency at some step(s) up to and including integration, and the other is at transcription.

Nature and specificity of lymphokine independence induced by a selectable retroviral vector expressing v-src

A murine retroviral vector, LSNLsrc, has been constructed and examined for its ability to induce growth factor independence in cells normally dependent on interleukin 2 (IL-2) or interleukin 3 (IL-3) for growth. The LSNLsrc vector coexpressed the v-src gene of Rous sarcoma virus and the neo gene from transposon Tn5, allowing infected cells to be selected on the basis of G418 resistance. The murine cell lines CTLL-2 and FD.C/1, which are dependent for growth on IL-2 and IL-3, respectively, were both readily infected with the LSNLsrc virus. LSNLsrc-infected, G418-resistant cultures of FD.C/1 cells were able to give rise to IL-3-independent progeny, but all G418-resistant CTLL-2 cells retained normal IL-2 dependence. The induction of IL-3 independence by v-src was not a direct event, since limiting dilution analysis of the LSNLsrc-infected FD.C/1 cells showed that most of them were IL-3 dependent, despite expression of v-src mRNA and active pp60v-src kinase. However, clones selected from this population in the presence of IL-3 were able to undergo a subsequent progression event and generate IL-3-independent progeny. The generation of factor-independent variants in the clonal cultures was a rare event, as witnessed by the death of most of the cells in each clone when IL-3 was withdrawn. Together, these data indicate that a secondary event, in addition to v-src expression, was required to generate IL-3-independent growth. No evidence was found for an autocrine mechanism of transformation involving IL-2, IL-3, interleukin 4, or granulocyte-macrophage colony-stimulating factor.

The v-fms oncogene induces factor-independent growth and transformation of the interleukin-3-dependent myeloid cell line FDC-P1

The normal cellular counterpart of the v-fms oncogene product is a receptor for the mononuclear phagocyte colony-stimulating factor, CSF-1. An interleukin-3 (IL-3)-dependent mouse myeloid cell line, FDC-P1, was infected with a murine retrovirus vector containing v-fms linked to a gene encoding resistance to neomycin (neo). Infected cells selected for resistance to the aminoglycoside G418 contained few proviral DNA copies per haploid genome, expressed low levels of the v-fms-coded glycoprotein, remained IL-3 dependent for growth, and were nontumorigenic in nude mice. In contrast, infected cells selected for their ability to grow in the absence of IL-3 contained an increased number of proviral insertions, expressed high levels of the v-fms-coded glycoprotein, and were tumorigenic in nude mice. The IL-3-independent cells expressed IL-3 receptors of comparable number and affinity to those detected in uninfected FDC-P1 cells and did not produce a growth factor able to support replication of the parental cells. Thus, the synthesis of high levels of the v-fms gene product in FDC-P1 cells abrogated their requirement for IL-3 and rendered the cells tumorigenic by a nonautocrine mechanism. The data suggest that v-fms encodes a promiscuous tyrosine kinase able to transform cells of the myeloid lineage that do not normally express CSF-1 receptors.

B-lymphoma induction by reticuloendotheliosis virus: characterization of a mutated chicken syncytial virus provirus involved in c-myc activation

Nondefective reticuloendotheliosis virus induces chicken bursal lymphoma in a manner similar to that of avian leukosis virus. The provirus integrates in the c-myc locus and uses a promoter insertion mechanism to activate c-myc expression. We cloned a provirus involved in c-myc activation from a B lymphoma. Detailed structural characterization of this clone, including sequence determination, revealed proviral insertion at 512 base pairs preceding the second c-myc exon. The provirus has a deletion of 80% of the viral genes but retains two intact long terminal repeats (LTRs). A segment of the viral env sequence is present in an inverted orientation. Elevated expression of c-myc, apparently directed by the 3' LTR, was detected. However, despite the presence of an intact 5' LTR, no viral transcripts were detected. Thus, the internal proviral rearrangement can affect 5' LTR transcription or stability of the message or both. This finding is in consonance with the view that proviral deletion plays an important role in the induction of bursal lymphomas by nonacute retroviruses.

The v-fms oncogene induces factor-independent growth and transformation of the interleukin-3-dependent myeloid cell line FDC-P1

The normal cellular counterpart of the v-fms oncogene product is a receptor for the mononuclear phagocyte colony-stimulating factor, CSF-1. An interleukin-3 (IL-3)-dependent mouse myeloid cell line, FDC-P1, was infected with a murine retrovirus vector containing v-fms linked to a gene encoding resistance to neomycin (neo). Infected cells selected for resistance to the aminoglycoside G418 contained few proviral DNA copies per haploid genome, expressed low levels of the v-fms-coded glycoprotein, remained IL-3 dependent for growth, and were nontumorigenic in nude mice. In contrast, infected cells selected for their ability to grow in the absence of IL-3 contained an increased number of proviral insertions, expressed high levels of the v-fms-coded glycoprotein, and were tumorigenic in nude mice. The IL-3-independent cells expressed IL-3 receptors of comparable number and affinity to those detected in uninfected FDC-P1 cells and did not produce a growth factor able to support replication of the parental cells. Thus, the synthesis of high levels of the v-fms gene product in FDC-P1 cells abrogated their requirement for IL-3 and rendered the cells tumorigenic by a nonautocrine mechanism. The data suggest that v-fms encodes a promiscuous tyrosine kinase able to transform cells of the myeloid lineage that do not normally express CSF-1 receptors.

Expression of human class II major histocompatibility complex antigens using retrovirus vectors

Retrovirus vectors [direct orientation (DO) vectors] that permit the simultaneous expression of an inserted protein-coding sequence and a dominant-acting selectable marker have been constructed. In these vectors, an internal simian virus 40 or human metallothionein promoter sequence serves to drive the expression of the bacterial neomycin phosphotransferase or guanine-xanthine phosphoribosyltransferase genes, whereas the viral long terminal repeat sequences are utilized to promote expression of inserted sequences. In some of the vectors, the viral 5' splice site, normally used in the biogenesis of the subgenomic env-encoding mRNA, has been eliminated. These vectors yield high transient and stable titers of virus after transfection of viral packaging cell lines, show little or no depression of virus titer with a variety of inserts, and faithfully transmit recombinant proviral sequences to recipient cells. To characterize the expression potential of these vectors, a variety of inserts encoding the alpha and beta subunits of the human major histocompatibility complex class II antigen HLA-DR have been introduced into these vectors. NIH 3T3 cells infected by viruses containing HLA-DR alpha or beta cDNAs express these proteins as shown by immunoprecipitation of metabolically labeled extracts. In addition, through the sequential infection of cells with retrovirus constructions expressing two different selectable markers, both subunits of the class II antigen have been introduced into NIH 3T3 cells. Such infected cells express HLA-DR molecules at the cell surface.

Instability of large direct repeats in retrovirus vectors

Retrovirus vectors were constructed with large (0.85- to 1.3-kilobase-pair) direct repeats in their genomes. Deletions involving the direct repeats occurred at a high frequency. Deletions occurred both when the direct repeats were in tandem and when they were separated by additional sequences. These deletions occurred during virus replication.

Suppression of endo B cytokeratin by its antisense RNA inhibits the normal coexpression of endo A cytokeratin

Antisense endo B cytokeratin RNA encoded by a retrovirus vector was expressed in a derivative of the F9 embryonal carcinoma cell line. Two G418-resistant clones were selected that expressed a colinear transcript containing both neomycin and antisense endo B cytokeratin sequences. Expression of a 5-fold excess of antisense endo B RNA over endogenous, retinoic acid-induced endo B RNA resulted in suppression of endo B cytokeratin protein expression. In addition, the normal induction of endo A protein, the type II cytokeratin that polymerizes with endo B, was suppressed at the RNA and protein levels. Revertant clones, which synthesize little if any neo or antisense endo B RNA, regain the ability to express the affected gene products in response to retinoic acid. These results indicate that the suppression of endo B cytokeratin protein synthesis influences the stable levels of endo A mRNA.

Comparison of promoter suppression in avian and murine retrovirus vectors

Previously, we described "promoter suppression" in infectious retrovirus vectors with two genes and an internal promoter. Here, we examined several parameters of promoter suppression and found that the amount of suppression in an integrated retrovirus vector was dependent both on whether the vector was derived from spleen necrosis virus or murine leukemia virus and on which internal promoter was present in the vector. Murine leukemia virus vectors showed less suppression than analogous spleen necrosis virus vectors. Furthermore, the amount of suppression was not dependent on either the relative strengths of the promoters nor the distance between the promoters. Moreover, we found that in vectors in which one promoter was suppressed, there was an inverse correlation between the DNaseI sensitivity of the chromatin surrounding a promoter and the suppression of its expression.

Pseudotyped retroviral vectors reveal restrictions to reticuloendotheliosis virus replication in rat cells

Reticuloendotheliosis viruses (Rev) replicate in chicken and dog cells, but not in rat cells. Amphotropic murine leukemia viruses (Am-MLV) replicate in chicken, dog, and rat cells. Transcription from the Rev long terminal repeat, determined by the chloramphenicol acetyltransferase assay, was not significantly different from transcription from the MLV long terminal repeat in rat cells. To determine further the step(s) in the retroviral life cycle that is blocked for Rev replication in rat cells, we took advantage of the wide host range of Am-MLV (S. Rasheed, M. B. Gardner, and E. Chan, J. Virol. 19:13-18, 1976) and the ability to form Rev-Am-MLV pseudotypes. Data from these pseudotypes indicate that the block to Rev replication in rat cells is posttranscriptional.