Ecotropic Retrovirus Research Articles

Transduction efficiency of cell lines and hematopoietic stem cells correlates with retrovirus receptor mRNA levels.

The low transduction efficiency of hematopoietic stem cells (HSC) using amphotropic retroviruses continues to plague gene therapy protocols. This low transduction efficiency may be related to a low level of amphotropic retrovirus binding to target cell receptors. We have assayed murine and human cell lines as well as primary bone marrow HSC populations for mRNA encoding retrovirus receptors. Total cellular RNA was amplified by reverse transcriptase-polymerase chain reaction and the level of ecotropic and amphotropic receptor mRNA was compared to the level of beta 2-microglobulin mRNA in the same cell populations. Cell lines that are easily transduced by ecotropic and amphotropic retroviruses have high levels of receptor mRNA. In studies using murine HSC-enriched populations obtained from bone marrow, we observed a high correlation between transduction efficiency and the level of ecotropic and amphotropic receptor mRNA. We predict from these findings that purification of monkey and human HSC populations with high levels of amphotropic receptor mRNA will enable us to obtain improved efficiency of gene transfer.

Molecular Sites of Regulation of Expression of the Rat Cationic Amino Acid Transporter Gene

Cat-1 is a protein with a dual function, a high affinity, low capacity cationic amino acid transporter of the y+ system and the receptor for the ecotropic retrovirus. We have suggested that Cat-1 is required in the regenerating liver for the transport of cationic amino acids and polyamines in the late G1 phase, a process that is essential for liver cells to enter mitosis. In our earlier studies we had shown that the cat-1 gene is silent in the quiescent liver but is induced in response to hormones, insulin, and glucocorticoids, and partial hepatectomy. Here we demonstrate that cat-1 is a classic delayed early growth response gene in the regenerating liver, since induction of its expression is sensitive to cycloheximide, indicating that protein synthesis is required. The peak of accumulation of the cat-1 mRNA (9-fold) by 3 h was not associated with increased transcriptional activity of the cat-1 gene in the regenerating liver, indicating post-transcriptional regulation of expression of this gene. Induction of the cat-1 gene results in the accumulation of two mRNA species (7.9 and 3.4 kilobase pairs (kb)). Both mRNAs hybridize with the previously described rat cat-1/2.9-kb cDNA clone. However, the 3' end of a longer rat cat-1 cDNA (rat cat-1/6.5-kb) hybridizes only to the 7.9-kb mRNA transcript. Sequence analysis of this clone indicated that the two mRNA species result from the use of alternative polyadenylation signals. The 6. 5-kb clone contains a number of AT-rich mRNA destabilizing sequences which is reflected in the half-life of the cat-1 mRNAs (90 min for 7. 9-kb mRNA and 250 min for 3.4-kb mRNA). Treatment of rats with cycloheximide superinduces the level of the 7.9-kb cat-1 mRNA in the kidney, spleen, and brain, but not in the liver, suggesting that cell type-specific labile factors are involved in its regulation. We conclude that the need for protein synthesis for induction of the cat-1 mRNA, the short lived nature of the mRNAs, and the multiple sites for regulation of gene expression indicate a tight control of expression of the cat-1 gene within the regenerating liver and suggest that y+ cationic amino acid transport in liver cells is regulated at the molecular level.

The level of mRNA encoding the amphotropic retrovirus receptor in mouse and human hematopoietic stem cells is low and correlates with the efficiency of retrovirus transduction.

The low level of amphotropic retrovirus-mediated gene transfer into human hematopoietic stem cells (HSC) has been a major impediment to gene therapy for hematopoietic diseases. In the present study, we have examined amphotropic retrovirus receptor (amphoR) and ecotropic retrovirus receptor mRNA expression in highly purified populations of mouse and human HSC. Murine HSC with low to undetectable levels of amphoR mRNA and relatively high levels of ecotropic retrovirus receptor mRNA were studied. When these HSC were analyzed simultaneously for ecotropic and amphotropic retrovirus transduction, ecotropic provirus sequences were detected in 10 of 13 long-term repopulated animals, while amphotropic proviral sequences were detected in only one recipient. A second distinct population of murine HSC were isolated that express 3-fold higher levels of amphoR mRNA. When these HSC were analyzed simultaneously for ecotropic and amphotropic retrovirus transduction, 11 of 11 repopulated mice contained ecotropic provirus and 6 of 11 contained amphotropic provirus sequences, a significant increase in the amphotropic retrovirus transduction (P = 0.018). These results indicate that, among the heterogeneous populations of HSC present in adult mouse bone marrow, the subpopulation with the highest level of amphoR mRNA is more efficiently transduced by amphotropic retrovirus. In a related study, we found low levels of human amphoR mRNA in purified populations of human HSC (CD34+ CD38-) and higher levels in committed progenitor cells (CD34+ CD38+). We conclude that the amphoR mRNA level in HSC correlates with amphotropic retrovirus transduction efficiency.

Molecular and Pathogenic Characterization of the RFB Osteoma Virus: Lack of Oncogene and Induction of Osteoma, Osteopetrosis, and Lymphoma

RFB virus is an ecotropic C-type retrovirus isolated from CF-1 mice, in which it is associated with induction of osteomas. Sequence analysis of the RFB provirus revealed no evidence for presence of an oncogene or a recombinedenvgene. RFB virus is a member of the murine leukemia virus (MuLV) group (RFB MuLV), sharing 97% nucleotide identity with the endogenous ecotropic provirus of AKR mice (Akv). Like Akv, expression of RFB MuLV mRNAs is inducible by dexamethasone treatment, indicating that RFB MuLV also shares transcriptional control signals with Akv. We assessed the pathogenic potential of RFB MuLV in NMRI mice, which, in contrast to CF-1 mice, do not contain endogenous ecotropic retroviruses. RFB MuLV induced osteomas, osteopetrosis, and lymphomas in newborn NMRI mice. Another CF-1 mouse-derived leukemia virus, FBJ MuLV, the helper virus of the FBJ osteosarcoma virus stock, as well as Akv, also induced osteomas, osteopetrosis, and lymphomas in NMRI mice similar to RFB MuLV. These findings indicate that endogenous retroviruses carry a pathogenic potential in hematopoietic tissues and in the skeleton.

Modulation of ecotropic murine retroviruses by N-linked glycosylation of the cell surface receptor/amino acid transporter.

The cell surface receptor for ecotropic host-range (infection limited to mice or rats) murine leukemia viruses (MuLVs) is the widely expressed system y+ transporter for cationic amino acids (CAT-1). Like other retroviruses, ecotropic MuLV infection eliminates virus-binding sites from cell surfaces and results in complete interference to superinfection. Surprisingly, infection causes only partial (ca 40 to 60%) loss of mouse CAT-1 transporter activity. The NIH/Swiss mouse CAT-1 (mCAT-1) contains 622 amino acids with 14 hydrophobic potential membrane-spanning sequences, and it is known that the third extracellular loop from the amino terminus is required for virus binding. Although loop 3 is hypervariable in different species and mouse strains, consistent with its proposed role in virus-host coevolution, loop 3 sequences of both susceptible and resistant species contain consensus sites for N-linked glycosylation. Both of the consensus sites in loop 3 of mCAT-1 are known to be glycosylated and to contain oligosaccharides with diverse sizes (J. W. Kim and J. M. Cunningham, J. Biol. Chem. 268:16316-16320, 1993). We confirmed by several lines of evidence that N-linked glycosylation occludes a potentially functional virus-binding site in the CAT-1 protein of hamsters, thus contributing to resistance of that species. To study the role of receptor glycosylation in animals susceptible to infection, we eliminated loop 3 glycosylation sites by mutagenesis of an mCAT-1 cDNA clone, and we expressed wild-type and mutant receptors in mink fibroblasts and Xenopus oocytes. These receptors had indistinguishable transport properties, as determined by kinetic and voltage-jump electrophysiological studies of arginine uptake in oocytes and by analyses Of L-[3H]arginine uptake in mink cells. Bindings of ecotropic envelope glycoprotein gp7O to the accessible receptor sites on surfaces of mink cells expressing wild-type or mutant mCAT-1 were not significantly different in kinetics or in equilibrium affinities (i.e., K(D) approximately 3.7 X 10(-10) to 7.5 X 10(-10) M). However, when values were normalized to the same levels of mCAT-1 transporter expression, cells with wild-type glycosylated mCAT-1 had only approximately 50% as many sites for gp70 binding as cells with unglycosylated mCAT-1. Although infection with ecotropic MuLV had no effect on activity of the mink CAT-1 transporter that does not bind virus, it caused partial down-modulation of wild-type mCAT-1 and complete down-modulation of unglycosylated mutant mCAT-1. These results suggest that N-linked glycosylation causes wild-type mCAT-1 heterogeneity and that a significant proportion is inaccessible to virus. In part because only the interactive fraction of mCAT-1 can be down-modulated, infected murine cells conserve an amino acid transport capability that supports their viability.

Resistance to TGF beta in SV40 large T-immortalized rat intestinal epithelial cells is associated with down-regulation of TGF beta type I receptor

A new continuous cell line designated ESKI-1 was established by transfection of rat fetal intestinal epithelial cells with ecotropic retroviruses containing SV40 large T oncogene. The ESKI-1 cell line exhibits morphologic features of an epithelial cell line and expresses the OCI-5 and cytokeratin 8 transcripts associated with epithelial cells in the small intestine. Signal transduction and proliferation responses to TGF beta has been characterized in ESKI-1 cells, in comparison with the spontaneously-immortalized IEC cell lines originating from neonatal rat duodenum and ileum. ESKI-1 express both TGF alpha and TGF beta. However, despite a marked increase in TGF beta-stimulated p78 kinase activity observed in ESKI-1 and IEC cells, TGF beta did not modulate growth, or extracellular matrix expression in ESKI-1 cells. Resistance to growth modulation was associated with downregulation of TGF beta. Type I receptor expression in the SV40 large T-immortalized cells. Thus, proliferative resistance to TGF beta inhibition can result from depletion of the TGF beta type I receptor and disruption of the TGF beta signaling pathway downstream the p78 serine/threonine kinase. These molecular defects constitute two early events during the SV40LT-mediated immortalization and neoplastic progression of the intestinal epithelia.

Retroviral Infection of Syrian Hamster BHK Cells Depends on Age and Susceptibility toward Sialidase

Infection with recombinant retroviruses is a standard method to efficiently manipulate murine or human cells genetically. Due to differences in glycosylation of the hamster homologue to the murine ecotropic receptor and the absence of an amphotropic receptor, murine retroviruses are unable to infect hamster cells. Here we describe an isolated cell clone of the Baby Hamster Kidney cell line, BHK-21, that can be successfully infected with ecotropic murine retroviruses. This finding prompted us to investigate the possibility of changing the infectability of other cell strains by manipulating the receptors of these cell linesin vitro.We found that treatment of other BHK cell clones with sialidase fromC. Perfringensmakes these cell clones also permissive to murine ecotropic retroviruses. Long term cultivation of three tested cell clones increased this susceptibility. Although the resulting infectants show a higher rate of infectability, they still require the manipulation with sialidase for this superinfection to be efficient.

Exceptional fusogenicity of Chinese hamster ovary cells with murine retroviruses suggests roles for cellular factor(s) and receptor clusters in the membrane fusion process

Chinese hamster ovary (CHO) cells are naturally resistant to infection by amphotropic and ecotropic murine retroviruses, but they become susceptible after expressing corresponding receptors rRAM-1 and mCAT-1, respectively, and they then form abundant syncytia when exposed to these viruses. The fusogenic activities of CHO cell clones increase much more strongly with levels of receptor expression than do their susceptibilities to infection, suggesting that the assembly of receptor clusters may limit syncytium formation. However, other cell lines are not fusogenic, even if they express larger amounts of receptors. Our results suggest that a factor that is relatively abundant or active in CHO cells may functionally interact with rRAM-1 and mCAT-1 in a pathway that enables receptor-bearing membranes to fuse with membranes that contain viral envelope glycoproteins. In the case of CHO/rRAM-1 cells, syncytia form at foci of amphotropic 4070A virus infection by fusion-from-within of infected with uninfected cells. This fusogenic propensity is a sole property of the uninfected CHO/rRAM-1 cells, which fuse in cocultures with any cells infected with 4070A virus. With CHO/mCAT-1 cells, fusogenicity is even greater and involves fusion-from-without by ecotropic virion particles. In contrast to infection, which behaves as expected for a process limited by ecotropic virus attachment to single receptors, fusion-from-without increases dramatically for cells that express the highest levels of mCAT-1. We propose that infection and syncytium formation are limited at distinct steps of a common pathway that requires virus binding to a single receptor, assembly of multivalent virus-receptor complexes, structural changes in viral envelope glycoproteins, and membrane fusion. The limiting step in syncytium formation is a cellular process that depends on receptor clustering and is relatively active in CHO cells.

Association of repeat sequences with integrated retroviruses in a murine leukaemia cell line

An analysis was made of the retroviral integration sites for retroviruses in a murine lymphoid precursor cell line, C1-V13D, derived following in vitro infection with RadLV, an ecotropic murine retrovirus. A genomic library was constructed and λ clones were selected for their capacity to hybridize with the specific RadLV gp70 ecotropic env probe. Analysis of these clones by a combination of approaches, including subcloning, partial restriction mapping and sequencing, has confirmed the existence of multiple recombinant and defective viruses in C1-V13D. To check for the presence of coding sequences in flanking genomic DNA, 32P-labelled cDNA from C1-V13D was used to probe HindIII- and Pstl-digested virus-positive λ clones by Southern analysis. Regions hybridizing specifically with 32P-labelled C1-V13D cDNA were subcloned and analysed. A notable feature of these cDNA+ regions was the frequent presence of B1, B2 and simple repeats. These repeat elements were found to be present in high frequency in the genomic regions flanking the proviruses, in numbers higher than expected for the genome as a whole. All full-length viruses isolated appeared to represent integration events into regions rich in repeat elements. Some B1 and B2 repeats have been shown to code for functional proteins and to play regulatory roles. Viral integration in the vicinity of these genetic elements could contribute to oncogenesis if the integration event were to disrupt normal gene function.

Phenotypic changes and loss of melanoma-specific endogenous C-type retroviruses in BL6 melanoma cells transfected with the H-2Kb gene.

The murine B16 melanoma and its sublines are low or totally deficient in expression of the H-2Kb class I major histocompatibility complex (MHC) gene. In clones derived from the B16F10BL6 subline, expression of the transfected or endogenous H-2Kb gene resulted in alterations of various phenotypic properties of these melanoma cells, among which was the loss of melanoma-associated antigen (MAA) expression. Because our previous immunoelectron microscopy studies showed that MAA was associated with a C-type ecotropic retrovirus specific for melanomas of C57BL/6 origin, we examined the effect of class I H-2Kb as well as class II H-2IAk gene expression on retrovirus production in subclones of BL6 melanoma cells. Here we have shown that expression of the transfected or endogenous H-2Kb gene resulted in the loss of production of budding, MAA-specific, C-type retrovirus particles. Northern blot analysis demonstrated expression of ecotropic retroviral mRNAs in both particle-producing and non-producing BL6 melanoma clones. Southern blot analysis of high-molecular-weight cellular DNAs using an ecotropic env-specific DNA probe indicated that the parental BL6-8 melanoma cells contained the C57BL/6 endogenous ecotropic MuLV (Emv-2) and at least three additional, novel ecotropic retroviral DNAs. Restriction enzyme analysis of the proviral DNA suggests that the loss of retrovirus production in the H-2Kb-expressing melanoma clones is the result of multiple rearrangements in the novel proviral DNAs. Thus, phenotypic changes observed in the H-2Kb gene-transfected BL6 melanoma cells were associated with loss of endogenous melanoma-specific ecotropic retrovirus production.

Expression of human beta-hexosaminidase alpha-subunit gene (the gene defect of Tay-Sachs disease) in mouse brains upon engraftment of transduced progenitor cells.

In humans, beta-hexosaminidase alpha-subunit deficiency prevents the formation of a functional beta-hexosaminidase A heterodimer resulting in the severe neurodegenerative disorder, Tay-Sachs disease. To explore the feasibility of using ex vivo gene transfer in this lysosomal storage disease, we produced ecotropic retroviruses encoding the human beta-hexosaminidase alpha-subunit cDNA and transduced multipotent neural cell lines. Transduced progenitors stably expressed and secreted high levels of biologically active beta-hexosaminidase A in vitro and cross-corrected the metabolic defect in a human Tay-Sachs fibroblasts cell line in vitro. These genetically engineered CNS progenitors were transplanted into the brains of both normal fetal and newborn mice. Engrafted brains, analyzed at various ages after transplant, produced substantial amounts of human beta-hexosaminidase alpha-subunit transcript and protein, which was enzymatically active throughout the brain at a level reported to be therapeutic in Tay-Sachs disease. These results have implications for treating neurologic diseases characterized by inherited single gene mutations.

Molecular analysis and characterization of two myeloid leukemia inducing murine retroviruses.

Murine retroviruses (MuLVs) induce a large variety of hematopoietic tumors through complex mechanisms involving insertional activation of cellular proto-oncogenes in the tumor cell (for review see [1,2]). The type of tumor induced generally depends on sequences located in the viral enhancer [3–5] but also on coding sequences from other regions of the viral genome [6–8]. The Cas-Br-E MuLV is an ecotropic retrovirus that induces hindlimb paralysis in susceptible strains of mice [9]. It also induces mainly non-T, non-B-cell leukemia in infected NIH/Swiss mice [10–12]. The tumor cells show a very undifferentiated blast cell morphology which suggest that they are immature precursors.KeywordsChronic Myeloid LeukemiaMurine Leukemia VirusViral IntegrationInsertional ActivationThymic EnlargementThese keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Transient transfection of ecotropic retrovirus receptor permits stable gene transfer into non-rodent cells with murine retroviral vectors.

Transient transfection of ecotropic retrovirus receptor permits stable gene transfer into non-rodent cells with murine retroviral vectors.

Emv30null NOD-scid Mice: An Improved Host for Adoptive Transfer of Autoimmune Diabetes and Growth of Human Lymphohematopoietic Cells

When used as hosts in passive transfer experiments, a stock of NOD/Lt mice congenic for the severe combined immunodeficiency (scid) mutation have provided great insight to the contributions of various T-cell populations in the pathogenesis of autoimmune insulin-dependent diabetes mellitus (IDDM). Moreover, NOD-scid mice support higher levels of human lymphohematopoietic cell growth than the C.B-17-scid strain in which the mutation originated. However, the ability to perform long-term lymphohematopoietic repopulation studies in the NOD-scid stock has been limited by the fact that most of these mice develop lethal thymic lymphomas beginning at 20 weeks of age. These thymic lymphomas are characterized by activation and subsequent genomic reintegrations of Emv30, an endogenous murine ecotropic retrovirus unique to the NOD genome. To test the role of this endogenous retrovirus in thymomagenesis, we produced a stock of Emv30null NOD-scid mice by congenic replacement of the proximal end of chromosome 11 with genetic material derived from the closely related NOR/Lt strain. Thymic lymphomas still initiate in Emv30null NOD-scid females, but their rate of progression is significantly retarded since the frequency of tumors weighing between 170 and 910 mg at 25 weeks of age was reduced to 20.8% vs. 76.2% in Emv30% segregants. The thymic lymphomas that did develop in Emv30null NOD-scid mice were not characterized by a compensatory increase in mink cell focus-forming proviral integrations, which initiate thymomagenesis in other susceptible mouse strains. Significantly, the ability of standard NOD T-cells to transfer IDDM to the Emv30null NOD-scid stock was not impaired.(ABSTRACT TRUNCATED AT 250 WORDS)

Cell Targeting for Gene Delivery: Use of Fusion Protein Containing the Modified Human Receptor for Ecotropic Murine Leukemia Virus

We have previously cloned a human gene (H13) homologous to the murine ecotropic retrovirus (E-MuLV) receptor, which, however, does not confer susceptibility to E-MuLV infection. The extracellular domain 3 (ECD3) of H13 contains amino acid residues critical for E-MuLV binding in that the modified H13 gene (mH13), substituted with amino acids from the actual receptor, has the ability to bind E-MuLV. Here we have expressed a fusion protein consisting of mH13/ECD3 and transforming growth factor-α in Escherichia coli and demonstrated its binding activity to both ecotropic AKR virus and the epidermal growth factor receptor expressed on the cell surface. Fusion proteins of mH13/ECD3 and ligands to cell surface molecules might be useful for specific cell targeting in E-MuLV-based gene delivery systems.

A novel mechanism of retrovirus inactivation in human serum mediated by anti-alpha-galactosyl natural antibody.

Type C retroviruses endogenous to various nonprimate species can infect human cells in vitro, yet the transmission of these viruses to humans is restricted. This has been attributed to direct binding of the complement component C1q to the viral envelope protein p15E, which leads to classical pathway-mediated virolysis in human serum. Here we report a novel mechanism of complement-mediated type C retrovirus inactivation that is initiated by the binding of "natural antibody" [Ab] (anti-alpha-galactosyl Ab) to the carbohydrate epitope Gal alpha 1-3Gal beta 1-4GlcNAc-R expressed on the retroviral envelope. Complement-mediated inactivation of amphotropic retroviral particles was found to be restricted to human and other Old World primate sera, which parallels the presence of anti-alpha-galactosyl natural Ab. Blockade or depletion of anti-alpha-galactosyl Ab in human serum prevented inactivation of both amphotropic and ecotropic murine retroviruses. Similarly, retrovirus was not killed by New World primate serum except in the presence of exogenous anti-alpha-galactosyl Ab. Enzyme-linked immunosorbent assays revealed that the alpha-galactosyl epitope was expressed on the surface of amphotropic and ecotropic retroviruses, and Western blot analysis further localized this epitope to the retroviral envelope glycoprotein gp70. Finally, down-regulation of this epitope on the surface of murine retroviral particle producer cells rendered them, as well as the particles liberated from these cells, resistant to inactivation by human serum complement. Our data suggest that anti-alpha-galactosyl Ab may provide a barrier for the horizontal transmission of retrovirus from species that express the alpha-galactosyl epitope to humans and to other Old World primates. Further, these data provide a mechanism for the generation of complement-resistant retroviral vectors for in vivo gene therapy applications where exposure to human complement is unavoidable.

Inhibition of murine retrovirus-induced neurodegeneration in the spinal cord by explant culture.

The neurovirulent chimeric mouse ecotropic retrovirus FrCasE causes a rapid neurodegenerative disease of the central nervous system (CNS) characterized by the appearance of spongiform lesions in motor areas 10 days after neonatal inoculation. To study the details of the pathogenic process, we examined the ability of an ex vivo spinal cord model to recapitulate disease. Organotypic spinal cord slice cultures were established from IRW mice 7 days after neonatal inoculation. This corresponds to a time when virus expression in the CNS is first detectable but spongiform changes have yet to evolve. Infectivity associated with these cultures peaked at 7 days in vitro and persisted at this level for 6 weeks. FrCasE infection of the spinal cord slices was primarily found associated with microglial cells. Infection of neurons, astrocytes, oligodendroglia, and endothelial cells was not observed; however, significant astrogliosis was found. Despite the presence of extensive microglial infection in close association with spinal motor neurons in organotypic cultures, no virus-specific spongiform degenerative changes were observed. These results suggest that removal of motor neurons from the developing CNS, despite maintaining the local cytoarchitectural relationships, prevents the virus from eliciting its pathological effects. Possible reasons for the interruption of lesion development are discussed.

Angiotensin II Stimulates System y+ and Cationic Amino Acid Transporter Gene Expression in Cultured Vascular Smooth Muscle Cells

The effect of angiotensin II (Ang II) on the transport of cationic amino acids has been examined in vascular smooth muscle cells (VSMC) isolated from rat aortae. Ang II stimulated the uptake rates of radiolabeled arginine and lysine in a time- and concentration-dependent manner. The stimulated arginine uptake could be blocked by pretreatments with cycloheximide and actinomycin D or co-treatment with valsartan, an antagonist specific for Ang II receptor subtype-1. The modulation by Ang II was bidirectional as the efflux of arginine was also stimulated, 5-fold over basal. Using reverse transcription-coupled polymerase chain reaction methodology, a partial cDNA with 94% sequence identity to that of cationic amino acid transporter subtype-1 (CAT-1) of mouse fibroblasts was obtained from VSMC. This sequence also exhibited 14 base changes compared with the sequence of ecotropic retrovirus receptor (ERR)/CAT-1 from rat hepatoma. Northern analyses with this partial CAT-1 cDNA and CAT-2 cDNA of mouse T-lymphocytes showed that Ang II rapidly stimulated the expression of both CAT-1 and CAT-2 in VSMC. Both signals peaked at 2 h after exposure to Ang II. The CAT-1 signal decayed over the next 6 h to levels 3-fold above basal, which are maintained up until 24 h. The induced CAT-2 mRNA concentration also decayed rapidly but increased again between 16 and 24 h to levels comparable with those observed at 2 h.

Cloning and Expression of a Single-Chain Antibody Fragment Specific for a Monomorphic Determinant of Class I Molecules of the Human Major Histocompatibility Complex

B9.12.1 is a monoclonal antibody specific for a monomorphic determinant of human MHC class I molecules. It is currently used for cell typing and is useful for targeting infection of human cells by murine ecotropic retroviruses. We have cloned and expressed it in the form of a single-chain variable fragment (ScFv) that recognizes the same epitope as the parental antibody. Through genetic engineering, this ScFv may be used for developing new cell-typing probes and new retroviral targeting approaches.

Persistent expression of genes transferred in the fetal rat liver via retroviruses.

The transfer of genes into the fetal liver is a promising approach for correction of inborn errors in metabolism identified in prenatal life. In this study, we demonstrate that gene transfer to the fetal rat liver resulted in the stable expression of the gene in the hepatocytes of the adult animals. This was achieved by a combination of gene transfer via ecotropic retroviruses in the fetal liver with subsequent partial hepatectomy of the offspring. Replication incompetent, ecotropic and amphotropic retroviruses were used to transfer the bovine growth hormone gene (bGH) linked to the promoter (-450 to +73) for the P-enolpyruvate carboxykinase (PEPCK) gene into the fetal liver in the last trimester of gestation. Amphotropic retroviruses were unable to infect the fetal liver due to the lack of expression of their receptors. The fetal liver was infected by the ecotropic retroviruses and partial hepatectomy of the offspring at one month of age stimulated expression of the PEPCK/bGH gene in the liver over ten fold. Expression of the gene persisted for as long as one year. A heterogeneous pattern of expression of the chimeric gene throughout the liver parenchymal cells was identified with higher expression in the pericentral region of the liver. This zonation of expression was not expected, since the endogenous PEPCK gene is expressed in periportal hepatocytes. We suggest that, following partial hepatectomy DNA replication activates expression of the proviral PEPCK/bGH gene, mainly in midzonal and pericentral hepatocytes. Proviral sequences may influence the expression of the PEPCK/bGH gene in parenchymal cells in which the PEPCK promoter is not normally active.