We have produced continuous cell lines using retroviral transduction of SV40 large T antigen into human intrahepatic biliary epithelial (IBE) cells from three different normal individuals. These IBE cell lines grow in a hormone-supplemented medium in the presence of NIH/3T3 fibroblast coculture. These cells maintain their epithelial appearance and are positive for the biliary-specific markers cytokeratins 7 and 19 and gamma-glutamyl transpeptidase while being negative for the hepatocyte markers albumin and asialoglycoprotein receptor. To evaluate ion transport pathways in IBE cell lines, we utilized intracellular pH (pHi) measurements obtained using the intracellular fluorescent indicator 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein. In the absence of HCO3(-)-CO2, an amiloride-sensitive Na(+)-H+ exchanger participated in the regulation of basal pHi. In the presence of HCO3(-)-CO2, a 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (DIDS)-sensitive, Na-, Cl-, and HCO3(-)-dependent acid extrusion mechanism accounted for approximately 60% of pHi recovery from acidic pHi; this mechanism is most consistent with the presence of a Na-dependent Cl-HCO3- exchanger (Na+HCO3(-)-Cl-H+). Under basal conditions, Cl- depletion revealed a DIDS-sensitive alkalinization consistent with a Na-independent Cl(-)-HCO3- exchanger. These model systems will allow the opportunity to study the normal mechanisms of IBE function and to study the pathobiology of IBE processes in disease states.
To elucidate the role gap junctions play in the bystander transfected with the HSVtk gene failed to exert a bystander effect, we examined the cytotoxic effect of herpes simplex effect, whereas N2A transfectants coexpressing the convirus thymidine kinase (HSVtk)
Recombinant retroviruses that transduce individual polyoma tumor antigens: effects on growth and differentiation.
We have constructed infectious retroviral vectors, derived from Moloney murine leukemia virus, that efficiently transduce the polyoma virus tumor (T) antigens individually. The parental vector we have chosen [pZIP-NeoSV(X)l] expresses a dominant selectable marker for neomycin resistance and is a shuttle vector capable of propagation in both eukaryotic and prokaryotic cells, thus facilitating its use in structure-function studies. To address the relationship between polyoma T-antigen tumorigenesis and the effects of individual T antigens on growth control and differentiation, we used these vectors to introduce and stably express large, middle-sized, or small T antigens into mouse fibroblasts and preadipocytes. All cDNAs introduced into the vector are expressed stably even in the absence of selective pressure. The stable expression of small T antigen is noted particularly because cell lines expressing small T antigen have not been readily available prior to the use of retroviral vectors. Small T antigen-induced increase in saturation density of NIH 3T3 cells can be scored on the basis of the morphology of drug-resistant colonies. Middle-sized T antigen eliminates the growth requirement of NIH 3T3 cells for epidermal growth factor in a defined medium and permits growth in platelet-poor plasma, indicating elimination of the platelet-derived growth factor requirement as well. Large T antigen suppresses mouse preadipocyte (3T3-F442A) differentiation. These vectors and these functional assays of T-antigen activity permit genetic analysis of the relationship between tumorigenesis by T antigens and the alteration of cellular growth and differentiation.The role of the individual polyoma tumor (T) antigens in tumorigenesis and in the polyoma virus replication cycle is currently the subject of intense study. Large T antigen (LTAg) is a nuclear protein with origin-specific DNA binding properties, and it is essential for viral DNA replication (1). In addition, this protein also negatively regulates early viral transcription (1) and is both necessary and sufficient to immortalize primary rodent fibroblasts (2). Middle-sized T antigen (MTAg) is sufficient to transform immortalized cell lines to form foci in monolayer cultures and colonies in soft agar and to become tumorigenic (3). MTAg immunoprecipitates contain tyrosine kinase activity (4), and recent results indicate that the tyrosine kinase activity in MTAg immunoprecipitates is pp60'csrc (5). An activity in MTAg immunoprecipitates will also phosphorylate the membrane phospholipid phosphatidylinositol (6), leading to the generation of two potent second messengers, diacylglycerol and inositol trisphosphate, which are important signals in normal cellular regulation (7) and may be important in MTAg transformation (8). Unlike LTAg and MTAg, small T antigen (STAg) has no known intrinsic or associated biochemical activity. Bastin and coworkers (9) have shown, however, that either STAg or LTAg must complement MTAg to cause tumor formation in newborn rats. In addition, Benj...
Systemic Delivery of Human Growth Hormone or Human Factor IX in Dogs by Reintroduced Genetically Modified Autologous Bone Marrow Stromal Cells
Canine bone marrow stromal cells were expanded to numbers in excess of 10(9) cells from the initial 10-20 ml of marrow aspirates and transfected to express high levels of human growth hormone (hGH) in vitro. Ex vivo-modified marrow stromal cells were used in a gene therapy model system for the systemic delivery of transgene products in dogs. Adherent bone marrow stromal cell cultures, established and expanded from iliac crest marrow aspirates from each of 8 dogs, were transfected with a hGH gene plasmid expression vector and shown to express from 0.54-3.84 micrograms/10(6) cells per 24 hr hGH in vitro. The transfected plasmid vector does not possess a eukaryotic origin of replication nor does it possess sequences required for efficient integration into the host cell genome. As such, expression was expected to be transient. Transfected cells were autologously reintroduced into each dog by either infusion into a foreleg vein or directly into iliac crest marrow. In two cases, the stromal cells were cryopreserved following transfection, and subsequently thawed and infused. In one case, the expanded stromal cells were first cryopreserved, and then thawed, recultured, transfected, and infused. Reintroduced cell numbers ranged from 2.2 x 10(7) to 2.6 x 10(9), with total hGH expression capacities ranging from 62 to 1,400 micrograms/24 hr. Plasma of each of the dogs contained detectable hGH for a mean of 3.1 days (SD +/- 0.8 day) ranging from 2 to 5 days following reinfusion of cells. Peak plasma levels ranged from 0.10 to 1.76 ng/ml. Similar hGH expression values, based upon total expression capacity of the cells infused and dog body weight, were obtained for all dogs. Vector-modified stromal cells were detectable, by polymerase chain reaction (PCR) analysis, in the peripheral circulation following reinfusion in all 4 dogs analyzed. In 3 of the dogs, modified stromal cells were detected for 8.5-15 weeks. In addition, modified stromal cells were detected in iliac crest marrow of 2 dogs for 9 and 13 weeks, respectively, following reinfusion. In another experiment, cultured bone marrow stromal cells were transfected with a human factor IX (hFIX) plasmid vector. Modified cells (5.57 x 10(8)), with a total hFIX expression capacity of 281 micrograms/24 hr, were reinfused, resulting in detectable hFIX in plasma continuously for 9 days with a peak level of 8 ng/ml on day 1. These results demonstrate that the ex vivo bone marrow stromal cell system is a potentially powerful method by which to deliver secreted transgene product to the systemic circulation of large animals.
We have used two-dimensional gel electrophoresis to analyze in more detail the cellular proteins which associate with the middle and small tumor antigens (MT and ST, respectively) of polyomavirus. Proteins with molecular masses of 27, 29, 36, 51, 61, 63, and 85 kilodaltons (kDa) that specifically coimmunoprecipitated with MT were identified on these gels. The 36-, 51-, 61-, 63-, and 85-kDa proteins are probably the same as the proteins of similar sizes previously reported by a number of groups, whereas the 27and 29-kDa proteins represent proteins that are heretofore undescribed. The 27and 29-kDa proteins were abundant cellular proteins, whereas the others were minor cellular constituents. The association of each of these proteins with MT was sensitive to one or more mutations in MT that rendered it transformation defective. The association of the 85-kDa protein was the most sensitive indicator of the transformation competence of MT mutants. In addition, the 85-kDa protein was the only associated protein whose association with MT changed consistently in parallel with MT-associated phosphatidylinositol kinase activity. Furthermore, the fraction of the 85-kDa protein which was found associated with the MT complex contained 15 to 20% of its phosphate content on tyrosine. The 36and 63-kDa proteins complexed with both polyomavirus MT and ST and comigrated on two-dimensional gels with two simian virus 40 ST-associated proteins originally described by Rundell and coworkers (K. Rundell, E. 0.
Separation of simian virus 40 large-T-antigen-transforming and origin-binding functions from the ability to block differentiation.
Wild-type simian virus 40 large T antigen is very effective at blocking adipocyte differentiation in 3T3-F442A cells as assayed by triglyceride accumulation, induction of glycerophosphate dehydrogenase activity, and expression of mRNAs for glycerophosphate dehydrogenase, the adipocyte serine protease adipsin, and the putative lipid-binding protein adipocyte P2. Point mutants defective for either origin-specific DNA binding or transformation blocked differentiation as completely as wild type.A number of oncogenes and proto-oncogenes (for example, v-myc, c-myc, v-erbA, and those coding for simian virus 40 [SV40] and polyoma large T antigens) have been shown to interfere with differentiation (5,6,9,13,19,22,24,36), as well as to establish primary cells in culture and enhance transformation of primary cells when coexpressed with other genes (12, 15, 16, 26, 29, 31, 32, 34, 37-39, 41, 42). Little is known, however, about the mechanism(s) underlying these activities and whether these activities are mechanistically related.We are using preadipocytes derived from 3T3 cells (17, 18) to investigate the relationship between oncogene effects on differentiation and growth regulation. These cells are well suited for such studies because the early events of differentiation occur rapidly after cultures reach confluency (43), a variety of physiological markers may be used to monitor adipocyte differentiation (17, 44), several mRNAs induced specifically during adipocyte differentiation have been cloned (1,4,35,43) and certain aspects of the regulation of these genes have been explored (la, 4, 8, 10, 11, lla, 21, 30), and adipocyte differentiation is coupled with growth regulation (40), thus permitting analysis of oncogene effects on growth regulation and regulated differentiation in the same cells. In this work we demonstrate that the SV40 T-antigenmediated block of adipocyte differentiation is not dependent upon the T-antigen functions of origin-specific DNA binding and induction of transformation (focus formation, loss of anchorage, and density-dependent growth regulation).Retrovirus vectors for wild-type or point mutant SV40 T antigen. Wild-type or point mutant SV40 T antigen was expressed in 3T3-F442A (F442A) preadipocytes (18) by using the PZIPNeoSVXl (SVX) retroviral vector (3). The wild-type early region of SV40 (HindIII-BamHI; nucleotides 5171 to 2533) was inserted into the BamHI cloning site of SVX (Fig. 1), after subcloning through a polylinker, to generate a vector plasmid for expression of wild-type SV40 T antigen. Point mutations from SV40 plasmids Kl, dlO, and U24 (23,33) were introduced into the SVX plasmid containing the wild-type SV40 early region by exchanging the wild-type BstXI-BamHI fragment (Fig. 1)
Nerve growth factor is a potent inducer of proliferation and neuronal differentiation for adult rat chromaffin cells in vitro
Adult rat chromaffin cells in vitro show a large proliferative response to NGF, followed by neuronal differentiation. Infection of replicating chromaffin cells with a retrovirus carrying the Escherichia coli beta-galactosidase (beta-gal) gene demonstrates beta-gal expression in cells that continue to multiply, that differentiate into neurons, and that become static. The effects of NGF on proliferation and differentiation are abolished by the protein kinase inhibitors K252a and staurosporine, and by cholera toxin, an activator of adenylate cyclase. They are diminished, but not abolished, by high concentrations of dexamethasone. Both cholera toxin alone and phorbol myristate acetate (PMA), an activator of protein kinase C, elicit small and inconsistent mitogenic responses. The responses to PMA cannot be shown to be additive with the effects of NGF. NGF is a known mitogen and neuritogen for chromaffin cells from neonatal rats, but has not previously been believed to affect similarly chromaffin cells from adults. The present findings suggest that portions of NGF signaling pathways might continue to be involved in regulating proliferation of adult rat chromaffin cells in vivo, and might be constitutively activated in PC12 cells and other adrenal medullary tumors. They further suggest that rat chromaffin cells might be propagated in vitro to obtain large numbers of sympathetic neurons expressing normal or exogenous genes.
The retrovirus-mediated transfer of the herpes simplex virus-thymidine kinase (HSV-tk) gene into tumor cells renders them sensitive to the cytocidal effect of the antiviral drug ganciclovir. This method has shown promising results as a treatment for experimental brain tumors. These experiments indicate that a major mechanism for the effectiveness of HSV-tk retroviral gene therapy may be the bystander tumoricidal effect. The bystander effect was hypothesized to explain tumor eradication, given that the efficacy of in vivo gene transfer to tumor cells was less than 100%. We demonstrate, in this report, that the bystander tumoricidal effect is a major contributor to the tumoricidal effect of ganciclovir in cell culture experiments using the mouse K1735 C19 cerebral melanoma line, thereby expanding the observation of the bystander phenomenon to a broader range of tumor types. The bystander effect was studied in vitro by coculturing wild-type C19 melanoma cells with HSV-tk-expressing C19 (C19-STK) cells. A maximal tumoricidal effect was seen when only 1 in 10 tumor cells expressed the HSV-tk gene. This suggests that in effect, 1 tumor cell with the HSV-tk gene, when given ganciclovir, will destroy 10 neighboring or bystander cells. The destruction of bystander cells does not appear to be mediated by a soluble factor(s) released into the media but, rather, requires close cell proximity or cell contact. In addition, HSV-tk-expressing C19 cells can exert an antitumoral effect not only on wild-type C19 cells but also on cells from a variety of different tumor cell lines, including a human glioblastoma multiforme cell line, indicating that the bystander effect is not a cell line-specific phenomenon. Finally, we observed that the bystander tumoricidal effect could be harnessed directly without using retrovirus-producing cells to increase survival in the mouse C19 brain tumor model. The potential implications of our findings in treating human brain tumors are discussed.
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