Apoptosis is induced by N-myc expression in hepatocytes, a frequent event in hepadnavirus oncogenesis, and is blocked by insulin-like growth factor II

Induction of hepatocellular carcinoma in woodchucks by woodchuck hepatitis virus is associated with the activation of N-myc gene expression, usually by viral DNA integration in cis to the N-myc locus. We have examined the consequences of N-myc up-regulation in rodent hepatic cells in culture. Mouse alpha ML hepatocytes infected with a retroviral vector overexpressing the woodchuck N-myc2 gene display a higher proliferation rate than parental alpha ML cells but are morphologically unchanged and do not form colonies in soft agar. However, they display an increased propensity to undergo apoptosis, an effect that is markedly augmented by serum deprivation. Expression of the woodchuck hepatitis virus X gene in alpha ML cells does not alter the growth phenotype of the cells and has no effect upon N-myc-dependent apoptosis. However, apoptosis in N-myc2-expressing alpha ML cells is strongly inhibited by insulin-like growth factor II (IGF II). IGF II gene expression is also strongly up-regulated during hepatic carcinogenesis in vivo in virally infected animals and has been speculated to be part of an autocrine growth-stimulatory pathway. Our results suggest that IGF II may play another role in the development of virus-induced hepatoma: the prevention of programmed cell death triggered by deregulated N-myc expression.     

Woodchuck hepatitis virus enhancer I and enhancer II are both involved in N-myc2 activation in woodchuck liver tumors

Direct activation of the N-myc2 oncogene by insertion of woodchuck hepatitis virus (WHV) DNA is a major oncogenic step in woodchuck hepatocarcinogenesis. We previously reported that WHV enhancer II (We2), which controls expression of the core/pregenome RNA, can also activate the N-myc2 promoter in hepatoma cell lines. To better define the integrated WHV regulatory sequences responsible for N-myc2 promoter activation in woodchuck liver tumors, we analyzed the structure and enhancer activity of a single viral integrant found at the win locus in tumor 2260T1 and mapping approximately 175 kb 3' of N-myc2. This viral insert was made of 11 concatemerized WHV fragments, 5 of which overlapped with We2 sequences and 1 with WHV sequence homologous to that of hepatitis B virus enhancer I (We1). In transient transfection assays in hepatoma-derived cells, the We2 activator was found to be fully effective only when inserted in close proximity to the N-myc2 promoter whereas the We1 element by itself was apparently devoid of activity. In contrast, the 2260T1 viral insert exhibited a potent enhancer capacity that depended both on multimerized We2 and on We1 sequences. In a survey of different woodchuck hepatomas, both elements were commonly found within integrated viral sequences involved in long-range N-myc2 activation.     

Involvement of the pineal gland in daily scheduling of the golden spiny mouse

The influence of bcl-2 oncogene expression on etoposide-induced apoptosis and clonogenic survival was investigated in five small cell lung cancer (SCLC) cell lines, three of which were bcl-2-expressing and two of which were non-bcl-2-expressing. The bcl-2-expressing lines displayed a lower apoptosis propensity than the non-bcl-2-expressing lines. When bcl-2-expressing cells were incubated in cystine/ methionine-free (CMF) medium, etoposide-induced apoptosis was restored to levels comparable to those seen in non-bcl-2-expressing lines. However, the endpoint of clonogenic survival after drug treatment did not display any consistent pattern that correlated with bcl-2 status. In addition, treatment of the two bcl-2-expressing cell lines with etoposide in CMF medium did not modify their clonogenic survival curves compared to treatment in regular medium. These results are consistent with the idea that bcl-2 expression modulates etoposide-induced apoptosis but not clonogenic survival.     

Clonal extinction of myelomonocytic leukemic cells by serum from mice injected with endotoxin

Culture of WEHI-3B myelomonocytic leukemic cells in semi-solid agar medium containing post-endotoxin serum led to the development of maturing granulocytes and macrophages in most leukemic colonies. Colony size was consistently increased but the colony content of colony-forming cells (stem-cell self-replication) was markedly reduced. Serial recloning of WEHI-3B colony cells in the continuous presence of post-endotoxin serum led to clonal extinction of the leukemic cells in five of seven experiments. These effects of post-endotoxin serum on WEHI-3B cells were not seen in clonal cultures of 10 other tumor lines. Serum with the capacity to induce differentiation in WEHI-3B cells could be induced by the injection of as little as 0.1 microgram endotoxin and by purified bacterial cell-wall preparations. Serum activity reached peak levels 3 - 6 h after endotoxin injection and returned to preinjection levels within 48 h.     

Antigenic phenotypes common to rat oval cells, primary hepatocellular carcinomas and developing bile ducts

The shared expression of monoclonal antibody-defined antigens by oval cells and by bile ducts, neoplastic nodules and primary hepatocellular carcinomas (PHC) has provided support for the ability of oval cells to undergo differentiation along ductular or hepatocyte lineages and/or to progress to hepatocellular carcinoma. With the aim of obtaining additional insight into this process, we have combined serial section and double labeling immunofluorescence analysis to determine if phenotypes expressed in vitro by four rat oval cell lines and the H5D.61 hepatocellular carcinoma cell line and in situ by ethionine-induced primary hepatocellular carcinomas reproduce antigenic patterns occurring during normal liver development. Analysis using monoclonal antibodies specific for the oval cell antigens OV6 and OC.2 and hepatocyte markers HBD.1 and H.4 defined subpopulations in four oval cell lines and neoplastic hepatocytes in PHC and H5D.61 with OC.2-/OV6+ and OC.2+/OV6+ phenotypes. Cells with an OC2+/OV6- phenotype were rarely observed in cell lines or primary tumors. In contrast, areas composed of OV6+/H.4+ cells were frequently found in PHC. Examination of fetal and neonatal rat livers demonstrated the stage-specific appearance of three of these phenotypes during liver development. The OC.2+/OV6- phenotype appeared transiently prior to embryonic day (ED) 18 in a subpopulation of HBD.1+ hepatoblasts. OV6 expression was first detected at ED18 on developing bile ducts that were negative for OC.2. These newly formed ducts rapidly acquired OC.2, starting with ducts in the hilar region and spreading outward towards the periphery. This OC.2 expression gradient persisted in the newborn rat liver but became more skewed towards doubly positive cells, with OC.2-/OV6+ cells being found primarily in the periphery. Hepatocytes expressing both OV6 and H.4 were not observed in fetal liver but appeared in neonatal liver in close proximity to OV6+ interlobular ducts. From these findings, it was concluded that oval cells and PHC display phenotypes representing normal stages in liver development, suggesting that oval cells and cells within ethionine-induced PHC are capable of initiating but are unable to complete pathways of hepatocytic or biliary differentiation.     

IGFBP-2 expression in a human cell line is associated with increased IGFBP-3 proteolysis, decreased IGFBP-1 expression and increased tumorigenicity

Insulin-like growth factors (IGF-I and -II) play an active role in cell proliferation. In biological fluids, they are non-covalently bound to high-affinity binding proteins (IGFBPs), at least 6 species of which have been identified to date, but with poorly defined functions. One of these IGFBPs, IGFBP-2, is secreted by most cell lines and appears to be involved in cell proliferation. A human epidermoid carcinoma cell line, KB 3.1, which produces IGFBP-1 and -3 and small amounts of IGFBP-4, but no IGFBP-2, was stably transfected with an expression vector comprising IGFBP-2 complementary DNA (cDNA), whose expression was placed under the control of the constitutive and ubiquitous cytomegalovirus promoter. After an s.c. injection of these IGFBP-2-expressing KB 3.1 cells into nude mice, tumours developed more quickly than in controls, they were 3 to 4 times larger and grew about 3 times as fast. Concomitant with IGFBP-2 expression in these tumours, were a decrease in IGFBP-1 expression and an increase in IGFBP-3 proteolysis, both of which increase the bioavailability of the IGF-II produced by the cells. The increased IGFBP-3 proteolysis most probably resulted from amplified expression of tissue-type plasminogen activator (t-PA) and depression of its inhibitor (PAI-I) observed in IGFBP-2-expressing xenografts. Our findings suggest that IGFBP-2 plays a role in this model of experimental tumorigenesis via a mechanism that remains unclear, but appears to involve increased protease activity and IGF-II bioavailability.     

Insulin-like growth factor I receptor prevents apoptosis and enhances neuroblastoma tumorigenesis

Autocrine stimulation of the type I insulin-like growth factor receptor (IGF-IR) by IGF-II is one mechanism that allows cancer cells to maintain unregulated growth and to resist programmed cell death (PCD). SH-SY5Y and SHEP cells are cloned human neuroblastoma (NBL) lines originating from a single primary tumor. SH-SY5Y cells, which express abundant cell surface IGF-IR and produce IGF-II, exhibit serum independent growth and resist PCD due to hypoxia and hyperosmolar conditions. In contrast, SHEP cells, which produce no IGF-II and express five-fold fewer IGF-IRs, die in serum-free media or following exposure to metabolic stressors. To better understand the roles of IGF-IR and its ligand, IGF-II, in NBL carcinogenesis, we stably transfected SHEP cells with either IGF-II or IGF-IR. Unregulated expression of IGF-II did not alter the growth characteristics of SHEP/human IGF-II transfectants. In contrast, overexpression of IGF-IR allowed SHEP/IGF-IR transfectants to survive in media supplemented only by IGF-II. IGF-IR abundance correlated in a graded fashion with resistance to PCD in response to three different death-inducing paradigms: mitogen withdrawal, hyperosmolar metabolic stress, and treatment with etoposide. Our results suggest that adjuvant therapy aimed at reducing IGF-IR abundance may enhance chemotherapy-coupled apoptosis in the treatment of NBL.     

BCL-2 blocks perforin-induced nuclear translocation of granzymes concomitant with protection against the nuclear events of apoptosis

Cytolytic granule-mediated target cell killing is effected in part through the synergistic action of the membrane-acting protein perforin and serine proteases such as granzymes (Gr) A and B. In this study, we examine the subcellular distribution of granzymes in the presence of perforin and the induction of apoptosis in mouse FDC-P1 myeloid and YAC-1 lymphoma cells that express the proto-oncogene bcl2. Using confocal laser scanning microscopy to visualize and quantitate subcellular transport of fluoresceinated granzyme, we find that granzyme entry into the cytoplasm in the absence of perforin is not impaired in the bcl2-expressing lines. However, perforin-dependent enhancement of granzyme cellular uptake and, importantly, granzyme redistribution to the nucleus were strongly inhibited in the bcl2-expressing lines, concomitant with greatly increased resistance to granzyme/perforin-induced cell death. DNA fragmentation induced by granzyme/perforin was severely reduced in the bcl2-expressing lines, implying that prevention of granzyme nuclear translocation blocks the nuclear events of apoptosis. The kinetics of GrB nuclear uptake and induction of apoptosis were faster than for GrA, whereas YAC-1 cells showed greater resistance to granzyme nuclear uptake and apoptosis than FDC-P1 cells. In all cases, granzyme nuclear accumulation in the presence of perforin correlated precisely with ensuing apoptosis. All results supported the idea that GrA and GrB share a common, specific nuclear targeting pathway that contributes significantly to the nuclear changes of apoptosis.     

Cytosine arabinoside induces apoptosis in cerebellar neurons in culture

Cytosine arabinoside (AraC) is a pyrimidine antimetabolite that prevents cell proliferation by inhibiting DNA synthesis. We report that AraC kills cultured cerebellar neurons in a concentration-dependent fashion with an EC50 of approximately 60 microM when added shortly after seeding. This cell death has apoptotic features because we observed (1) morphology of apoptotic nuclei as judged by DNA staining with Hoechst 33258, (2) DNA fragmentation with typical ladder pattern on agarose gel, (3) positive nuclear labeling with a specific in situ DNA fragmentation staining, (4) prevention by deoxycytidine (IC50 = 1 microM), protein, and RNA synthesis inhibitors, and (5) release of DNA fragments in the incubating medium. We have also observed that several proteins were overexpressed in AraC-treated neurons by two-dimensional polyacrylamide gel electrophoresis. We conclude that AraC induces a signal that triggers a cascade of new mRNA and protein synthesis, leading to apoptotic cell death in cultured cerebellar granule cells.     

Factors required for bone marrow stromal fibroblast colony formation in vitro

Marrow stromal fibroblasts (MSFs) are essential for the formation of the haemopoietic microenvironment and bone; however, regulation of MSF proliferation is poorly understood. MSF colony formation was studied in primary mouse and human marrow cell cultures. After a brief exposure to serum, MSF colony formation occurred in the absence of both serum and non-adherent marrow cells, if medium conditioned by marrow cells was present (serum-free conditioned medium, SF-CM). In mouse and human cultures stimulated to proliferate by SF-CM, neutralizing antibodies against PDGF, TGF-beta, bFGF and EGF specifically suppressed MSF colony formation. The degree of supression was species-dependent, with the most profound inhibition achieved in mouse cultures by anti-PDGF, anti-bFGF and anti-EGF, and in human cultures by anti-PDGF and anti-TGF-beta. Serum-free medium not conditioned by marrow cells (SFM) did not support MSF colony formation. In mouse cultures in SFM, human recombinant bFGF and bovine natural bFGF were able to partially substitute for the stimulating effect of SF-CM. Other growth factors, including TGF-beta1, TGF-beta2, PDGF, EGF, IL-6, IGF-I and IGF-II, showed no activity when tested alone. In human cultures in SFM, none of the growth factors, alone or in combination, stimulated MSF colony formation. Mouse and human MSFs grown in SF-CM formed bone and a haemopoietic microenvironment when transplantated into immunodeficient mice in vivo, and therefore were functionally equivalent to MSFs generated in the presence of serum. These data indicate that stimulation of the initial proliferation of an MSF precursor cell is complex, and requires participation of at least four growth factors: PDGF, bFGF, TGF-beta and EGF. In addition, mouse and human MSF precursor cells have different requirements for each of the growth factors.     

Enhanced expression of the insulin receptor substrate-2 docking protein in human pancreatic cancer

Insulin receptor substrate-2 (IRS-2) is a multisite docking protein implicated in mitogenic signaling after activation of the insulin and insulin-like growth factor (IGF)-I receptors. In the present study, we characterized IRS-2 expression and function in human pancreatic cancer. IRS-2 mRNA and protein were expressed in ASPC-1 and COLO-357 human pancreatic cancer cell lines. Insulin, IGF-I, and IGF-II enhanced the growth of both cell lines, stimulated tyrosine phosphorylation of IRS-2, and increased IRS-2-associated phosphatidylinositol (PI) 3-kinase activity. The mitogenic effects of insulin, IGF-I, and IGF-II were markedly attenuated by the PI 3-kinase inhibitor LY 294002. Northern blot analysis of total RNA extracted from normal and cancerous tissues revealed that IRS-2 mRNA levels were increased in the cancer tissues (P = 0.032). In the normal pancreas, IRS-2 immunoreactivity was present at low levels in some ductal and acinar cells and at moderate levels in a heterogeneous pattern in all of the endocrine islets. In the pancreatic cancers, IRS-2 was abundant in the ductal-like cancer cells. These findings indicate that IRS-2 is overexpressed in human pancreatic cancer and suggest that it may contribute to enhanced mitogenic signaling via the PI 3-kinase pathway, thereby leading to excessive growth stimulation in this malignancy.     

Human Bcl-2 expression delays ultraviolet-induced apoptosis in marsupial cells

We have introduced the human bcl-2 gene under the control of the human metallothionein MTIIA promoter into the rat kangaroo PtK2 cell line. Two independent clones were obtained in which the levels of Bcl-2 protein expression can be controlled by the addition of metals in the culture medium. These cell lines were employed to investigate the effects of this protein in UV-induced apoptosis. Overexpression of Bcl-2 in PtK2 cells resulted in a delay in the appearance of apoptosis markers, such as chromatin condensation and internucleosomal DNA fragmentation. However, colony survival after UV was not affected, suggesting that Bcl-2 did not impose a definitive block for cell death. The elimination of cyclobutane pyrimidine dimers through photoreactivation 24 h after irradiation in cells overexpressing Bcl-2 did not affect apoptosis. This indicates that irreversible events in the signaling pathway of apoptosis occur in the period between irradiation and photoreactivation even in the presence of high levels of Bcl-2 protein can delay the onset of UV-induced apoptosis in these marsupial cells, early events triggered by the pyrimidine dimers, upstream from the Bcl-2 action, lead the cell to a state committed to die.     

Insulin-like growth factor II and PAX3-FKHR cooperate in the oncogenesis of rhabdomyosarcoma

The mouse myoblast C2C12 cell line transfected singly with cDNA for Pax-3, PAX3-FKHR, or insulin-like growth factor (IGF) II or cotransfected with IGF-II plus Pax-3 or with IGF-II plus PAX3-FKHR genes showed an altered morphology, a lack of differentiation, and higher proliferation rates in vitro. On s.c. injection into nude mice, tumors grew from transfected cell lines but not from cells transfected with the empty vector. Tumors derived from IGF-II/PAX3-FKHR- and IGF-II-transfected cells grew most rapidly. Cotransfection of IGF-II plus Pax-3 induced tumors comprised highly differentiated striated muscle cells; Pax-3, PAX3-FKHR, or IGF-II transfection produced tumors at varying stages of differentiation. Tumors derived from IGF-II plus PAX3-FKHR-cotransfected cells were composed of undifferentiated cells. This was the only tumor type to infiltrate the underlying muscle. The most angiogenesis and the least apoptosis were observed in the latter tumors. These results support the hypothesis that PAX3-FKHR interacts with IGF-II to play a critical role in the oncogenesis of rhabdomyosarcoma.     

Oxidative stress and cytotoxicity induced by ferric-nitrilotriacetate in HepG2 cells that express cytochrome P450 2E1

Iron can potentiate the toxicity of ethanol. Ethanol increases the content of cytochrome P450 2E1 (CYP2E1), which generates reactive oxygen species, and transition metals such as iron are powerful catalysts of hydroxyl radical formation and lipid peroxidation. Experiments were carried out to attempt to link CYP2E1, iron, and oxidative stress as a potential mechanism by which iron increases ethanol toxicity. The addition of ferric-nitrilotriacetate (Fe-NTA) to a HepG2 cell line expressing CYP2E1 decreased cell viability, whereas little effect was observed in control cells not expressing CYP2E1. Toxicity in the CYP2E1-expressing cells was markedly enhanced after the depletion of glutathione. Lipid peroxidation was increased by Fe-NTA, especially in cell extracts and medium from the CYP2E1-expressing cells. Toxicity was completely prevented by vitamin E or by 6-hydroxy-2,5,7,8-tetramethylchroman-2-carboxylic acid, which also decreased the lipid peroxidation. Levels of ATP were lowered by Fe-NTA, and this was associated with a decreased rate of oxygen consumption by permeabilized cells with substrates donating electrons to complexes I, II, and IV of the respiratory chain. This mitochondrial damage was prevented by vitamin E. Toxicity was accompanied by DNA fragmentation, and this fragmentation was prevented by antioxidants. Overexpression of bcl-2 decreased the toxicity and DNA fragmentation produced by the combination of CYP2E1 plus Fe-NTA, as did a peptide inhibitor of caspase 3. These results suggest that elevated generation of reactive oxygen species in HepG2 cells expressing CYP2E1 leads to lipid peroxidation in the presence of iron, and the ensuing prooxidative state damages mitochondria, releasing factors that activate caspase 3, leading to a loss in cell viability and DNA fragmentation.     

Elevated total cholesterol in bulimia nervosa

c-erbB-2, a member of the tyrosine kinase oncogene family, is overexpressed in about 30% of human breast tumors where it correlates with poor prognosis. In vitro studies have suggested that increased expression of the receptor plays an important role in malignant progression. To better understand the direct effects of p185HER2 overexpression, a human c-erbB-2 expression vector was transfected into the hormone-dependent MCF-7 human breast carcinoma cell line and cell growth was analysed. Unexpectedly, colony formation assay revealed a reduction in the number and size of colonies as compared with mock-transfected cells. In hormone-deprived medium, c-erbB-2 transfected cells acquired growth capability, consistent with previous reports. By contrast, two c-erbB-2-transfected clones grown in complete medium showed a reduced proliferation rate despite the activation of a fully functional oncoprotein capable of autophosphorylation and induction of the MAPK pathway. The number of c-erbB-2-overexpressing cells in the S phase of the cell cycle was about one-half the number of control and mock-transfected cells. Also, overexpression of c-erbB-2 induced overexpression of p21WAF1, pRB hypophosphorylation and a mature differentiated cell phenotype with production of lipid droplets. Functional inactivation of p185HER2 by means of a specific single chain antibody indicated the c-erbB-2-dependence of the observed alterations. These data show that the exogenous overexpression of the c-erbB-2 gene in hormone-dependent breast cancer cells inhibits proliferation and induces differentiation.     

Liver carcinogenesis associated with feeding of ethionine in a choline-free diet: evidence against a role of oval cells in the emergence of hepatocellular carcinoma

In an attempt to clarify the role of oval cells in the emergence of hepatocellular carcinoma, we fed rats a choline-free diet containing 0%, 0.05% or 0.1% ethionine. The incidence and nature of premalignant and malignant hepatic lesions were then related to the degree of oval cell proliferation. Intake of choline-free diet alone for up to 12 mo was associated with minimal oval cell proliferation; cholangiofibrosis, hepatocellular nodules and hepatocellular carcinoma were observed in 55%, 23% and 14% of the animals, respectively. When rats were given the choline-free diet with 0.05% ethionine, proliferation of oval cells was more pronounced; after a 6- to 12 mo feeding period, cholangiofibrosis (57%) was again observed. However, hepatocellular nodules (91%) and hepatocellular carcinoma (74%) were the most common lesions seen with this feeding regimen. Finally, rats fed the choline-free diet with 0.1% ethionine had massive oval cell proliferation and progressive loss of parenchymal liver tissue. Most of these animals died before they had consumed the choline-free diet with 0.1% ethionine for 12 mo. Rats in this group (96%) exhibited large and numerous cholangiofibrotic lesions, but hepatocellular nodules and carcinoma were not detected. In all animals of each experimental group, hyperplastic bile duct cells in areas of cholangiofibrosis and oval cells were positive for cytokeratin 19, an intermediate filament protein present only in bile duct cells in normal liver. Hepatocellular nodules and hepatocellular carcinoma were invariably negative for cytokeratin 19. We interpret these findings to suggest that oval cells are not involved in the histogenesis of hepatocellular carcinoma.(ABSTRACT TRUNCATED AT 250 WORDS)