Morphologic and phenotypic changes of human neuroblastoma cells in culture induced by cytosine arabinoside

The effects of cytosine-arabinoside (ARA-C) on the growth and phenotypic expression of a new human neuroblastoma (NB) cell line (GI-ME-N) have been extensively tested. Low doses of ARA-C allowing more than 90% cell viability induce morphological differentiation and growth inhibition. Differentiated cells were larger and flattened with elongated dendritic processes; such cells appeared within 48 h after a dose of ARA-C as low as 0.1 micrograms/ml (about 1000-fold lower than the conventional clinic dose). The new morphological aspect reached the maximum expression after 5-6 days of culture being independent from the addition of extra drug to the culture. A decrease in [3H]thymidine incorporation was also observed within 24 h and the cell growth was completely inhibited on the sixth day. Moreover, ARA-C strongly inhibited anchorage-independent growth in soft agar assay. Membrane immunofluorescence showed several dramatic changes in NB-specific antigen expression after 5 days of treatment with ARA-C. At the same time ARA-C also modulated cytoskeletal proteins and slightly increased catecholamine expression. These findings suggest that noncytotoxic doses of ARA-C do promote the differentiation of GI-ME-N neuroblastoma cells associated with reduced expression of the malignant phenotype.     

Retinoic acid evoked-differentiation of neuroblastoma cells predominates over growth factor stimulation: an automated image capture and quantitation approach to neuritogenesis.

To facilitate the characterization of compounds that have positive growth factor mimetic effects on neuritogenesis, we have implemented a high-throughput functional assay which measures, in a multiparametric manner, the proliferation and differentiation characteristics of cells in a microtiter plate. Conditions were established using chronic incubation of SH-SY5Y human neuroblastoma cells with retinoic acid (RA) and/or nerve growth factor (NGF) in which discernible alterations in proliferation, growth, and differentiation of cells were induced. SH-SY5Y cells were fixed and labeled by immunocytochemistry, and an automated image acquisition and analysis package on Cellomics ArrayScanII was utilized to quantify the effects of these treatments on cell characteristics. NGF and retinoic acid were found to increase multiple parameters of SH-SY5Y differentiation, including an increased proportion of cells having neurites and increased extent of branching. However, marked differences in the effects of these compounds on SH-SY5Y growth and differentiation were also detected: whereas NGF increased cell number, RA treatment decreased cell number, and RA but not NGF caused significant elongation of neurites. This study quantifies and characterizes the effects of differentiating and proliferating agents on a human-derived neuroblastoma cell line. The high-content, rapid-throughput nature of this assay makes it ideal for functional identification and characterization of compounds regulating cell behavior.     

Retinoic acid treatment of human neuroblastoma cells is associated with decreased N-myc expression

Cells from human neuroectodermal tumors (retinoblastoma and neuroblastoma) and from neuroblastoma cell lines express a gene, N-myc, which is frequently amplified in these tumors. We report here that N-myc mRNA content is markedly decreased in cells of a neuroblastoma cell line (LA-N-5) following differentiation induced with retinoic acid. Exposure of the cells to retinoic acid induced morphologic changes consistent with neuronal differentiation, and led to a 75% decrease in expression of N-myc mRNA. These results suggest that N-myc expression is intimately related to an undifferentiated phenotype in neuroblastoma cells, and support other studies which relate N-myc expression to the malignant phenotype in neuroblastoma tumors.     

Signals transduced via insulin-like growth factor I receptor (IGF(R)) mediate resistance to retinoic acid-induced cell growth arrest in a human neuroblastoma cell line

Retinoic Acid (RA) has been shown to control growth and induce differentiation in a number of human neuroblastoma (NB) cell lines. However, a number of NB cell lines may be termed resistant to RA as they fail to growth arrest and differentiate. In studying the mechanism mediating RA-resistance, we noted that invariably RA-resistant NB cell lines constitutively express Insulin-like Growth Factor 2 (IGF2) (Gaetano, 1991b). The NB cell line LAN-1-15N (15N) represented an interesting model in which to study the development of RA-resistance as initially 15N cells are growth arrested by RA, however with prolonged culture (8-10 days) cells begin to proliferate. Coincidentally, RA induces IGF2 mRNA and protein secretion in 15N NB cells (Matsumoto, 1992). In this study we isolated RA-resistant 15N cell lines and analyzed their growth properties and changes in cell cycle related (cdc2, cdk2, cyclins A, B, D and E) and early response (fos and jun) gene expression to evaluate the role IGF2 may play in mediating RA resistance. We found that exogenous IGF2 stimulates growth in 15N and is capable of altering RA induced inhibition of NB cell growth. Finally we show that by blocking the Insulin-like Growth Factor Receptor (IGF1(R)) with a monoclonal antibody (alpha-IR3) in the presence of RA the growth of RAR cell lines could be completely blocked. These data are consistent with the concept that signals by IGF2 and transduced via the IGF1(R) can mediate resistance to the growth inhibiting properties of RA.     

Retinoic acid negatively regulates p34cdc2 expression during human neuroblastoma differentiation.

p34cdc2 is a protein kinase that has an important role in controlling cell cycle progression and may regulate tumor suppressor gene activity. In this work, we show that the arrest of cell growth and induction of differentiation in a tumorigenic neuroblastoma cell line by retinoic acid (RA) is associated with a 75-fold decrease in the level of p34cdc2 protein. The RA induced decrease in p34cdc2 levels does not simply reflect the arrest of cell growth, because p34cdc2 levels are not reduced when neuroblastoma cells are growth arrested by nutrient deprivation. Furthermore, dephosphorylation of the tumor suppressor gene product RB, a substrate for the p34cdc2 kinase activity, is observed only when p34cdc2 levels are decreased in RA treated cells. These studies link regulation of cdc2 level, RB phosphorylation state, and induction of differentiation by RA and suggest that alterations in the cdc2 gene or in genes controlling its regulation contribute to tumorigenesis.     

In vitro inhibition of hemopoietic cell line growth by hepatitis B virus.

The effects of hepatitis B virus (HBV) on established human cell lines of various tissue origins were evaluated by clonal or colorimetric assays in methylcellulose culture. HBV exposure inhibited the growth of six hemopoietic cell lines, while similar incubation did not affect the growth of seven nonhemopoietic carcinoma cell lines of breast, colon, liver, and stomach origin. The inhibition of hemopoietic cell line colony formation was dependent on the presence of intact viral (Dane) particles and the ratio of exposure of virions to cells and was reversible with antibodies to pre-S1, pre-S2, and S envelope protein epitopes. Purified HBV DNA, surface antigen pre-S antigens, and core antigen did not inhibit cell line growth. These results further demonstrate the tropism of HBV for cells of hemopoietic origin, confirming our previous findings on the effects of HBV on the growth of normal bone marrow progenitor cells in vitro. Established human tissue culture cell lines may be used to study the interactions of hemopoietic cells with HBV.     

Effects of 5-bromo-2′-deoxyuridine on arachidonic acid metabolism of neuroblastoma and leukemia cells in culture: A possible role of endogenous prostaglandins in tumor cell proliferation and differentiation

Effects of 5-bromo-2′-deoxyuridine (BrdU) were studied on two neuroblastoma and two leukemia cell lines, in terms of the relationship between prostaglandin (PG) synthesis and cell growth/differentiation. After treatment with BrdU (5 μg/ml), cell growth of the 4 cell lines was inhibited and one neuroblastoma cell line (GOTO) showed flattened morphology with positive S-100 protein, one of the differentiation markers for Schwann or glial cells. In the 4 cell lines, BrdU treatment reduced [1-¹⁴C]-arachidonic acid incorporation into phosphatidylinositol and phosphatidylethanolamine and was associated with an increase into phosphatidylcholine and triglyceride. BrdU treatment also increased fractions of 6-keto-PGF_1α and PGF_2α , with a decreased TXB₂ fraction. The decreased ratio of TXB₂ /6-keto-PGF_1α or increased 6-keto-PGF_1α fraction correlated significantly with cell growth inhibition, suggesting that the changes in the balance of endogenous PGs might be associated with BrdU-induced cell growth inhibition with or without differentiation of neuroblastoma and leukemia cells in culture.     

Effects of NGF on acetylcholine, acetyl-CoA metabolism, and viability of differentiated and non-differentiated cholinergic neuroblastoma cells

Nerve growth factor (NGF) is a peptide displaying multiple cholinotropic activities. The aim of this work was to explain mechanisms of the positive and negative effects of NGF on phenotypic properties and viability of cholinergic cells. To discriminate these effects we used two p75NTR receptor-positive lines of cholinergic neuroblastoma cells, SN56 and T17 that are devoid of or express high affinity NGF (TrkA) receptors, respectively. cAMP and retinoic acid caused differentiation of both cell lines. In addition to the morphologic maturation, the increase of choline acetyltransferase activity, acetylcholine, Ca and cytoplasmic acetyl-CoA levels and decrease of mitochondrial acetyl-CoA and cell viability were observed. NGF caused similar effects in non-differentiated T17 cells but had no influence on non-differentiated SN56 cells. On the contrary, in both cAMP/all-trans-retinoic acid (RA) differentiated cell lines, NGF resulted in a similar suppression of cholinergic phenotype along with an increase of mitochondrial acetyl-CoA and cell susceptibility to nitric oxide and amyloid-beta25-35. These effects of NGF were prevented by an antibody against the p75NTR receptor. Data indicate that: (i) positive cholinotrophic effects of NGF required activation of both TrkA and p75NTR receptors; (ii) cAMP/RA-evoked differentiation inhibited NGF effects mediated by TrkA receptors and activated its p75NTR-dependent suppressing influences and (iii) a differentiation-evoked decrease of mitochondrial acetyl-CoA and an elevation of mitochondrial Ca could augment impairment of cholinergic neurons by neurotoxic signals.     

Effects of γ-interferon on the growth, morphology, and membrane and cytoskeletal proteins expression of LAN-1 cells

The effects of gamma-interferon (gamma-IFN) on the growth, morphology, and phenotypic expression of the human neuroblastoma (NB) cell line, LAN-1, have been extensively tested. Low doses of gamma-IFN allowing more than 90% cell viability induce morphological differentiation and growth inhibition. Cells exposed to gamma-IFN significantly decreased their growth rate, became smaller and poligonal, and sprouted long cellular processes with varicosities along their course, typical of the neurites seen in differentiated NB cells; morphological changes appeared within 48 h of culture with 1,000 U/ml gamma-IFN. The new morphological aspect reached the maximum expression after 6 days of culture, becoming more evident when fresh drug was added after 2 days of culture. A decrease in [3H]thymidine incorporation was also observed within 24 h; cell growth was completely inhibited at the 6th day. Membrane immunofluorescence showed several changes in NB-specific antigen expression after 6 days of treatment with gamma-IFN. At the same time gamma-IFN also modulated cytoskeletal proteins. These findings suggest that noncytotoxic doses of gamma-IFN do promote the differentiation of LAN-1 neuroblastoma cells which is associated with the reduced expression of the malignant phenotype.     

Evaluation of the chemopreventive potential of retinoids using a novel in vitro human prostate carcinogenesis model

The prevalence of prostatic intraepithelial neoplasia (PIN) and latent prostatic carcinoma, representing multiple steps in carcinogenesis and progression to invasive carcinoma, makes them relevant targets for prevention. A unique family of human prostate epithelial cell lines, which mimic steps in prostate carcinogenesis and progression, were used to evaluate the chemopreventive potential of all-trans-retinoic acid (RA) and N-(4-hydroxyphenyl)retinamide (4-HPR). The effects of RA and 4-HPR on anchorage-dependent growth of an immortalized, non-tumorigenic cell line RWPE-1 and two tumorigenic cell lines, WPE1-NB14 and WPE1-NB11, derived from RWPE-1 by exposure to N-methyl-N-nitrosourea (MNU), were examined. Both tumorigenic cell lines grow more rapidly than the parent RWPE-1 cell line in monolayer culture. Further, while RWPE-1 cells do not form colonies in agar, both tumorigenic cell lines do, with a colony forming efficiency (CFE) of 1.85 and 2.04% for WPE1-NB14 and WPE1-NB11 cells, respectively. Both RA and 4-HPR inhibited anchorage-dependent growth of all cell lines and anchorage-independent growth of WPE1-NB14 and WPE1-NB11 cells, in a dose-dependent manner, however, 10 times more RA than 4-HPR was required to produce the same effect. RWPE-1 cells are not invasive but WPE1-NB11 cells are significantly more invasive than WPE1-NB14 cells. Both RA and 4-HPR inhibited invasion in vitro by WPE1-NB11 and WPE1-NB14 cells where the more malignant WPE1-NB11 cells showed greater inhibition of invasion by 4-HPR than by RA. Overall, 4-HPR was more effective than RA in inhibiting growth and invasion but the response varied amongst the cell lines. These three cell lines mimic progressive steps in carcinogenesis and progression, from immortalized, non-tumorigenic RWPE-1 cells, to the less malignant WPE1-NB14 to the more malignant WPE1-NB11 cells, and provide powerful models for studies on secondary and tertiary prevention, i.e. promotion and progression stages, respectively, of prostate cancer.     

Phenotypic and molecular characterization of inducible human neuroblastoma cell lines

Two new neuroblastoma (NB) cell lines, NUB-6 and NUB-7, were established from recurrent and primary NB tumours respectively and identified conclusively as NB by their phenotypic characteristics, catecholamine production and N-myc amplification. The cell lines could be distinguished on the bases of distinctive growth patterns in monolayer culture and semi-solid media (collagen gel and agarose), neurite formation and their response to four classes of growth and differentiation modulators. The NUB-6 cell line consisted of two distinct cell subtypes, small typical neuroblasts and larger spheroid-forming cells, while NUB-7 was homogeneously neuroblastic. Class-I agents (dibutyrl cyclic AMP [dbcAMP], butyrate, and papaverine) inhibited growth of both cell lines, while only dbcAMP stimulated the formation of short neurites by NUB-6 neuroblast cells in monolayer culture and collagen. Of the class-II agents (vitamins), retinoic acid inhibited growth of both cell lines and stimulated formation of long neurites by NUB-6 cells and NUB-7 cells in later passages. In contrast, vitamin E inhibited growth of NUB-6 and late-passage NUB-7, but stimulated early passage NUB-7. The class III agent (nerve growth factor) resembled vitamin E. The class-IV agents (interferons; rIFN-alpha 2a and rIFN-gamma 1) inhibited growth of both cell lines in monolayer culture and agarose, but stimulated NUB-6 neuroblasts and early passage NUB-7 cells to form long neurites. Thus phenotypically distinct NB cell lines were established in vitro and shown to be differentially influenced by various growth and differentiation modulators. The potent effect of IFN suggests a role for these modulators in NB behaviour in vivo.     

Human melanoma-associated antigen expression on human neuroblastoma cells: Effects of differentiation inducers

Summary We have described two human melanoma-associated antigens (HMAA), recognized by the murine monoclonal antibodies LS62 and LS109. LS62 recognizes the neuroglandular antigen (NGA), which is overexpressed in neoplastic melanocytes as well as in several tissues of neuroectodermal origin. These antibodies were used to screen six neuroblastoma cell lines and one neuroepithelioma cell line. A melanoma cell line, G361, known to express the two antigens, was used as the positive control. Variable expression of the two antigens was detected in neuroblastoma cells. The surface expression of NGA and of the LS109 antigen was modulated in parallel with the morphological differentiation induced by retinoic acid, 5-bromodeoxyuridine, or cyclic AMP analog/activators. The modulation of the expression of the two HMAA was detected in G361 melanoma cells and in one of the neuroblastoma cell lines, SK-N-SH. These results suggest altered expression of both antigens during melanoma and neuroblastoma cell differentiation in culture.     

Histochemical demonstration of an increase in acetylcholinesterase in established lines of human and mouse neuroblastomas by nerve growth factor.

Cells of three established lines of human neuroblastoma and an established line of C1300 mouse neuroblastoma were grown in control medium or in experimental medium containing mouse nerve growth factor (NGF). Cultures were stained histochemically for acetylcholinesterase (AChE) during log growth and at confluency. Human neuroblastoma cells grown in medium containing NGF were morphologically more differentiated and they were stained much more intensely for AChE during both phases of growth than were cells in control cultures. The enzyme was distributed over cell bodies and neurites. Neuroblastoma cells of the mouse line were not stimulated to form neurites by NGF, but they were more intensely stained for acetylcholinesterase than cells grown in control medium. These observations support earlier findings that NGF stimulates differentiation of human and mouse neuroblastoma cells in vitro.     

Response of human rhabdomyosarcoma cell lines to retinoic acid: relationship with induction of differentiation and retinoic acid sensitivity

The ability of retinoids to induce growth inhibition associated with differentiation of diverse cell types makes them potent anti-cancer agents. We examined the effect of retinoic acid (RA) in cell lines derived from rhabdomyosarcoma (RMS), a malignant soft-tissue tumor committed to the myogenic lineage, but arrested prior to terminal differentiation. We showed that several RMS derived cell lines, including RD human rhabdomyosarcoma cells, are resistant to the growth-inhibitory and differentiation effects of RA. We established that this RA-resistance correlates with reduced expression and activity of RA-receptors in RD cells. We stably expressed either RARalpha, RARbeta, RARgamma, or RXRalpha expression vector into RD cells and found that only RARbeta or RARgamma induced a significant RA growth arrest without promoting differentiation indicating that changes in the amounts of RARs and RXRs are not sufficient to determine the RA myogenic response of rhabdomyosarcoma cells. Activation of RD cell differentiation by ectopic MRF4 expression enhanced RA-receptor activity and led to RA induction of differentiation. These studies demonstrate that RA-resistance of RD cells is linked to their lack of differentiation and suggest that the differentiation-promoting activity of RA requires factors other than RAR-RXR heterodimers.