Potential use of the anti-inflammatory drug, sulfasalazine, for targeted therapy of pancreatic cancer.

Pancreatic cancer is an aggressive, drug-resistant disease; its first-line chemotherapeutic, gemcitabine, is only marginally effective. Intracellular depletion of glutathione, a major free-radical scavenger, has been associated with growth arrest and reduced drug resistance (chemosensitization) of cancer cells. In search of a new therapeutic approach for pancreatic cancer, we sought to determine whether specific inhibition of the plasma membrane x(c) (-) cystine transporter could lead to reduced uptake of cysteine, a key precursor of glutathione, and subsequent glutathione depletion. Sulfasalazine (approximately 0.2 mmol/L), an anti-inflammatory drug with potent x(c) (-)-inhibitory properties, markedly reduced l¹4C]-cystine uptake, glutathione levels, and growth and viability of human MIA PaCa-2 and PANC-1 pancreatic cancer cells in vitro. These effects were shown to result primarily from inhibition of cystine uptake mediated by the x(c) (-) cystine transporter and not from inhibition of nuclear factor kappaB activation, another property of sulfasalazine. The efficacy of gemcitabine could be markedly enhanced by combination therapy with sulfasalazine both in vitro and in immunodeficient mice carrying xenografts of the same cell lines. No major side effects were observed in vivo.The results of the present study suggest that the x(c) (-) transporter plays a major role in pancreatic cancer by sustaining or enhancing glutathione biosynthesis, and as such, represents a potential therapeutic target. Sulfasalazine, a relatively nontoxic drug approved by the U.S. Food and Drug Administration, may, in combination with gemcitabine, lead to more effective therapy of refractory pancreatic cancer.

The xc- cystine/glutamate antiporter: a mediator of pancreatic cancer growth with a role in drug resistance.

The x(c)(-) cystine transporter enhances biosynthesis of glutathione, a tripeptide thiol important in drug resistance and cellular defense against oxidative stress, by enabling cellular uptake of cystine, a rate-limiting precursor. Because it is known to regulate glutathione levels and growth of various cancer cell types, and is expressed in the pancreas, we postulate that it is involved in growth and drug resistance of pancreatic cancer. To examine this, we characterised expression of the x(c)(-) transporter in pancreatic cancer cell lines, MIA PaCa-2, PANC-1 and BxPC-3, as subjected to cystine-depletion and oxidative stress. The results indicate that these cell lines depend on x(c)(-)-mediated cystine uptake for growth, as well as survival in oxidative stress conditions, and can modulate x(c)(-) expression to accommodate growth needs. Immunohistochemical analysis showed that the transporter was differentially expressed in normal pancreatic tissues and overexpressed in pancreatic cancer tissues from two patients. Furthermore, gemcitabine resistance of cells was associated with elevated x(c)(-) expression and specific x(c)(-) inhibition by monosodium glutamate led to growth arrest. The results suggest that the x(c)(-) transporter by enhancing glutathione biosynthesis plays a major role in pancreatic cancer growth, therapy resistance and represents a potential therapeutic target for the disease.

Current and prospective applications of metal ion-protein binding.

Since immobilized metal ion affinity chromatography (IMAC) was first introduced, several variants of this method and many other metal affinity-based techniques have been devised. IMAC quickly established itself as a highly reliable purification procedure, showing rapid expansion in the number of preparative and analytical applications while not remaining confined to protein separation. It was soon applied to protein refolding (matrix-assisted refolding), evaluation of protein folding status, protein surface topography studies and biosensor development. In this review, applications in protein processing are described of IMAC as well as other metal affinity-based technologies.

Sulfasalazine, a potent suppressor of lymphoma growth by inhibition of the x(c)- cystine transporter: a new action for an old drug.

Although cyst(e)ine is nutritionally a non-essential amino acid, lymphoid cells cannot synthesize it, rendering their growth dependent on uptake of cyst(e)ine from their microenvironment. Accordingly, we previously suggested that the x(c)- plasma membrane cystine transporter provided a target for lymphoid cancer therapy. Its inhibition could lead to cyst(e)ine deficiency in lymphoma cells via reduction of both their cystine uptake and cysteine supply by somatic cells. In this study, using rat Nb2 lymphoma cultures, drugs were screened for growth arrest based on x(c)- inhibition. Sulfasalazine was fortuitously found to be a novel, potent inhibitor of the x(c)- transporter. It showed high rat lymphoma growth-inhibitory and lytic activity in vitro (IC50 = 0.16 mM), based specifically on inhibition of x(c)--mediated cystine uptake, in contrast to its colonic metabolites, sulfapyridine and 5-aminosalicylic acid. Sulfasalazine was even more effective against human non-Hodgkin's lymphoma (DoHH2) cultures. In rats (n = 13), sulfasalazine (i.p.) markedly inhibited growth of well-developed, rapidly growing rat Nb2 lymphoma transplants without apparent side-effects. Reduced, macrophage-mediated supply of cysteine was probably involved. In five rats, 90-100% tumor growth suppression, relative to controls, was obtained. The x(c)- cystine transporter represents a novel target for sulfasalazine-like drugs with high potential for application in therapy of lymphoblastic and other malignancies dependent on extracellular cyst(e)ine.

Ni(II)-based immobilized metal ion affinity chromatography of recombinant human prolactin from periplasmic Escherichia coli extracts.

A novel, two-step preparative technique is described for the purification of authentic recombinant human prolactin (rhPRL) secreted into the periplasm of transformed Escherichia coli cells. The first step is based on immobilized metal ion affinity chromatography of periplasmic extract, using Ni(II) as a relatively specific ligand for hPRL in this system. It gives superior resolution and yield than established ion-exchange chromatography. Size-exclusion chromatography is used for further purification to >99.5% purity. The methodology is reproducible, leading to 77% recovery. Identity and purity of the rhPRL were demonstrated using sodium dodecylsulphate-polyacrylamide electrophoresis, isoelectric focusing, mass spectrometry (matrix-assisted laser desorption ionization time-of-flight), radioimmunoassay, RP-HPLC and high-performance size-exclusion chromatography. In the Nb2 bioassay, the hormone showed a bioactivity of 40.9 IU/mg.

Proteolysis of heat shock transcription factor is associated with apoptosis in rat Nb2 lymphoma cells.

Previously, we reported that prolactin (PRL)-dependent Nb2 lymphoma cells exhibit an aberrant heat shock response because of cysteine protease-mediated fragmentation of the heat shock transcription factor (HSF). Moreover, exposure of the cells to PRL abrogated heat-induced HSF proteolysis. The present study was conducted to investigate whether HSF proteolysis is a component of the apoptotic process in this model. Initially, the effect of heat stress (41 degrees C for 1 h) on apoptosis, determined by agarose gel electrophoresis and flow cytometric analysis, was evaluated in PRL-dependent Nb2-11 cells and in an autonomous subline (Nb2-SFJCD1). Heat was found to induce HSF proteolysis concomitant with activation of apoptosis in each cell line; treatment with PRL blocked these effects. To determine whether HSF proteolysis occurred as a generalized phenomenon associated with apoptosis, the effects of other activators of this process were evaluated. Vinblastine, cycloheximide, and thapsigargin stimulated fragmentation of HSF and hydrolysis of DNA in each cell line. The addition of PRL blocked the effects of vinblastine but was ineffective in cells treated with either cycloheximide or thapsigargin. Iodoacetamide, a cysteine protease inhibitor that blocks HSF fragmentation, also inhibited apoptosis. In addition, Z-VAD, a general caspase antagonist, blocked vinblastine-induced fragmentation of HSF and DNA, suggesting that the enzyme responsible for proteolysis of the transcription factor was likely a caspase family member. The results suggest that proteolysis of HSF reflects the action of one or more caspases activated as a consequence of stimulation of cell death. It is concluded that HSF may represent a previously unrecognized substrate for caspases or other cysteine proteases activated during apoptosis.

Malignant progression of rat Nb2 lymphoma cells: chromosomal alterations and metastatic properties.

Cultured rat pre-T Nb2 lymphoma cell lines have provided a useful model for tumor progression of T-cell cancers. Comparative analysis of the non-metastatic, prolactin (PRL)-dependent parental Nb2-U17 line and its PRL-independent and/or metastatic sublines, can be used in a search for progression-related genomic alterations. In the present study, the PRL-dependent, cloned Nb2-11C and PRL-independent Nb2-Sp sublines were used to examine development of metastatic ability and PRL independence relative to chromosomal alterations. Metastatic ability was determined using Noble rats carrying subcutaneous tumor transplants; PRL dependence/autonomy was checked in culture. Nb2-11C tumor transplants quickly gave rise to morbidity, associated with metastases in kidney and liver. Transplants of the slower growing Nb2-Sp cells showed variable tumorigenicity as metastases developed in only 40% of the rats (in lungs, kidney, stomach). G-banded chromosome analysis showed the Nb2-11C culture had the karyotype of the parental Nb2-U17 line plus an extra chromosome 19, thus, indicating an association between the development of metastatic ability in Nb2-11C cells and trisomy 19. The Nb2-Sp subline was not clonal. Its stemline showed two alterations in the parental karyotype: acquisition of an add(7)(q10) and loss of the extra chromosome add(15)(p12). Additional abnormalities, add(6)(q11) and trisomy 19, occurred in 15% and 5% of the Nb2-Sp population, respectively. Passaging of the Nb2-Sp subline in vivo resulted in generation and/or outgrowth of new sublines, a major one of which showed an apparent transient growth requirement for lactogens. Possible mechanisms underlying the PRL independence and in vivo properties of the Nb2-Sp cells are discussed.

Ascorbic acid recycling in Nb2 lymphoma cells: implications for tumor progression.

Analysis of cultured rat "Nb2 lymphoma" cell lines, showing different degrees of malignant progression, can lead to identification of phenotypic changes associated with this phenomenon in T-cell cancers. In the present study we have compared the metastatic sublines, Nb2-11 and Nb2-SFJCD1, with regard to ascorbate and glutathione recycling, important processes in cellular protection from oxidative stresses. Whereas the Nb2-11 subline is prolactin (PRL)-dependent, the genetically related Nb2-SFJCD1 subline is growth factor-independent and shows more chromosomal alterations, indicative of more advanced progression. The Nb2-SFJCD1 cells, compared to the Nb2-11 cells, were less sensitive to toxic effects of dehydroascorbate, a potentially toxic oxidation product of ascorbate. Results were consistent with a significantly higher production of reducing equivalents (e.g., NADPH, GSH) and an accelerated reduction of dehydroascorbate by homogenates of Nb2-SFJCD1 cells. However, the increased resistance was apparently not directly related to the cellular uptake and reduction of dehydroascorbate by whole cells, which was similar in both cell lines. Observations indicate that Nb2 lymphoma cells, in their progression to malignancy, can acquire an enhanced capability to protect themselves from oxidative damage assisting them in withstanding the oxidative stress that anti-neoplastic drugs can cause. The adaptation may also be a mechanism that is utilized by tumor cells in suppressing apoptosis and other protective cellular functions facilitating, or potentiating, a tumor cell's ability to become more metastatic. However, the mechanism leading to this augmented capacity of Nb2 lymphoma cells to resist oxidative stress in not known and is the subject for further study.

Prolactin-regulated apoptosis of Nb2 lymphoma cells: pim-1, bcl-2, and bax expression.

Lactogen-dependent Nb2 lymphoma cells, widely employed for studying prolactin (PRL) mitogenic mechanisms, are also useful for investigations of apoptosis in T-lineage lymphocytes. Utilizing PRL-dependent Nb2-11 cultures, apoptosis-regulatory genes were evaluated for participation in dexamethasone- (DEX) provoked cell death or its inhibition by PRL. Treatment of lactogen-starved, G1-arrested Nb2-11 cells with DEX (100 nM) activated apoptosis within 12 h evaluated by flow cytometric analysis of fragmented DNA. This effect was not associated with altered expression of bcl-2, bax, or pim-1. PRL (10 ng/mL), coincubated with DEX-treated cells, completely blocked DEX-induced apoptosis. This inhibition was associated with increased expression of bcl-2 and pim-1 mRNAs, genes reported to suppress apoptosis, within 2-6 h after addition of the hormone. Moreover, the increased transcription of bcl-2 and pim-1 was coupled to increases in their protein levels. The results suggest that bcl-2, bax, and pim-1 do not play a critical role in DEX-induced apoptosis in Nb2 cells. However, expression of bcl-2, together with pim-1, may have a role in mediating the antiapoptotic actions of PRL.

Changes in glutathione redox cycling and oxidative stress response in the malignant progression of NB2 lymphoma cells.

Differential analysis of closely related Nb2-lymphoma cell lines can be used for identification of changes in biochemical properties associated with the malignant progression of certain T-cell cancers. As tumors progress, they tend to show metabolic alterations such as an increased resistance to oxidative stress, a characteristic that may be correlated with changes in intrinsic antioxidant levels (e.g., glutathione) and in activities of associated enzymes such as the glutathione redox pathway. Whether increases in malignancy of Nb2 cells were associated with changes in cellular glutathione levels and activities of glutathione-metabolizing enzymes was addressed. To evaluate this relationship, 3 cell lines, showing increased malignancy, were used: Nb2-U17 (hormone-dependent, non-metastatic), Nb2-11 (hormone-dependent, metastatic), Nb2-SFJCD1 (growth factor-independent, metastatic). Compared to Nb2-U17 and Nb2-11 cells, the highly progressed Nb2-SFJCD1 lymphoma cells maintain low basal glutathione levels. However, the Nb2-SFJCD1 cells display an enhanced capacity to produce glutathione when challenged with an oxidative stress and show a significantly higher resistance to H2O2-induced apoptosis.

Synthesis and characterization of recombinant, authentic human prolactin secreted into the periplasmic space of Escherichia coli.

Recombinant, fully bioactive, authentic human prolactin (aut-hPRL) has been synthesized in transformed Escherichia coli HB2151 bacteria in a soluble, non-glycosylated form, which is secreted into the bacterial periplasm. Use was made of a bacterial expression vector, containing tac promoter-controlled sequences for the translation enhancer from bacteriophage T7 gene 10, and for a cellulase leader peptide from Cellulomonas fimi joined to sequences coding for aut-hPRL. This vector was derived from a previously described vector containing sequences of an hPRL variant, tag-hPRL (containing a 12-amino-acid peptide tag at the N-terminal end), using site-specific mutagenesis to delete the tag sequence. SDS/PAGE, partial N-terminal amino acid sequence analysis, Western blot analysis and Nb2 lymphoma cell in vitro bioassay indicated correct processing of the hormone. Periplasmic secretion of aut-hPRL, as measured by immunoassay, was relatively low (approx. 0.08 microgram/ml per A600 unit), in contrast to that of tag-hPRL which was approximately 8-fold higher, apparently a consequence of the tag sequence. This is the first report describing periplasmic secretion of biologically active, authentic hPRL.

Prolactin receptor signaling: shared components with the T-cell antigen receptor in Nb2 lymphoma cells.

Previously, we reported that activation of the human prolactin receptor (PRLR) produced a protein phosphorylation pattern strikingly similar to that provoked by Concanavalin A (Con A), an activator of the T-cell antigen receptor (TCR). These results suggested that certain signaling components of the TCR may be shared by the activated PRLR. Additional studies here assessed the levels of TCR expression following PRLR stimulation and the effect of TCR activation on PRL-stimulated proliferation in lactogen-dependent pre-T Nb2-11 lymphoma cells. The results indicated that the TCR was expressed on the surface of approx 4% of exponentially proliferating and prolactin- (PRL) treated cells. In contrast, approx 45% of quiescent cells, cultured in the absence of PRL for 24 h, expressed the TCR at the cell surface, suggesting that lactogen withdrawal may up-regulate TCR cell-surface expression. Moreover, TCR activation with anti-CD3 antibodies attenuated PRL-stimulated Nb2-11 cell proliferation in a concentration-dependent manner. In other experiments, immunoprecipitation and immunoblotting of Nb2-11 lysates revealed that activation of the PRLR resulted in rapid tyrosyl phosphorylation of ZAP-70, a critical TCR-associated tyrosine kinase. In addition, ZAP-70 was found to associate transiently with the putative guanine nucleotide exchange factor and substrate, Vav, in PRL-treated cells. ZAP-70 was also found to associate constitutively with the PRLR; PRL stimulation provoked the transient recruitment of Vav to the complex. These observations suggest that PRL signaling reflects the transient formation of a PRLR-ZAP-70-Vav complex and its immunomodulatory actions involve diverse interactions that affect TCR expression and signaling mechanisms.

Increased cystine uptake capability associated with malignant progression of Nb2 lymphoma cells.

Analysis of rat, pre-T cell 'Nb2 lymphoma' sublines, manifesting different degrees of malignant progression, can indicate phenotypic changes potentially useful as therapeutic targets. In this study, the prolactin (cytokine)-dependent Nb2-11 and autonomous Nb2-SFJCD1 sublines were compared for in vitro thiol growth requirements. Whereas Nb2-11 culture growth depended on 2-mercaptoethanol (2-ME; 33-100 microM), Nb2-SFJCD1 cells were 2-ME-independent. This difference stemmed from differential uptake of exogenous L-cystine, critically required for proliferation. Uptake of 35S-L-cystine (10 microCi/ml; 40 microM) showed Nb2-11 cells had low cystine uptake capability; 2-ME enhanced cystine uptake to growth-sustaining levels. Nb2-SFJCD1 cells did not require 2-ME due to intrinsic, 11-fold higher cystine uptake via the x(c)- cystine/glutamate transport system. In absence of 2-ME, monosodium glutamate abrogated Nb2-SFJCD1 proliferation by specifically inhibiting cystine uptake (85% at 10 mM). Elevated glutathione (GSH) levels were not essential for growth of either line as shown with L-buthionine-(S,R)-sulfoximine (0.1-4 mM) treatment. The cyst(e)ine requirement therefore did not primarily involve maintenance of normal GSH levels, reported critical for T lymphocyte replication. These and other results suggest increased cystine uptake capability constitutes another potential step in progression of T cell cancers which is not coupled to cytokine autonomy or metastatic ability development. The x(c)- transport system apparently provides a novel target for T cell cancer therapy. Its inhibition would suppress cystine uptake by certain progressed cells, and also interfere with cystine uptake, and subsequent cysteine release, by eg macrophages, thought to have a role in cysteine delivery to lymphoid cells.

Butyrate-induced reversal of dexamethasone resistance in autonomous rat Nb2 lymphoma cells.

The parental rat Nb2 lymphoma is a prolactin (PRL)-dependent T cell line. Exposure of a PRL-independent subline, Nb2-SFJCD1, to sodium butyrate (NaBT) causes transient reversal of their growth factor-independent proliferation in association with constitutive expression of protooncogenes pim-1 and c-myc. In the present study, we investigated the effect of NaBT treatment on the sensitivity of Nb2-SFJCD1 cells to dexamethasone (DEX)-induced apoptosis. Pretreatment with NaBT (2 mM, 72 h) partially reversed resistance to apoptosis in Nb2-SFJCD1 cells exposed to DEX (100 nM) for 12 h, assessed by flow cytometric analyses of DNA fragmentation. However, the cytolytic effect of DEX was abrogated by PRL in a time- and concentration-dependent manner. Evaluation of apoptosis-associated gene expression in NaBT-pre-treated cultures incubated with DEX or DEX+PRL indicated that the apoptosis resistance did not stem from altered bcl-2 or bax expression. However, there was a strong correlation between the resistance to DEX-activated apoptosis and their enhanced expression of pim-1 mRNA and protein. The results show that it is possible to reverse DEX-induced apoptosis of Nb2 pre-T cells and suggest the pim-1 gene product has an important role as a suppressor of this process, perhaps functioning as a mediator of PRL action.

Alterations in pim-1 and c-myc expression associated with sodium butyrate-induced growth factor dependency in autonomous rat Nb2 lymphoma cells.

Whereas Nb2-11 lymphoma cells critically require prolactin (PRL) for growth, Nb2-SFJCD1 subline cells are growth factor independent. Treatment with the differentiating agent, sodium butyrate (NaBT), has been demonstrated previously to lead to growth arrest of Nb2-SFJCD1 cells and a transient reversion to PRL growth requirement following removal of NaBT. In the present study, the relation of NaBT-induced growth arrest to the cell cycle was examined using flow cytometry, and the effect of PRL on expression of the immediate-early proto-oncogenes, pim-1 and c-myc, in NaBT-pretreated cultures was evaluated. Treatment of Nb2-SFJCD1 cells with 2 mM NaBT for 72 h caused growth arrest in the majority of the cells in the G1 phase of the cell cycle, an effect similar to that produced by lactogen deprivation in PRL-dependent Nb2 cultures. The addition of PRL stimulated a concentration-dependent re-entry into the cell cycle. In other experiments, NaBT treatment significantly reduced the steady-state levels of pim-1 and c-myc mRNA. Stimulation with PRL induced a rapid and concentration-dependent biphasic accumulation of each mRNA with similar kinetics. Maximal expression of both proto-oncogenes occurred within 2-4 h and after 12 h. Results from mRNA stability studies suggest that the observed increases in expression of pim-1 and c-myc most likely do not reflect increased stability of the transcripts. The results indicate that NaBT-induced differentiation in autonomous Nb2-SFJCD1 causes growth arrest of the cells in the G1 phase of the cell cycle and reduces the basal levels of pim-1 and c-myc mRNAs. Mitogenic stimulation with PRL reinitiates cell cycle progression characterized by biphasic expression of each proto-oncogene. It is suggested that NaBT is a useful tool for investigation of the malignant progression from growth factor dependency to autonomy in the Nb2 lymphoma paradigm.

Glycosylated equine prolactin and its carbohydrate moiety.

Glycosylated equine prolactin (G-ePRL) and nonglycosylated ePRL were purified to homogeneity from side fractions obtained during isolation of LH/FSH from horse pituitaries. Both PRL forms were isolated together in high yield by the isolation procedure used for glycosylated porcine PRL/(G-pPRL) and pPRL, involving acetone extraction/precipitation, NaCl and isoelectric precipitation, and gel filtration. Purification of G-ePRL required additional Con A chromatography. The N-terminal amino acid sequencing for 32 cycles of G-ePRL and ePRL resulted in sequences identical to the known primary structure of ePRL. Based on MALDI mass spectrometry analysis and SDS-PAGE mobilities, G-ePRL and ePRL had estimated molecular weights of 25,000 and 23,000 Da, respectively. G-ePRL displayed only 60% of the immunoreactivity of ePRL in homologous radioimmunoassay. Using the Nb2 lymphoma cell bioassay, ePRL was found to have about 1/30th the mitogenic activity of bovine PRL; G-ePRL was approximately 1/10th as active as ePRL. Glycosylation of G-ePRL at Asn31 was confirmed by isolation and sequence analysis of an enzymatically derived G-ePRL glycopeptide spanning residues 29-37. Monosaccharide compositions of intact G-ePRL and this glycopeptide were very similar (Man3, GlcNAc2, GalNAc1, Fuc0.6, Gal0.2, NeuAc0.15) and resembled that of G-pPRL. The glycopeptide contained one sulfate residue as determined by ion chromatography after acid hydrolysis, indicating the presence of a sulfated monosaccharide. Comparative carbohydrate analysis of G-ePRL and other G-PRL preparations suggests that the functionally significant Asn31 carbohydrate unit is a fucosylated complex mono- and /or biantennary oligosaccharide terminating with a sulfated GalNAc residue and two or three Man residues.

Production and characterization of biologically active Ala-Ser-(His)6-Ile-Glu-Gly-Arg-human prolactin (tag-hPRL) secreted in the periplasmic space of Escherichia coli.

Human prolactin (hPRL) cDNA was obtained by screening of a pituitary cDNA library with a synthetic 21-mer oligonucleotide and with rat PRL cDNA. For its expression, use was made of a vector, p3SN8, containing tac-promoter-controlled sequences for a bacterial cellulase leader joined to sequences coding for Ala-Ser, a chromatographic affinity site consisting of six histidines and a Factor Xa cleavage site. The hPRL cDNA was inserted at the 3' end of the cleavage-site sequences. Expression in Escherichia coli led to secretion in the periplasmic space of a fully bioactive hPRL variant constituting authentic hPRL with a peptide tag, i.e. Ala-Ser-(His)6-Ile-Glu-Gly-Arg, at its N-terminal. This tag-hPRL could be rapidly and efficiently purified by metal-chelate affinity chromatography. The correct processing and quality of tag-hPRL was monitored by SDS/PAGE, Western-blot analysis, immunoassay and Nb2-lymphoma-cell bioassay. Treatment with Factor Xa for tag removal was only partially successful. Periplasmic secretion of tag-hPRL of the order of 0.7 micrograms/ml per A600 unit and one-step purification indicate feasibility for tag-hPRL production for in vitro diagnostic and research applications. This is the first report describing periplasmic secretion of a bioactive form of hPRL.

Prolactin (PRL)-dependent expression of a zinc finger protein-encoding gene, Gfi-1, in Nb2 lymphoma cells: constitutive expression in autonomous sublines.

The proliferation of cultured rat Nb2 lymphoma cells is dependent on prolactin (PRL) acting as the principal growth factor. Previously, PRL-independent Nb2 sublines were obtained by PRL starvation of the parent line and cloning of surviving cells. Development of PRL independence was in some cases found to be associated with a reciprocal translocation involving chromosome 14 at breakpoint 14p22. In the present study, a novel, 14p22 zinc finger protein-encoding gene, Gfi-1, has been examined for a role in Nb2 cell proliferation. PRL-dependent Nb2 cells expressed the gene during active growth; in comparison, in stationary, early G1-arrested cells obtained by an 18 hr lactogen starvation, Gfi-1 gene expression was markedly decreased. Addition of PRL to such stationary cells led to induction of Gfi-1 gene expression within a few hr with a maximum in late G1. Actively growing cells from 5 different PRL-independent Nb2 sublines, cultured in chemically defined, mitogen-free medium, expressed the gene constitutively. In two sublines, carrying the 14p22 rearrangement, the gene was markedly overexpressed. The results suggest the Gfi-1 gene product has a regulatory role in Nb2 cell mitogenesis and that unscheduled activation could contribute to loss of PRL dependency.

Prolactin-induced phosphorylation and nuclear translocation of MAP kinase in Nb2 lymphoma cells.

The coupling of prolactin (PRL) receptor ligation to activation of mitogen-activated protein (MAP) kinase was sought in rat Nb2 lymphoma cells, a pre-T lymphocyte line dependent upon lactogens for proliferation. Addition of PRL (20 ng/ml) to Nb2 cells, growth arrested in the early G1 phase of cell cycle, stimulated rapid tyrosyl phosphorylation of MAP kinase (min). Phosphorylated MAP kinase subsequently translocated to the nucleus, with kinetics essentially identical to those demonstrated for nuclear accumulation of PRL. The rapidity of MAP kinase activation suggests an intermediary role for this enzyme in PRL receptor signalling. Moreover, nuclear translocation of MAP kinase provides an interactive mechanism by which PRL, together with its nuclear receptor, may regulate transcription requisite for mitogenesis.

The rat Nb2 lymphoma: a novel model for tumor progression.

Tumor progression of cancers is manifested by phenotypic property changes including development of hormone/growth factor independence and metastatic ability. The progression results from acquired genomic alterations leading to clonal heterogeneity and outgrowth of more aggressive and therapy-resistant sublines. Previously, a cultured rat "Nb2 lymphoma" cell line was established, whose viability depends critically on the hormone, prolactin, acting as the principal growth factor. By prolactin starvation, prolactin-independent sublines were generated which possessed the parent karyotype plus extra acquired chromosomal changes (clonal evolution). In this study, the parent line (Nb2-U17) and a cloned subline (SFJCD1) were compared for metastatic ability using single s.c. tumor transplants in Noble rats. Rats (22) bearing Nb2-U17 tumors showed no evidence of metastases at autopsy, even when tumors at implantation site reached a size of 9 cm (length + width). In contrast, rats (19) bearing SFJCD1 tumors showed multiple metastases (liver, kidney) when transplants exceeded 5 cm. This difference in metastatic ability may be related to the acquisition of an inversion in chromosome 1, i.e. inv(1)(q31q41). The 1q41 locus is adjacent to the reported H-ras-1 proto-oncogene locus (1q41-q42). In another subline, tetraploidization (flow cytometric analysis, karyotyping) occurred spontaneously following prolonged culturing (20 mo). Together, the parent Nb2 lymphoma line and its clonal derivatives provide a novel system for studying cellular and molecular mechanisms underlying tumor progression to the metastatic phenotype.