Identification of transcriptionally regulated mRNAs from mouse Schwann cell precursors using modified RNA fingerprinting methods

We have adopted RNA fingerprinting methods to screen for genes that are rapidly up- or down-regulated during normal mammalian development, comparing mRNA from early (embryo day 12) to late (embryo day 13) mouse Schwann cell precursors. The use of total RNA, a reduction of cDNA template for amplification, the detection of RT-PCR products with a sensitive DNA stain and polyacrylamide gel electrophoresis and rigid selection criteria involving three screening steps are significant improvements on previous methods. Of 19 differentially displayed bands, 15 represented novel genes. The four known cDNA fragments (interleukin enhancer binding factor 1, beta3 subunit of phospholipase C, brain beta-spectrin, and P21 polypeptide) consisted of coding sequences, indicating a high chance of obtaining coding regions. A semiquantitative RT-PCR analysis of three of the four known genes and a cDNA fragment randomly selected from the pool of 15 novel sequences, confirmed that they were regulated between embryo days 12 and 13, as predicted by the display gels. Our results suggest that the combination of methods described here will have wide applicability in studies of other developmental systems where precisely timed changes occur and where only small amounts of RNA can be obtained for analysis.

Response of Schwann cells to mitogens in vitro is determined by pre-exposure to serum, time in vitro, and developmental age

We compared the mitogenic response of Schwann cells freshly isolated from adult, neonatal, and embryonic nerves, and compared these cells with cells that had been cultured in serum for 5 days. DNA synthesis in response to growth factors was measured using bromodeoxyuridine and immunocytochemistry. Freshly isolated adult Schwann cells were unresponsive to growth factors with or without forskolin to elevate intracellular cAMP levels. After 5 days of culture in serum, or alternatively in defined medium containing fibroblast growth factor 2 plus forskolin, or neu-differentiation factor beta2, adult cells were responsive to mitogens, whereas cells cultured in defined medium alone remained unresponsive. Serum also increased expression of type 1 fibroblast growth factor receptor. Freshly isolated embryonic and neonatal Schwann cells in contrast responded to growth factors even in the absence of forskolin. This responsiveness changed with time in culture. Neonatal cells cultured for 5 days in defined medium in the presence or absence of serum no longer responded to FGF alone, but required forskolin for a mitogenic response. Thus, the response of freshly isolated cells to mitogens is developmentally regulated; extrinsic signals are required to render adult cells responsive to mitogens; and with time in culture, neonatal cells develop a requirement for cAMP elevation for mitogenic response.

Inhibition of tumor promoter induced transformation by expression of the small GTP-binding protein Rac in JB6 cells

The small GTP-binding protein rac-1 has been reported to be a mediator for tumor promoter, growth factor and serum-induced cell membrane ruffling. We have stably overexpressed rac-1 in JB6 P+ cells. In contrast to rac-1 expressing NIH/3T3 cells, all JB6 transfectants expressing rac-1 did not show tumorigenic transformation (forward progression) but instead showed anti-oncogenic effects (backward progression). Transfectants expressing high levels of rac-1 were blocked for TPA-, EGF- and serum-induced transformation, while transfectants expressing lower levels of rac-1 were completely blocked for EGF- and serum-induced transformation but only partially inhibited for TPA-induced transformation compared with vector control transfectants.

Neutralization of endogenous interferon-beta increases the efficiency of adenoviral vector-mediated gene transduction

One reason for low transduction efficiency and, hence, the inefficiency of gene therapy using adenoviral vectors may be the natural antiviral defense mechanisms of hosts. In this study, we investigated the effects of endogenous interferon-beta (IFN-beta) on gene transduction by adenoviral vectors. Infection of murine macrophages with Ad5CMV-LacZ produced increased expression of endogenous IFN-beta. Neutralization with anti-IFN-beta antibody (but not control immunoglobulin) during infection with the vector enhanced expression of LacZ. In contrast, IFN-beta gene expression was not detected in readily transduced NIH 3T3 cells, and the transduction efficiency of NIH 3T3 cells was unaffected by the antibody. LacZ gene expression in NIH 3T3 cells was decreased when cocultured with macrophages or in the presence of exogenous IFN-beta. The addition of the anti-IFN-beta antibody reversed this inhibition. These results demonstrate that IFN-beta-mediated cellular antiviral mechanisms are a barrier to gene transduction by adenoviral vectors.

A dominant negative mutant of jun blocking 12-O-tetradecanoylphorbol-13-acetate-induced invasion in mouse keratinocytes

We previously reported that induced activator protein-1 (AP-1) transcriptional activity appears to be required for tumor promoter-induced transformation in mouse epidermal JB6 cells. To extend this investigation to a keratinocyte culture model and a transgenic mouse model, we constructed K14TAM67, a keratin 14 promoter-controlled version of the dominant negative jun mutant to directly block AP-1 activity and possibly indirectly block NF kappa B activity in basal squamous epithelia. This study was directed at characterizing TAM67 expression and biological activity in the mouse cell line 308, a keratinocyte model for studying carcinogenesis. Cotransfection of K14TAM67 with luciferase plasmid reporter DNAs produced inhibition of basal and 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced AP-1 and NF kappa B activity but had no effect on p53-dependent transcriptional activity. In an in vitro invasion assay, stable expression of TAM67 in 308 cells blocked TPA-induced Matrigel invasion. This suggests that blocking TPA-induced AP-1- or NF kappa B-regulated gene expression by TAM67 inhibits TPA-induced progression. Recombinant tissue inhibitor of metalloproteinase 1 reduced TPA-induced in vitro invasion, thus implicating metalloproteinases at least in part in the transcription factor-dependent process. Analysis of mRNA levels for members of the matrix metalloproteinase (MMP) family, however, revealed that the expression of any single MMP family member did not correlate with regulation of AP-1 or NF kappa B activity. However, the combination of substantial levels of mRNA for stromelysin-1, stromelysin-2, collagenase, membrane type 1 MMP, and gelatinase A occurred only in TPA-treated cells in the absence of TAM67. These results suggest that the action of the dominant negative jun mutant on AP-1 and NF kappa B gene regulation results in complex alterations in the levels of downstream effector genes, such as the metalloproteinases, that effect TPA-induced cellular invasion.

A lymphocyte cell surface heat shock protein homologous to the endoplasmic reticulum chaperone, immunoglobulin heavy chain binding protein BIP

BE2 is a cell surface monomeric 78-kDa protein (BE2-78) expressed on the malignant lymphocytes of cutaneous T-cell lymphoma and adult T-cell leukemia, on some lymphocytes from patients with acquired immunodeficiency syndrome and on Epstein-Barr virus-transformed B cells. BE2-78 positivity of cutaneous T-cell lymphoma tumor cells is a useful diagnostic and prognostic determinant in evaluating patients with that disorder. The BE2-78 protein was isolated from Epstein Barr virus-transformed B cells, purified by 1- and 2-dimensional electrophoresis and then sequenced. The sequence of 4 isolated peptide fragments was highly homologous with the 78-kDa heat shock protein, BiP, an endoplasmic reticulum chaperone. The similarity between BiP and BE2-78 was supported by the demonstration that BE2-78, like BiP, avidly binds to ATP. However, polyclonal and monoclonal reagents that recognize cytoplasmic 70- and 78-kDa heat shock proteins do not detect the BE2-78 antigen on the cell surface of cutaneous T-cell lymphoma or Epstein Barr virus-transformed lymphocytes, and peptide mapping demonstrates sequence divergence, suggesting that either they are distinct or conformationally different molecules. Our results indicate that BE2-78 is a cell surface heat shock protein. The possibility that malignant or transformed lymphocytes may express cell surface molecules with the capacity to bind a spectrum of exogenous or endogenous peptides has potential implications for tumor immunology.

Grafting assay distinguishes promotion sensitive from promotion resistant JB6 cells

The JB6 mouse epidermal cell system has been used extensively as an in vitro transformation model for the study of tumor promotion. The standard JB6 cell assay for promotion of transformation is carried out in soft agar or other anchorage independent conditions. The present study was directed to the development of an in vivo model to distinguish the promotion resistant (P-) and promotion sensitive (P+) progression phenotypes. Results indicate that the grafting assay distinguishes P- and P+ cells in vivo with P+ but not P- cells forming tumors within 7-9 weeks. Expression of dominant negative mutant jun TAM67 blocks both anchorage independent transformation response and graft bed tumor formation by P+ cells, suggesting that the requirement for AP-1 activation in transformation now applies in vivo. Expression of mutated p53 produced a gain of P+ phenotype in P- cells in vitro, but not in vivo. Histochemical and Northern blot analysis for expression of various keratinocyte markers revealed no evidence for expression, suggesting a loss of keratinocyte markers following establishment in culture. In summary, the skin-grafting assay described in this study appears to be a valid in vivo assay for distinguishing the preneoplastic progression phenotypes represented by JB6 P- and P+ cells.

Blocking activator protein-1 activity, but not activating retinoic acid response element, is required for the antitumor promotion effect of retinoic acid

Retinoic acid is one of the most promising drugs for chemotherapy and chemoprevention of cancer. Either blocking activator protein-1 (AP-1) activity or activating retinoic acid response element (RARE) have been proposed to be responsible for its antitumor activity. However, evidence for this hypothesis is lacking in vivo studies. To address this issue, we used an AP-1-luciferase transgenic mouse as a carcinogenesis model and new synthetic retinoids that are either selective inhibitors of AP-1 activation or selective activators of the RARE. The results showed that the SR11302, an AP-1 inhibition-specific retinoid, and other AP-1 inhibitors such as trans-retinoic acid and fluocinolone acetonide, markedly inhibit both 12-O-tetradecanoylphorbol-13-acetate-induced papilloma formation and AP-1 activation in 7,12-dimethyl benz(a)anthracene-initiated mouse skin (P < 0.05). In contrast, repeated applications of SR11235, a retinoid with RARE transactivating activity, but devoid of AP-1 inhibiting effect, did not cause significant inhibition of papilloma formation and AP-1 activation (P > 0.05). These results provide the first in vivo evidence that the antitumor effect of retinoids is mediated by blocking AP-1 activity, but not by activation of RARE.

[Effect of dietary VE on the contents of salivary acid and MDA in RBC membrane]

Vitamin E can protect membrane from the damage of lipid peroxidation, Salivary acid is the residual of carbohydrate on the membrane. To evaluate the effect of dietary VE on salivary acid, the contents of MDA and salivary acid of erythrocyte (RBC) membrane of rats were measured. The rats were fed with different amounts of dietary VE and stayed at different temperatures. The results revealed that the content of salivary acid of RBC membrane reduced markly (P < 0.01) and the content of MDA of RBC membrane was stable (P > 0.05) after the rats were exposed to cold for 10 days. High dietary VE intake increased the content of salivary acid of RBC membrane (P < 0.01). There was no correlation between the content of salivary acid and MDA of RBC membrane. It suggested that dietary VE could raise the content of salivary acid in RBC membrane, but it can not be explained by the reduction of LPO.

Signal transduction through atypical PKCs, but not the EGF receptor, is necessary for UVC-induced AP-1 activation in immortal murine cells

The exposure of mammalian cells to ultraviolet (u.v.) irradiation leads to activation of transcription factors, such as AP-1 and NFkappaB. It is postulated that the EGF receptor but not protein kinase C (PKC) is the major membrane mediator in UVC-induced signal transduction. We demonstrate here that the antisense oligonucleotides of PKC zeta and the dominant negative mutant of PKC lambda/iota as well as dominant negative PKC zeta markedly blocked UVC-induced AP-1 activity. In contrast, UVC-induced AP-1 activity in cells devoid of the EGF receptor (B82), is not significantly different from that of the stable transfectants with a kinase-deficient EGF receptor (B82M721), or wild-type EGF receptor (B82L). This was found at all UVC irradiation doses and time courses studied, while high levels of EGF-induced AP-1 activity were observed in B82L cells but not in B82 cells. This evidence strongly suggests that atypical PKCs, but not the EGF receptor, is necessary for UVC-induced AP-1 activation in JB6 and B82 cells.

Promotion-resistant JB6 mouse epidermal cells exhibit defects in phosphatidylethanolamine synthesis and phorbol ester-induced phosphatidylcholine hydrolysis

The tumour-promotion-sensitive (P+) and -resistant (P-) variants of mouse JB6 epidermis-derived cells have often been used to study the requirements for the tumour-promoting effect of PMA. As part of an effort to identify the defect(s) in JB6 P- cells that might prevent the promoting effect of PMA, stimulation of phospholipase D (PLD)-mediated hydrolysis of phosphatidylcholine (PtdCho) and phosphatidylethanolamine (PtdEtn) by PMA as well as the rate of phospholipid synthesis were compared in three P+ variants, two P- variants and a transformed variant of the JB6 cell line. PMA (5-100 nM) had significantly less stimulatory effect on PtdCho hydrolysis in P- cells than in P+ or transformed JB6 cells. The effects of PMA on PtdEtn hydrolysis in the P+ and P- cell lines were similar, whereas in transformed cells PMA had slightly less effect. Each JB6 cell line was found to contain similar amounts of PtdCho. In contrast, P- cells contained significantly less PtdEtn and a correspondingly higher level of ethanolamine phosphate compared with P+ and transformed cells. P- cells also secreted ethanolamine phosphate into the medium; this process was greatly enhanced by PMA. In the two P- variants the synthesis of PtdEtn from [14C]ethanolamine was reduced to various extents, whereas the rate of PtdCho synthesis was comparable in each JB6 cell line. The synthesis of PtdCho, but not PtdEtn, was greatly stimulated by PMA in both the P+ and P- clones. The results indicate that decreased synthesis/level of PtdEtn and suboptimal functioning of a PtdCho-specific PLD are common characteristics of the P- JB6 cells examined so far. The observed alterations in phospholipid metabolism may play a role in the resistance of P- cells to the tumour-promoting action of PMA.

Inhibition of activator protein 1 activity and neoplastic transformation by aspirin

Aspirin, along with its analgesic-antipyretic uses, is now also being considered for prevention of cardiovascular disease, cancer, and treatment of human immunodeficiency virus infection. Although many of aspirin's pharmacological actions are related to its ability to inhibit prostaglandin biosynthesis, some of its beneficial therapeutic effects are not completely understood. Transcription factor activator protein 1 (AP-1) is critical for the induction of neoplastic transformation and induction of multiple genes involved in inflammation and infection. We have used the JB6 mouse epidermal cell lines, a system that has been used extensively as an in vitro model for the study of tumor promotion and anti-tumor promotion, to study the anti-carcinogenesis effect of aspirin at the molecular level. Aspirin and aspirin-like salicylates inhibited the activation of AP-1 in the same dose range as seen for the inhibition of tumor promoter-induced transformation. The inhibition of AP-1 and tumor promoter-induced transformation in JB6 cells occurs through a prostaglandin independent- and an Erk1- or Erk2-independent pathway. The mechanism of AP-1 and transformation inhibition in this cell culture model may involve the elevation of H+ concentration. The inhibition effects on the activation of AP-1 activity by aspirin and aspirin-like salicylates may further explain the anti-carcinogenesis mechanism of action of these drugs.

[The effects of menthol, borneolum and moschus on nasal airflow sensation and nasal resistance]

Menthol and borneolum have been used widely in traditional Chinese medicine for the treatment of nasal obstruction, but the mechanism has been still unknown. The effects of inhalation of menthol, borneolum, moschus on nasal resistance and airflow sensation were investigated in 52 subjects. All of these medicines could cause a highly significant enhancement of nasal airflow sensation but had no effect on nasal resistance. Therefore this sort of medicine is regarded as pseudo nasal decongestant.

Macrophage-derived metalloelastase is responsible for the generation of angiostatin in Lewis lung carcinoma

To determine the mechanism responsible for the in vivo production of angiostatin that inhibits growth and metastasis in Lewis lung carcinoma (3LL), we implanted 3LL variant cells into the subcutis of syngeneic C57BL/6 mice. The tumors were infiltrated by macrophages and expressed high levels of steady-state mRNA for metalloelastase (MME). Successive passages (more than three) of cultures established from the tumors resulted in complete depletion of macrophages; steady-state MME mRNA, elastinolytic activity, and production of angiostatin (in the presence of plasminogen) were correspondingly reduced. Coculture of macrophages with either 3LL cells or their conditioned media containing granulocyte-macrophage colony-stimulating factor resulted in secretion of MME and production of angiostatin by the macrophages, suggesting that angiostatin is produced by tumor-infiltrating macrophages whose MME expression is stimulated by tumor cell-derived granulocyte-macrophage colony-stimulating factor.

Destruction of bystander cells by tumor cells transfected with inducible nitric oxide (NO) synthase gene

BACKGROUND

The activation of an enzyme, inducible nitric oxide synthase (iNOS), catalyzes the production of endogenous nitric oxide (NO). NO, in turn, is associated with cell death, suppression of tumor development, and inhibition of metastasis of murine melanoma cells. Moreover, the in vivo induction of iNOS is associated with regression of established hepatic metastases. Whether this regression required the activation of the iNOS gene in every tumor cell or whether NO-producing tumor cells can also kill bystander (neighboring) cells has been previously unknown.

PURPOSE

The goal of this study was to determine whether cells producing NO and then undergoing autolysis can also kill bystander cells in vitro and in vivo.

METHODS

Murine K-1735 C4.parental (C4.P) melanoma cells were transfected with the functional iNOS gene (transfectant denoted as C4.L8) or with a control truncated-nonfunctional iNOS gene (transfectant denoted as C4.S2). NO-mediated cytolysis and bystander cell killing were determined in vitro and in vivo.

RESULTS

Only the functional iNOS-transfected C4.L8 cells produced NO and underwent autolysis. C4.L8 cells also produced statistically significant lysis of iNOS-negative C4.P cells. This lysis was suppressed by the specific iNOS inhibitor N(G)-methyl-L-arginine. NO-producing C4.L8 cells and control C4.P or C4.S2 cells were injected subcutaneously into syngeneic C3H/HeN mice. Control C4.P and C4.S2 cells produced rapidly growing subcutaneous tumors, whereas C4.L8 cells did not. The mixture of C4.P and C4.S2 cells (1:5 ratio) produced rapidly growing subcutaneous tumors, whereas the mixture of C4.P and C4.L8.5 cells (1:5 ratio) produced slow-growing tumors. The subcutaneous growth of C4.P cells was not affected by C4.L8.5 cells injected subcutaneously at a distant site. Mixtures of C4.P cells labeled with [(125)I]iododeoxyuridine and C4.L8 cells (NO producing) or C4.S2 cells (control) were injected subcutaneously. The survival rate of the radiolabeled cells indicated that the NO-producing C4.L8.5 cells lysed the bystander C4.P cells.

CONCLUSION

The production of high-level endogenous NO causes autolysis in tumor cells and lysis of bystander cells under in vitro and in vivo conditions.

IMPLICATIONS

NO-mediated cell killing does not require transfection of genes into every cell in a neoplasm.

Phosphatidylinositol-3 kinase is necessary for 12-O-tetradecanoylphorbol-13-acetate-induced cell transformation and activated protein 1 activation

Phorbol esters, which activate isoforms of protein kinase C, are general activators of the transcription factor activated protein 1 (AP-1). The pathway involved in this signal transduction is not very clear. Currently, little is known about whether phosphatidylinositol-3 (PI-3) kinase plays any role in phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced signal transduction. We demonstrate here that TPA not only has markedly synergistic effects on insulin-induced PI-3 kinase activity, but it also can induce PI-3 kinase activity and the PI-3 phosphates by itself. We also found that insulin, a PI-3 kinase activator, enhanced TPA-induced AP-1 trans-activation and transformation in JB6 promotion-sensitive cells. Furthermore, wortmannin and LY294002, two PI-3 kinase inhibitors, markedly decreased AP-1 activity induced by insulin, TPA, or TPA and insulin and inhibited JB6 promotion-sensitive cell transformation induced by TPA or TPA and insulin. Most importantly, constitutive overexpression of the dominant negative PI-3 kinase P85 mutants completely blocked insulin- or TPA-induced AP-1 trans-activation and TPA-induced cell transformation. All evidence from present studies suggests that PI-3 kinase acts as a mediator in TPA-induced AP-1 activation and transformation in JB6 cells.

[A preliminary study on the effect of estrogen on nasal mucosal hyperreactivity]

To understand the mechanism of the effect of estrogen on nasal mucosal hyperreactivity, animal models (guinea pigs) with different levels of estradiol (E2) were observed as follows: 1. effect of the change of E2 levels on E2 receptors (E2R) content in nasal mucosa; 2. effect of E2 level changes on histamine content in nasal mucosa and on nasal mucosal eosinophil and mast cell counts; 3. effect of E2 on release of cytokine IL-6 from macrophages. The results showed that high level of E2 might reduce the E2R content and eoinophil count but no significant effect on mast cells count and histamine content. The secretion of IL-6 from the macrophages was suppressed by E2 within concentration range of 3.13-50 micrograms/L. It was suggested that estradiol may play a complicated role in nasal mucosal hyperreactivity.

Therapy of human transitional cell carcinoma of the bladder by oral administration of the epidermal growth factor receptor protein tyrosine kinase inhibitor 4,5-dianilinophthalimide

Epidermal growth factor receptor (EGF-R), a transmembrane glycoprotein that mediates the mitogenic response of cells to epidermal growth factor, is highly expressed on malignant human bladder cancer cells. The 4,5-dianilinophthalimides represent a novel class of inhibitors of the EGF-R family of tyrosine kinase with selectivity at the enzymatic and cellular levels. Two compounds of this class, CGP 54211 and CGP 53353, inhibited tyrosine kinase activity of the EGF-R in five different human transitional cell carcinoma lines. The compounds also produced cytostasis in vitro. Highly metastatic human 253J B-V cells were implanted in the bladder wall of nude mice. The daily oral administration of CGP 54211 inhibited the level of EGF-R phosphorylation in this tumor; necrosis and inhibition of tumor growth paralleled this inhibition.

[Clinical significance of multidrug resistance gene(mdr1) expression in patients with acute leukemia]

OBJECTIVE

To evaluate relationship between drug resistance of leukemia cells and prognosis.

METHODS

The expression of multidrug resistance gene(mdr1) mRNA was measured in 85 patients with acute leukemia and in 20 normal controls by using reverse transcription polymerase chain reaction (RT-PCR).

RESULTS

The mdr1 positive rate in untreated group was 44.7%. The CR rate differed significantly between mdr1+ (23.9%) and mdr1-(88.5%)(P < 0.005). The mdr1 positive rate of refractory-relapsed group was higher than that in CR group (P < 0.001). The mdr1 mRNA expression level of refractory-relapsed group was higher than that in CR group. A gradually increasing level of mdr1 mRNA expression in CR patients indicated early relapse. The mdr1 positive rate in normal contral and long-term surviver patients was very low. The mdr1 expression was correlated with French-American-Birtish Cooperative Group (FAB) classification.

CONCLUSION

The mdr1 expression correlated with chemotherapeutic effect and prognosis. It is an unfavorable prognostic factor for patients with acute leukemia.

P0 is constitutively expressed in the rat neural crest and embryonic nerves and is negatively and positively regulated by axons to generate non-myelin-forming and myelin-forming Schwann cells, respectively

We show that in the rat, the major gene of PNS myelin, P0, is expressed long before myelination in the neural crest, Schwann cell precursors, and embryonic Schwann cells irrespective of whether they will myelinate or not. This myelin-independent P0 expression is constitutive and likely to serve as a specific marker for the Schwann cell lineage. The much higher P0 expression accompanying myelination is therefore not new gene expression but strong up-regulation of preexisting basal levels. We provide new evidence that the up-regulation to myelination-related levels depends on positive extrinsic signals and therefore does not represent a constitutive phenotype. P0 mRNA is not detectable in mature non-myelin-forming Schwann cells of the sympathetic trunk, but is detectable after transection, indicating that there is a P0-inhibitory signal associated with mature unmyelinated axons. Thus, the regulation of the P0 gene is complex, encompassing extrinsically signaled amplification superimposed on a highly lineage-specific and constitutive basal expression.

Direct correlation between DNA repair capacity and metastatic potential of K-1735 murine melanoma cells

The purpose of this study was to determine whether the ability of K-1735 murine melanoma cells to repair DNA damage correlates with their metastatic potential. Three nonmetastatic clones, four metastatic clones, and three somatic-cell hybrids between metastatic and nonmetastatic clones were exposed to incident ultraviolet (UV) light (254 nm). Cell survival was determined by the microculture tetrazolium assay, which measures cell metabolic activity. DNA repair capacity was determined with a host-cell reactivation assay, which measures the activities of chloramphenicol acetyltransferase encoded by the reporter gene in both UV-damaged and undamaged plasmid (control) pCMV cat 40 h after transfection. No discernible differences in transfection efficiencies were found between K-1735 clones with low and high metastatic potential or between cells transfected with UV-damaged and control plasmids. DNA repair capacity directly correlated with cell survival (p < 0.05) and with metastatic potential in the K-1735 clones and somatic cell hybrids (p < 0.05). These data suggest that the intrinsic resistance of melanoma metastases to systemic chemotherapy may be due, in part, to the cells' enhanced DNA repair capacity.

Ultraviolet B-induced activated protein-1 activation does not require epidermal growth factor receptor but is blocked by a dominant negative PKClambda/iota

The exposure of mammalian cells to UV irradiation leads to the activation of transcription factors such as activated protein-1 (AP-1) and NFkappaB. It is postulated that epidermal growth factor (EGF) receptor, but not protein kinase C (PKC), is the major membrane mediator in UV-induced signal transduction. Since UVB is responsible for most of the carcinogenic effects of sun exposure, we investigated the role of EGF receptors and PKC in UVB-induced AP-1 activation. Our results indicated that while the down-regulation of novel PKC (nPKC) and conventional PKC (cPKC) by pretreatment of cells with 12-O-tetradecanoyl phorbol-13-acetate cannot block UVB-induced AP-1 activity, it can block 12-O-tetradecanoyl phorbol-13-acetate-induced AP-1 activity. Further, the dominant negative mutant PKClambda/iota blocked UVB-induced AP-1 activity in all doses and time courses studied. In contrast, UVB-induced AP-1 activity from cells devoid of EGF receptor (B82) was not significantly different from that of the stable transfectants with a kinase-deficient EGF receptor (B82M721) or those with a wild-type EGF receptor (B82L) at all UVB irradiation doses and time courses studied. All of this evidence indicated that aPKC, but not EGF receptor, is involved in UVB-induced AP-1 activation.

Differential regulation of metalloelastase activity in murine peritoneal macrophages by granulocyte-macrophage colony-stimulating factor and macrophage colony-stimulating factor

We investigated the regulation of elastase activity in murine peritoneal macrophages by different cytokines and bacterial LPS. Thioglycolate-elicited mouse peritoneal exudate macrophages secrete a metalloproteinase that degrades elastin. Incubation of peritoneal exudate macrophages with LPS and IFN-gamma significantly inhibited the production of elastase by a mechanism independent of nitric oxide, superoxide, and hydrogen peroxide. The cytokines IL-1alpha, IL-1beta, IL-2, IL-4, IL-6, IL-8, IL-10, TNF, TGF-alpha and -beta, basic fibroblast growth factor, monocyte chemotactic factor-1, and granulocyte CSF (G-CSF) had no significant effect on the production of elastase by macrophages. In contrast, granulocyte-macrophage CSF (GM-CSF) increased the production of elastase in a dose-dependent manner, and with macrophage CSF (M-CSF) inhibited it. Elastin zymography demonstrated that the modulation of elastolytic activity in macrophages was associated with changes in the level of metalloelastase protein. The stimulation of elastase activity by GM-CSF and the inhibition of elastase activity by LPS, IFN-gamma, and M-CSF occurred at the level of transcription. LPS and M-CSF also augmented the expression level of tissue inhibitors of metalloproteinase mRNA. The increased mRNA steady state level of murine macrophage elastase induced by GM-CSF resulted from both increased transcription and enhanced stability. The modulation of metalloelastase activity in macrophages by IFN-gamma, M-CSF, and GM-CSF suggests that these molecules may control the degradation of elastin fibers in lungs or blood vessels.