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.

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.

Maintenance of intestinal epithelium structural integrity and mucosal leukocytes during chemotherapy by oral administration of muramyl tripeptide phosphatidylethanolamine

The systemic administration of doxorubicin (DXR) decreases the number of epithelial cells and leukocytes in the small intestine of mice. Oral administration of muramyl tripeptide phosphatidylethanolamine (MTP-PE) prevented both disruption of intestinal architecture, and a decrease in the number of macrophages, and it induced the expression of IL-6, G-CSF, GM-CSF, and TNF-alpha in the intestinal tissue. The data suggest that the oral administration of MTP-PE can prevent chemotherapy-induced toxicity to the intestinal mucosa and hence infections due to translocation of aerobic bacteria from the intestine to the blood.

Requirement for phosphatidylinositol 3-kinase in epidermal growth factor-induced AP-1 transactivation and transformation in JB6 P+ cells

Phosphatidylinositol 3-kinase (PI 3-kinase) plays a role in a variety of biological processes, including regulation of gene expression, cell growth, and differentiation. However, little is known about its role in the cytoplasmic events involved in epidermal growth factor (EGF)-induced transduction of signals to the transcriptional machinery of the nucleus and in EGF-induced cell transformation. In this study, we examined whether PI 3-kinase is a mediator for the activation of AP-1 and neoplastic transformation by EGF in the murine epidermal cell line JB6. The results showed the following. (i) EGF not only induced a high level of PI 3-kinase activity by itself but also enhanced insulin-induced PI 3-kinase activity in JB6 P+ cells, the EGF-induced PI-3 kinase activity could be blocked by constitutive overexpression of a dominant negative P85 subunit of PI 3-kinase (deltaP85), and insulin could markedly promote EGF-induced AP-1 activity in a dose-dependent manner in JB6 P+ cells as well as promote EGF-induced JB6 P+ cell transformation. (ii) Inhibition of PI-3 kinase with wortmannin or LY294002 markedly decreased the AP-1 activity induced by insulin, EGF, or EGF and insulin in a dose-dependent manner, while wortmannin did not block UVB-induced AP-1 activity. (iii) AP-1 activation by insulin, EGF, or EGF and insulin could be completely inhibited by overexpression of deltaP85 in all the dose and time courses studied. (iv) Inhibitors of PI 3-kinase (wortmannin and LY294002) and stable overexpression of deltaP85 inhibited EGF-induced transformation but had no significant inhibitory effect on cell proliferation induced by EGF or EGF and insulin. These results demonstrate for the first time that PI 3-kinase appears to be required for EGF- or insulin-induced AP-1 transactivation and cell transformation but not cell proliferation in JB6 cells.

An essential role for Bruton's [corrected] tyrosine kinase in the regulation of B-cell apoptosis

Mutations of the Bruton's tyrosine kinase (btk) gene cause X-linked agammaglobulinemia (XLA) in humans and X-linked immune deficiency (Xid) in mice. To establish the BTK role in B-cell activation we examined the responses of wild-type and Xid B cells to stimulation through surface IgM and CD40, the transducers of thymus independent-type 2 and thymus-dependent activation, respectively. Wild-type BTK was necessary for proliferation induced by soluble anti-IgM (a prototype for thymus independent-type 2 antigen), but not for responses to soluble CD40 ligand (CD40L, the B-cell activating ligand expressed on T-helper cells). In the absence of wild-type BTK, B cells underwent apoptotic death after stimulation with anti-IgM. In the presence of wild-type but not mutated BTK, anti-IgM stimulation reduced apoptotic cell death. In contrast, CD40L increased viability of both wild-type and Xid B cells. Importantly, viability after stimulation correlated with the induced expression of bcl-XL. In fresh ex vivo small resting B cells from wild-type mice there was only barely detectable bcl-XL protein, but there was more in the larger, low-density ("activated") splenic B cells and peritoneal B cells. In vitro Bcl-XL induction following ligation of sIgM-required BTK, was cyclosporin A (CsA)-sensitive and dependent on extracellular Ca2+. CD40-mediated induction of bcl-x required neither wild-type BTK nor extracellular Ca2+ and was insensitive to CsA. These results indicate that BTK lies upstream of bcl-XL in the sIgM but not the CD40 activation pathway. bcl-XL is the first induced protein to be placed downstream of BTK.

Bcl-2 protects cells from cytokine-induced nitric-oxide-dependent apoptosis

Cytokine-mediated cell death in tumor cells can be achieved through endogenous nitric oxide (NO) from within tumor cells or exogenous NO from either activated macrophages or endothelial cells. The purpose of this study was to determine the role of Bcl-2 in NO-mediated apoptosis. The incubation of murine L929 and NIH3T3 cells with interleukin-1 alpha (IL-1 alpha) and interferon gamma (IFN gamma) induced high endogenous NO production only in the L929 cells that also underwent apoptosis. NIH3T3 cells were not resistant to NO-mediated apoptosis. In fact, the incubation of L929 and NIH3T3 cells with exogenous NO derived from NO donors, sodium nitroprusside, or S-nitroso-N-acetyl-DL-penicillamine (SNAP) induced death, characterized by typical apoptotic morphology and DNA fragmentation, in both cell types, but to a higher degree in NIH3T3 cells than in the L929 cells. We then measured the effect of Bcl-2 expression on exogenous NO-induced apoptosis. At both the mRNA and protein levels, L929 fibroblasts expressed higher levels of endogenous mouse Bcl-2 than did NIH3T3 cells. At the same time, L929 cells were much more resistant to exogenous NO-induced cell death than were NIH3T3 cells. The inverse correlation between mouse Bcl-2 expression and sensitivity to exogenous NO-mediated cell death was also found in the murine K-1735 melanoma C-23 and X-21 clonal populations. Transfection of both NIH3T3 cells and L929 cells with the human bcl-2 gene led to resistance to both exogenous and endogenous NO-mediated apoptosis. These data demonstrate that NO-mediated apoptosis can be suppressed by expression of Bcl-2, suggesting that abnormal expression of Bcl-2 may influence the efficacy of tumor immunotherapy.

[Percutaneous transluminal angioplasty in the treatment of 79 cases of reno-vascular hypertension]

79 cases of reno-vascular hypertension were treated with percutaneous transluminal angioplasty (PTRA) during 1981-1994. Athrosclerosis as the etiology of renal artery lesions was noted in 14 cases (17.7%), arteritis in 57 (72.2%), and fibro-muscular dysplasia in 8 (10.1%). The success rate of PTRA was 94.8%. The morbidity rate was 3.8%. There was no mortality in this series. The cure-improvement rate after average follow-up of 44.8 months was 73.4%. It was 75.4% in the group of arteritis. We conclude that PTRA should be considered as the first choice for the treatment of renovascular hypertension, especially to the arteritis patients.

Activation of nitric oxide synthase gene for inhibition of cancer metastasis

The process of cancer metastasis consists of multiple sequential and highly selective steps. The vast majority of tumor cells that enter the circulation die rapidly and only a few survive and proliferate to form distant metastases. This survival is not random. Metastases are clonal in origin and are produced by specialized subpopulations of cells that preexist in a heterogeneous primary tumor. Metastatic cells of the murine K-1735 melanoma survive in the circulation to produce experimental lung metastases, whereas nonmetastatic cells do not. After incubation with different cytokines or LPS, nonmetastatic cells exhibit a high level of inducible nitric oxide synthase (iNOS) activity and nitric oxide (NO) production, whereas metastatic cells do not. To provide direct evidence for the inverse correlation between the production of endogenous NO and the ability of K-1735 cells to produce metastasis in syngeneic mice, highly metastatic clone 4 cells (C4.P), which express low levels of iNOS, were transfected with a functional iNOS (C4.L8), inactive mutated iNOS (C4.S2), or neomycin resistance (C4.Neo) genes in medium containing 3 mM NMA. C4.P, C4.Neo3, and C4.S2.3 cells were highly metastatic, whereas C4.L8.5 cells were not. Moreover, C4.L8.5 cells produced slow-growing subcutaneous tumors in nude mice, whereas the other three cell lines produced fast-growing tumors. In vitro studies indicated that the expression of iNOS in C4.L8.5 cells was associated with apoptosis. Multiple intravenous injections of liposomes containing a synthetic lipopeptide upregulated iNOS expression in murine M5076 reticulum sarcoma cells growing as hepatic metastases. The induction of iNOS was associated with the complete regression of the lesions. Collectively, these data demonstrate that the expression of iNOS in tumor cells is associated with apoptosis, suppression of tumorigenicity, abrogation of metastasis, and regression of established hepatic metastases.

Development and differentiation of Schwann cells

Using the rat sciatic nerve as a model for the study of Schwann cell differentiation we have identified a Schwann cell precursor, a distinct cell type present in developing nerves at a time when they are projecting to their target tissues. These cells develop into Schwann cells over a relatively short time in vivo. In vitro, they can generate Schwann cells if they are cultured in neuron-conditioned medium or in the presence of neu-differentiation factors (NDF) (neuregulins, heregulins, glial growth factor), a recently discovered family of growth factors expressed at high levels in neurons. Thus neu-differentiation factors may be important neuro-glia signalling molecules in the Schwann cell lineage. Later stages in the development of Schann cells, such as differentiation towards a myelin phenotype, can be studied using cultured Schwann cells. These cells dedifferentiate both in vivo and in vitro when they are deprived of axonal contact. Elevation of intracellular cyclic AMP levels in the absence of cell division causes high levels of expression of Po, the major myelin glycoprotein. TGF beta s and FGFs suppress this induction, while IGFs promote it.

AP-1/jun is required for early Xenopus development and mediates mesoderm induction by fibroblast growth factor but not by activin

In Xenopus, normal mesoderm formation depends on signaling through the fibroblast growth factor (FGF) tyrosine kinase receptor. An important signaling pathway from receptor tyrosine kinases involves Ras/Raf/MAP kinase. However, the downstream pathway that occurs in the nucleus to finally trigger gene expression for mesoderm formation remains unknown. We report here that a high level of activator protein-1 (AP-1)-dependent transcriptional activity is detected during the early development of Xenopus embryos. Injection of a dominant negative mutant jun (DNM-jun or TAM67) RNA into the two-cell stage embryos inhibited endogenous AP-1 activity and blocked normal embryonic development with severe posterior truncation in tadpoles. The inhibition of AP-1 activity and the phenotypic change induced by TAM67 was rescued by co-injection of wild-type c-jun RNA, but not by the control beta-galactosidase RNA. The FGF-stimulated mesoderm induction was markedly inhibited in animal cap explants from the embryos injected with TAM67. Activin induction of mesoderm, on the other hand, was normal in the embryos injected with TAM67 RNA. These findings suggest that AP-1 mediates FGF, but not activin, receptor signaling during mesoderm induction and the AP-1/Jun is a key signaling molecule in the development of posterior structure.

Drug-induced reversion of progression phenotype is accompanied by reversion of AP-1 phenotype in JB6 cells

Transformed JB6 cells can be stably reverted to nontransformed phenotype by AP-1 inhibiting gluccorticoid fluocinolone (FA) and cAMP elevator forskolin (FN), yielding stable revertants of promotion resistant (P-) and promotion sensitive (P+) phenotypes. AP-1 activity of nontransformed P- and P+ revertant clones was decreased under a variety of experimental conditions compared with their transformed counterparts. Moreover, AP-1 activity in P+ cells under anchorage-independent conditions was induced by 12-0-tetradecanoyl-phorbol-13-acetate (TPA) while AP-1 activity in the reverted P- cells was not induced, just as observed for the original P+ and P- variants. Taken together these data suggest that changes in AP-1 activity may be one key mediator not only of forward progression but also of reversion of tumor cells to nontransformed phenotype. In addition, the higher transfection efficiency of the new reverted P- and P+ cells renders them useful for studying the role of transcription factors in tumor promotion.

Inhibition of tumor promoter-induced transformation by retinoids that transrepress AP-1 without transactivating retinoic acid response element

Both retinoic acid (RA) treatment and dominant-negative c-Jun mutant expression effectively inhibit phorbol ester-induced AP-1 activity and induced neoplastic transformation in mouse epidermal JB6 cells. However, both reagents also target non-AP-1 molecules in addition. Because liganded retinoic acid receptors interact with and transactivate RA response elements (RAREs) on DNA, as well as interact with Jun protein to block AP-1 activity, the question arises as to which of these two activities of retinoids is responsible for antitumor-promoting activity. To address this question we generated JB6 promotion-sensitive (P+) cell lines that are stably transfected with a construct containing the collagenase promoter bearing one AP-1-binding site that drives a luciferase reporter gene. The stable collagenase-luciferase-transfected cell lines showed 1.5-3.5-fold enhanced AP-1 activity when treated with 12-0-tetradecanoyl-phorbol-13-acetate (TPA). Up to 90% of TPA-induced AP-1 activity was blocked by retinoids SR11238, SR11302, or trans-RA, but not by retinoid SR11235. Of these retinoids, only RA and SR11235 were able to transactivate RARE-dependent gene expression. Transrepression of TPA-induced AP-1 and transactivation of RARE by RA, SR11238, and SR11302 were concentration dependent at 10(-10) to 10(-6) M retinoid. When tested for activity in inhibiting tumor promoter-induced transformation in JB6 P+ cells, the retinoids specific for AP-1 transrepression were inhibitory, whereas SR11235, which only activated RARE, showed little effect. We thus conclude that the AP-1-blocking activity of retinoids is likely to be responsible for the antitumor-promoting activity. This result, together with the observation that dominant-negative Jun blocks transformation, argues for a requirement of induced AP-1 in the tumor promoter-induced transformation process.

Cytoprotection of kidney epithelial cells by compounds that target amino acid gated chloride channels

Glycine, strychnine and certain chloride channel blockers were reported to protect cells against lethal cell injury. These effects have been attributed to interactions with membrane proteins related to CNS glycine gated chloride channel receptors. We have investigated the pharmacology of these actions. Madin-Darby canine kidney (MDCK) epithelial cells were depleted of adenosine triphosphate (ATP) by incubation in glucose free medium containing a mitochondrial uncoupler. Medium Ca2+ was adjusted to 100 nM in the presence of an ionophore such that intracellular Ca2+ did not increase, and Ca(2+)-related injury mechanisms were inhibited. This permitted more sensitive quantitation of protection against cell injury attributable to glycine or other agents whose actions might be related to those of the amino acid. Two classes of compounds showed cytoprotective activity in this system: (1) ligands at chloride channel receptors, such as glycine, strychnine and avermectin B1a; (2) chloride channel blockers, including cyanotriphenylboron and niflumic acid, both of which are known to bind to channel domains of CNS glycine receptors. Morphological and functional studies showed that the compounds preserved plasma membrane integrity, but permitted cell swelling. Substitution of medium chloride by gluconate, or chloride salts by sucrose, did not substantially modify lethal damage or its prevention by glycine or other drugs. The compounds did not modify ATP declines. At least for some compounds, cytoprotection appeared to be specific to structural features on the molecules. These observations are consistent with the hypothesis that a plasma membrane protein related to glycine-gated chloride channel receptors plays a significant role in cell injury, but indicate that the mechanisms of injury and protection by compounds active in this system are not related to chloride fluxes.

Involvement of Ras/Raf/AP-1 in BMP-4 signaling during Xenopus embryonic development

Previously, we elucidated the role of bone morphogenetic protein 4 (BMP-4) in the dorsal-ventral patterning of the Xenopus embryo by using a dominant negative mutant of the BMP-4 receptor (DN-BR). The present paper describes the involvement of Ras, Raf, and activator protein 1 (AP-1) in BMP-4 signaling during Xenopus embryonic development. The AP-1 activity was determined by injecting an AP-1-dependent luciferase reporter gene into two-cell-stage Xenopus embryos and measuring the luciferase activity at various developmental stages. We found that injection of BMP-4 mRNA increased AP-1 activity, whereas injection of DN-BR mRNA inhibited AP-1 activity. Similar inhibitory effects were seen with injection of mRNAs encoding dominant negative mutants of c-Ha-Ras, c-Raf, or c-Jun. These results suggest that the endogenous AP-1 activity is regulated by BMP-4/Ras/Raf/Jun signals. We next investigated the effects of Ras/Raf/AP-1 signals on the biological functions of BMP-4. DN-BR-induced dorsalization of the embryo, revealed by the formation of a secondary body axis or dorsalization of the ventral mesoderm explant analyzed by histological and molecular criteria, was significantly reversed by coinjection of [Val12]Ha-Ras, c-Raf, or c-Jun mRNA. Furthermore, the BMP-4-stimulated erythroid differentiation in the ventral mesoderm was substantially inhibited by coinjection with the dominant negative c-Ha-Ras, c-Raf, or c-Jun mutant. Our results suggest the involvement of Ras/Raf/AP-1 in the BMP-4 signaling pathway.

Characterization of the human granulocyte-macrophage colony-stimulating factor gene promoter: an AP1 complex and an Sp1-related complex transactivate the promoter activity that is suppressed by a YY1 complex

It is well documented that a repeated CATT element in the human granulocyte-macrophage colony-stimulating factor (GM-CSF) gene promoter is required for promoter activity. However, the transcription factors that are able to transactivate this enhancer element remain unidentified. Recently, we have found that nuclear factor YY1 can interact with the enhancer element. Here, we report that in addition to YY1, two other nuclear factors have been identified in the DNA-protein complexes formed by the CATT oligonucleotide and the Jurkat T-cell nuclear protein. One of these factors is AP1, and the other one is an Sp1-related protein. Results from transient transfection of Jurkat T cells have revealed that formation of both AP1 and the Sp1-related complex is required for the full enhancer activity of the CATT element. This result is supported by cotransfection of a c-jun expression vector and mutational analysis of the AP1 site or the Sp1-related protein binding site. In contrast, formation of the YY1 complex suppresses enhancer activity, since deletion of the YY1 complex induces an augmentation of the enhancer activity and overexpression of YY1 results in an attenuation of the enhancer activity. Results from the mechanism study have revealed that YY1 is able to inhibit transactivation mediated by either AP1 or the Sp1-related protein, and YY1 suppressive activity is DNA binding dependent. Taken together, these data support the ideas that AP1 and the Sp1-related nuclear protein are required for transactivation of the human GM-CSF gene promoter and that YY1 can suppress transactivation of the promoter even under inducible conditions.

TGF-betas upregulate NCAM and L1 expression in cultured Schwann cells, suppress cyclic AMP-induced expression of O4 and galactocerebroside, and are widely expressed in cells of the Schwann cell lineage in vivo

We have examined both how the molecular phenotype of Schwann cells in vitro is regulated by transforming growth factor beta (TGF-beta), using immunohistochemistry and immunoblotting, and the distribution of TGF-beta 2 and 3 in embryonic and mature nerves and ganglia, using immunohistochemistry and in situ hybridisation. We find that TGF-beta 2 and -3 upregulate expression of the neural cell adhesion molecules NCAM and L1. In TGF-beta-treated cultures, in addition to the 140 and 120 kD isoforms known to be present in Schwann cells, small amounts of the 180 kD isoform can be detected. TGF-beta s also block cAMP-induced expression of the lipid antigens galactocerebroside (GalC) and O4, in addition to blocking expression of protein zero (P0), the major peripheral myelin glycoprotein, as previously shown. Using antibodies specific to TGF-beta 2 and -3, respectively, we confirm the presence of these proteins in myelin-forming Schwann cells and show also that TGF-beta 2 and -3 are clearly expressed by peripheral glia that are not involved in myelination. This includes Schwann cell precursors, embryonic Schwann cells, non-myelin-forming Schwann cells and satellite cells from adult nerves and ganglia, and neonatal Schwann cells in purified cultures without neurones. In situ hybridisation with a digoxygenin-labelled riboprobe reveals a strong TGF-beta 3 mRNA signal in Schwann cells, satellite cells, and some neurones. Schwann cells in culture also secrete TGF-beta in a latent form, whereas purified cultures of dorsal root ganglion neurones from 1-day-old rats secrete active TGF beta during the first 48 h in culture.

Activation of inducible nitric oxide synthase gene in murine macrophages requires protein phosphatases 1 and 2A activities

The purpose of these studies was to identify phosphatase activities required for the production of nitric oxide in murine macrophages exposed to lipopolysaccharide (LPS), synthetic lipopeptide (LPP), and mouse interferon-gamma (IFN-gamma). The in vitro treatment of macrophages with IFN-gamma and LPS or IFN-gamma and LPP resulted in production of NO, which was inhibited by addition of the specific phosphatase 1 and 2A (PP1/2A) inhibitors okadaic acid (OA), calyculin A, and cantharidin (but not the nonactive analogues okadaic acid tetraacetate and 1,4-dimethylendothall). OA suppressed the accumulation of steady-state inducible NO synthase (iNOS) mRNA and iNOS protein (without alteration of their stability). The cytosol and nuclei of control macrophages contained large amounts of PP1/2A activities that were inhibited by OA in a dose-dependent manner. Taken together, these data indicate that PP1/2A activities are involved in the regulation of iNOS gene expression in murine macrophages.

SCH 51344 inhibits ras transformation by a novel mechanism

A pyrazolo-quinoline compound, 6-methoxy-4-[2-[(2-hydroxyethoxyl)-ethyl]amino]-3-methyl-1M-pyrazo lo [3,4-b]quinoline (SCH 51344), was identified based on its ability to derepress human smooth muscle alpha-actin promoter activity in ras-transformed cells. In this study, we show that SCH 51344 reverts several key aspects of ras transformation, such as morphological changes, actin filament organization, and anchorage-independent growth, and also inhibits Val-12 Ras-induced maturation of Xenopus oocytes. SCH 51344 is also a potent inhibitor of the anchorage-independent growth of human tumor lines known to contain multiple genetic alterations in addition to activated ras genes. We have sought to determine whether SCH 51344 disrupts the signaling pathway that activates mitogen-activated protein (MAP) kinase or extracellular signal-regulated kinase (ERK) in normal and ras-transformed fibroblast cells. NIH 3T3 cells transformed by different oncogenes, which have products that participate at different steps of the Ras signaling pathway, were tested in a soft-agar colony formation assay to determine which step of the pathway is inhibited by SCH 51344. Our results indicate that SCH 51344 inhibits the ability of v-abl, v-mos, H-ras, v-raf, and mutant active MAP kinase kinase-transformed NIH 3T3 cells to grow in soft agar. Only v-fos-transformed cells were found to be resistant to the treatment of SCH 51344. SCH 51344 treatment had very little effect, if any, on the activation of MAP kinase kinase, MAP kinase, and p90RSK activity in response to growth factor stimulation. Treatment of ras-transformed cells with SCH 51344 led to stimulation of serum response factor DNA binding activity and activation of serum response element-dependent gene transcription, accounting for its ability to activate alpha-actin promoter activity in ras-transformed cells. Our results indicate that SCH 51344 inhibits ras transformation by a novel mechanism and acts at a point either downstream or parallel to extracellular signal-regulated kinase-dependent Ras signaling pathway.

Neu differentiation factor is a neuron-glia signal and regulates survival, proliferation, and maturation of rat Schwann cell precursors

We show that beta forms of Neu differentiation factor (NDF), homologous to acetylcholine receptor-inducing activity, glial growth factor, and heregulin, prevent apoptotic death and stimulate DNA synthesis of the E14 Schwann cell precursor, an early cell in the rat Schwann cell lineage. When precursors are exposed to NDF in defined medium, they generate Schwann cells without the requirement for DNA synthesis and with a time course that is similar to that with which Schwann cells appear in embryonic nerves in vivo. Furthermore, a neuronal signal that also mediates precursor survival and maturation is blocked by the extracellular domain of the ErbB4 NDF receptor, a protein that specifically blocks the action of NDFs. These observations provide important evidence that NDF is one of the hitherto elusive neuron-glia signaling molecules long proposed to regulate development in the Schwann cell lineage.

Structural and thermotropic properties of synthetic C16:0 (palmitoyl) ceramide: effect of hydration

Differential scanning calorimetry (DSC) and X-ray diffraction techniques have been used to investigate the structure and thermotropic properties of synthetic, non-hydroxy fatty acid (16:0) ceramide (NFA(C16)CER) as a function of hydration. Anhydrous NFA(C16)CER shows a single, broad endothermic transition at 95.4 degrees C (delta H = 10.4 kcal/mol). On hydration, a broad exothermic transition appears at approximately 50-70 degrees C while the main endothermic transition decreases to 90.0 degrees C (delta H = 13.8 kcal/mol). The enthalpy of the exothermic transition increases with hydration to a maximum value, delta H = 4.8 kcal/mol. This polymorphic phase behavior depends on the low temperature incubation time and prior cooling rate. X-ray diffraction of fully hydrated NFA(C16)CER at 26 degrees C, shows a well-ordered lamellar phase with a bilayer periodicity d = 46.9 A. At 68 degrees C, above the first exothermic transition, X-ray diffraction shows again a lamellar phase with reduced bilayer periodicity d = 41.8 A and an increased number of both lamellar and wide-angle reflections indicative of enhanced layer and chain packing order, respectively. At 90.0 degrees C, above the main transition, the diffraction pattern shows a broad, intense reflection at 29.9 A and a diffuse reflection at 4.6 A, indicative of a melted chain phase. On cooling, NFA(C16)CER exhibits polymorphic phase behavior involving the conversion of the melted chain phase to a metastable bilayer phase. On heating, this metastable phase undergoes an exothermic transition to a stable bilayer phase; on further heating, NFA(C16)CER converts endothermically to the melted-chain phase.(ABSTRACT TRUNCATED AT 250 WORDS)

Kinetic analysis of the interactions of recombinant human VpreB and Ig V domains

The surrogate light chain, composed of VpreB and lambda 5/14.1 proteins, is selectively expressed on B cell precursors, and is important for B cell development. The surrogate light chain associates with cell surface mu-chains on preB cells, but little is known about the ligand specificity and affinity of VpreB binding. To analyze its interactions with Igs, we made recombinant human VpreB protein and measured its affinity for H and L chain V domains using surface plasmon resonance. The recombinant VpreB protein existed as a homodimer in solution. VpreB chains associated with each other with an apparent Kd = 5 x 10(-7) M, and bound to a human VH domain, a mouse VH domain, and a human VL domain with a similar affinity. VpreB protein also bound to human Fab fragments of IgG with an apparent Kd = 6 x 10(-7) M, but showed a very low affinity for human Fc fragments of IgG. VpreB-Fab complex formation was reproduced by the formation of a trimolecular VpreB-VH-VL complex. Thus, VpreB proteins can associate with each other and also form complexes with Ig at sites different from those involved in VH-VL interaction. By flow cytometry, biotinylated VpreB protein bound to surface Ig-positive B cells but not T cells. Receptors that contain VpreB could be cross-linked by either Ig or by self-association.

Kinetic analysis of the interactions of recombinant human VpreB and Ig V domains

The surrogate light chain, composed of VpreB and lambda 5/14.1 proteins, is selectively expressed on B cell precursors, and is important for B cell development. The surrogate light chain associates with cell surface mu-chains on preB cells, but little is known about the ligand specificity and affinity of VpreB binding. To analyze its interactions with Igs, we made recombinant human VpreB protein and measured its affinity for H and L chain V domains using surface plasmon resonance. The recombinant VpreB protein existed as a homodimer in solution. VpreB chains associated with each other with an apparent Kd = 5 x 10(-7) M, and bound to a human VH domain, a mouse VH domain, and a human VL domain with a similar affinity. VpreB protein also bound to human Fab fragments of IgG with an apparent Kd = 6 x 10(-7) M, but showed a very low affinity for human Fc fragments of IgG. VpreB-Fab complex formation was reproduced by the formation of a trimolecular VpreB-VH-VL complex. Thus, VpreB proteins can associate with each other and also form complexes with Ig at sites different from those involved in VH-VL interaction. By flow cytometry, biotinylated VpreB protein bound to surface Ig-positive B cells but not T cells. Receptors that contain VpreB could be cross-linked by either Ig or by self-association.

Direct correlation between expression of endogenous inducible nitric oxide synthase and regression of M5076 reticulum cell sarcoma hepatic metastases in mice treated with liposomes containing lipopeptide CGP 31362

The purpose of this study was to determine whether the activation of inducible nitric oxide synthase (iNOS) can serve as a target for immunotherapeutic agents for treatment of murine reticulum cell sarcoma metastases. Liver metastases were established by the i.v. injection of M5076 cells into syngeneic C57BL/6 mice. Multiple systemic administrations of multilamellar vesicle-liposomes (MLV) containing the lipopeptide CGP 31362 (MLV-31362) or MLV-31362 combined with murine IFN-gamma eradicated the metastases. Tumor regression correlated with iNOS expression within the tumor lesions detected by Northern blot and immunohistochemistry techniques and with increased production of nitric oxide (NO). The administration of a specific iNOS inhibitor, NG-methyl-L-arginine, significantly decreased NO production and diminished the antitumor activities of the immunomodulators. Consistent with the regression of hepatic metastases, the combination of MLV-31362 and IFN-gamma synergistically induced iNOS gene expression, NO production, and apoptosis in the tumor cells under in vitro and in vivo conditions. The addition of NMA prevented the production of NO and apoptosis. These data imply that multiple systemic administrations of MLV-31362 plus IFN-gamma activate endogenous iNOS in sarcoma cells, which then undergo apoptosis, leading in turn to the regression of M5076 sarcoma hepatic metastases.

Molecular mechanism and classification of von Willebrand disease

The characterization of mutations in von Willebrand disease provides useful insight into the synthesis, structure, and function of von Willebrand factor. This growing body of information has prompted a reclassification of vWD types that is intended to reflect distinct pathophysiologic mechanisms. Despite this apparent progress, many aspects of vWF biology and pathophysiology remain poorly understood. These include the mechanism by which binding of vWF to platelets is induced at sites of vascular injury, and the factors that influence the likelihood of bleeding symptoms in patients with vWD type 1.

Ultraviolet radiation reduces phagocytosis and intracellular killing of mycobacteria and inhibits nitric oxide production by macrophages in mice

Exposure of mice to a single or multiple low doses of ultraviolet radiation (UVR) decreases the induction of the delayed-type hypersensitivity (DTH) response to Mycobacterium bovis BCG and Mycobacterium lepraemurium (MLM) and impairs the clearance of bacteria from the lymphoid organs. This study is an attempt to address the mechanism by which UV radiation impairs the clearance of bacteria from the lymphoid organs by determining whether alterations in macrophage function such as ingestion and intracellular killing of mycobacteria or production of reactive nitrogen intermediates might be responsible for these effects. BALB/c or C3H/HeN mice were exposed to a single dose of UVB (280-320 nm) radiation ranging from 0.35 to 45 kJ/m2, and at regular intervals after irradiation, the peritoneal and splenic macrophages were collected, cultured, and infected with live BCG or MLM. Phagocytosis was assessed at 6 h by counting the number of acid-fast bacteria per macrophage after Ziehl-Neelsen staining. The rate of intracellular killing was assessed by lysing the macrophages at 6, 12, 24, and 48 h after BCG infection, plating the suspension on 7H11 agar, and counting the number of colony-forming units 21 days later. Similarly, the nitric oxide production, as measured by nitrite, by macrophages obtained from UVB-irradiated and nonirradiated mice in response to BCG was assessed. There was a significant reduction in the uptake of organisms by both peritoneal and splenic macrophages collected from UV-irradiated mice. The intracellular killing of organisms was also significantly reduced, as was the production of nitric oxide by peritoneal macrophages infected with BCG in vitro. These results indicate that UVR affects macrophage functions and are consistent with our hypothesis that impaired clearance of bacteria in vivo results from an alteration in macrophage function.

Further Evidence that the N(inf2)-Fixing Endophytic Bacterium from the Intercellular Spaces of Sugarcane Stems Is Acetobacter diazotrophicus

Nitrogen-fixing bacteria, isolated from the sugar solution in intercellular spaces of sugarcane stems, were compared with the type strain of Acetobacter diazotrophicus (PAL-5) and found to be congruent with it in all characters studied. These characters were 37 morphological and biochemical tests, cellular fatty acid composition, and nitrogenase activity. The nitrogenase activity was measured by acetylene reduction and H(inf2) evolution and found to be unusual in that the H(inf2) evolution was suppressed much less than expected by high concentrations of acetylene.

Transformation reversion induced in JB6 RT101 cells by AP-1 inhibitors

The present study was directed to characterizing the reversion of neoplastic epidermal JB6 RT101 cells by AP-1 inhibiting drugs. Treatment of tumorigenic JB6 RT101 cells with retinoic acid (RA), fluocinolone acetonide (FA) or forskolin (FN) induced drug dependent (reversible) reversion of transformation. A synergistic effect on reversion was found with the three drugs in combination. Cells reverted by these three drugs also showed reduced levels of AP-1 transcription factor activity. After long term exposure of RT101 cells to FA, enrichment of flat revertants occurred in the population while a few unreverted cells formed foci. These unreverted cells appeared to be FA-resistant. Cloning of cells following RA treatment revealed stable reversion at least 2 months after drug withdrawal. Stable revertants showed lower basal AP-1 activity than RT101 cells (P < 0.01) and unstable revertants returned to transformed phenotype and elevated AP-1 activity within days following drug withdrawal. To our knowledge this is the first demonstration that drug induced reversion co-selects for reduced AP-1 activity. These data suggest that the JB6 RT101 cell line is a useful cell model for studying reversion of transformation and that inhibition of AP-1 activity may be one molecular mechanism of reversion. Considering the development of resistance with FA alone and the relative inefficiency of RA or FN alone, combinations of the three AP-1 activity inhibitors RA, FA and FN may be useful for further animal and clinical studies.

[Protective effect of total flavonoids of radix Astragali on mammalian cell damage caused by hydroxyl radical]

The protective effect of total flavonoids of Radix Astragali (TFA) on V79 cell damage caused by H2O2-Fe2+ system has been studied. The results show that total flavonoids of Radix Astragali inhibit lipid peroxides and increase SOD activity. It has also been found that TFA has different protective effect against various damages of V79 cells caused by hydroxyl radical.

Transfection with the inducible nitric oxide synthase gene suppresses tumorigenicity and abrogates metastasis by K-1735 murine melanoma cells

Previous studies from our laboratory demonstrated an inverse relationship between the expression level of inducible nitric oxide synthase (iNOS) and the metastatic potential of murine K-1735 melanoma cells. The purpose of this study was to provide direct evidence that the expression of iNOS suppresses metastatic potential of melanoma cells. Highly metastatic K-1735 clone 4 cells (C4.P), which express low levels of iNOS, were transfected with a functional iNOS (C4.L8), inactive-mutated iNOS (C4.S2), or neomycin-resistance (C4.Neo) genes in medium containing 3 mM NG-methyl-L-arginine (NMA). Positive transfectants were identified by Southern and Northern blot analyses and homogeneous staining with a specific anti-iNOS monoclonal antibody. Semiconfluent cultures of C4.P (parental), C4.Neo.3 (control transfection), C4.S2.3 (inactive iNOS), and C4.L8.5 (functional iNOS) were harvested, and viable cells were injected intravenously into syngeneic C3H/HeN mice and allogeneic BALB/c nude mice. C4.P, C4.Neo.3, and C4.S2.3 cells were highly metastatic whereas C4.L8.5 cells were not metastatic. Experiments with [125I]dUrd-labeled tumor cells demonstrated that the initial arrest in the lung microvasculature did not differ among the lines, but that C4.L8.5 cells died by 48-72 h after injection. Enhanced survival of all K-1735 C4 cells (including C4.L8.5) was found in mice given twice daily injections of 20 mg NMA. The C4.L8.5 cells produced slow growing subcutaneous tumors in nude mice, whereas the other three lines produced fast growing tumors. In vitro studies confirmed that in the absence of NMA the expression of iNOS in C4.L8.5 cells induced apoptosis. Collectively, these data demonstrate that the expression of recombinant iNOS in melanoma cells is associated with apoptosis, suppression of tumorigenicity, and abrogation of metastasis.

3,4-Diaminopyridine induced hydrolysis of phosphoinositide in cultured neurons from embryo chick forebrain

The effect of 3,4-diaminopyridine (DAP) on phosphoinositide hydrolysis in cultured neurons from embryo chick forebrain has been studied. DAP produced a dose- and time-dependent accumulation of inositol phosphates. At 1 mM DAP a maximal effect was obtained. In Ca2+ free medium, DAP-activated turnover of phosphoinositide was reduced, but was still significant. Blocking Ca2+ entry with 200 microM Cd2+ also did not abolish the DAP-induced accumulation of inositol phosphates. As a comparison the effect of high K+ exposure was investigated. High K+ enhanced phosphoinositide hydrolysis, and this effect was also reduced by excluding Ca2+ influx. Moreover, DAP had no additional effect on the high K(+)-induced hydrolysis of phosphoinositide. Using oxonol-V, a depolarization of the membrane potential was seen in the neurons bathed in DAP containing medium. It is suggested that the depolarization may play a role in DAP-activated phosphoinositide turnover in cultured neurons of the embryo chick forebrain, but that Ca2+ entry is not necessary for this effect.

Activation and cytotoxicity of 2-alpha-aminoacyl prodrugs of methotrexate

In an effort to improve the selectivity of the anticancer drug methotrexate (MTX), a series of potential prodrugs in which the 2-amino group was acylated with various alpha-amino acids (as well as L-pyroglutamic acid) was synthesized. Such derivatives are anticipated to be hydrolysed to MTX by appropriate aminopeptidases localized (over-expressed naturally or targeted as anti-tumor antibody conjugates) in the vicinity of the tumor. The L-leucyl, L-valyl, L-isoleucyl, D-alanyl and L-pyroglutamyl derivatives were assessed as to their suitability as prodrugs. Except for the L-pyroglutamyl compound, all derivatives decomposed slowly when incubated in phosphate buffer, pH 7.3; the formation of MTX was minimal. No major differences were observed when serum was included in the incubation medium, except for the L-leucyl compound, which was hydrolysed to MTX. The L-leucyl, L-valyl and L-isoleucyl derivatives were hydrolysed readily to MTX by aminopeptidase M (EC 3.4.11.2), while the L-pyroglutamyl and D-alanyl compounds were activated by pyroglutamate aminopeptidase (EC 3.4.19.3) (from Bacillus amyloliquefaciens) and D-aminopeptidase (from Ochrobactrum anthropi), respectively. When tested for inhibition of the target enzyme dihydrofolate reductase (DHFR; EC 1.5.1.3), 2-L-valyl-MTX showed inhibition two orders of magnitude poorer than that given by MTX, in agreement with the expectation that acylation of the 2-amino group reduces binding to DHFR. After treatment of this derivative with aminopeptidase M, the extent of inhibition correlated with the amount of MTX formed. MTX derivatives alone or in combination with the complementary peptidase were tested for cytotoxicity on murine L1210 cells in culture. The above-listed derivatives were considerably less cytotoxic than MTX, except for the L-leucyl derivative which showed considerable cytotoxicity. When the appropriate exogenous peptidase was included, the cytotoxicity of the activated prodrugs approached that of MTX. These results indicate that 2-L-leucyl-MTX is unsuitable as a prodrug since it is activated prematurely by serum enzymes. Although the L-valyl and L-isoleucyl derivatives do not hydrolyse to MTX in serum and are readily activated, they are not ideal prodrugs since they decompose under physiological conditions; the properties of the decomposition product will have a bearing on the ultimate suitability of these compounds. 2-L-Pyroglutamyl-MTX is the best candidate prodrug, showing stability and ready activation by the appropriate aminopeptidase.

Level and function of epidermal growth factor receptor predict the metastatic potential of human colon carcinoma cells

The purpose of this study was to determine whether production of liver metastasis by human colon carcinoma (HCC) cells depends on the response of tumor cells to organ-derived growth factors. HCC cells were isolated from several surgical specimens whose malignant potential differed (Dukes' stage B or D tumors), adapted to grow in culture, and assessed for expression of the epidermal growth factor receptor (EGF-R). Northern blot analyses revealed that highly metastatic HCC cells expressed >5-fold the number of EGF-R mRNA transcripts as low metastatic cells. The level of mRNA correlated with the amount of EGF-R protein as detected by Western blotting, immunohistochemistry, and Scatchard analyses. HCC growth response in vitro to picograms of transforming growth factor alpha was associated with functional cell surface EGF-Rs as determined by receptor tyrosine kinase activity assays. The EGF-R gene was not amplified or rearranged in highly metastatic cells. However, fluorescence in situ hybridization analysis showed that the copy number of chromosome 7 was higher in the highly metastatic cells. HCC cells were selected in vitro for low or high expression of EGF-R. Subsequent to injection into nude mice, only cells with high expression of EGF-R produced a high incidence of liver metastasis. These data demonstrate that expression of EGF-R by HCC cells directly correlates with their ability to produce hepatic metastasis.

von Willebrand's factor and von Willebrand's disease

von Willebrand's factor is required for platelet adhesion to subendothelium, and for normal factor VIII survival in the circulation. These functions require the assembly of von Willebrand's factor into multimers that exhibit properly regulated binding to platelet glycoprotein lb. Recent studies suggest that the propeptide of von Willebrand's factor may catalyze multimer assembly and have identified new segments of von Willebrand's factor that appear to regulate its affinity for glycoprotein lb. Two segments of von Willebrand's factor have been found to interact with collagen type VI, which is a candidate binding site for von Willebrand's factor in the subendothelium. Advances in the identification of mutations have prompted a reclassification of von Willebrand's disease. ABO antigens on von Willebrand's factor may impair the efficacy of plasma or recombinant von Willebrand's factor when administered to patients with incompatible ABO blood type.

[Effect of verapamil on Ca2+ and Ca(2+) Mg(2+)-ATPase activity in rat brain synaptosomes]

To elicit the correlation between the adrenergic transmitter release and calmodulin (CaM), the effect of verapamil on the free Ca2+ concentration was measured with fluorescence analysis and Ca(2+) Mg(2+)-ATPase activity in rat synaptosomes were studied. When stimulated with high-K+ or norepinephrine, the concentration of free Ca2+ in rat synaptosome was increased by verapamil 10, 50, and 100 mumol.L-1. But the free Ca2+ concentration in the resting synaptosome was reduced by verapamil. The activity of Ca(2+) Mg(2+)-ATPase in synaptosome was remarkably inhibited by verapamil in a dose-dependent manner. These results support our hypothesis that CaM not only acts directly on the vesicles to enhance the transmitter release, but also acts on the activity of Ca(2+) Mg(2+)-ATPase to reduce the free Ca2+ in the cytosol, and indirectly inhibited the transmitter release.

Function of bone marrow stromal cell lines derived from nude mice

We previously reported that in double deficient nude.xid mice B cells failed to develop and their bone marrow did not produce mature B cells in vitro. However, when progenitors from nude.xid bone marrow were placed on a preestablished normal stromal cell line (AC6) they differentiated into surface IgM+ cells. This raised the possibility of a deficiency of nude and nude.xid stromal cells such that they were incapable of supporting the maturation of X-linked immune deficiency (xid) B cells. Here we ask whether bone marrow stromal cells from nude and nude.xid mice have the ability to support xid B cell lymphopoiesis. A primary stromal cell layer derived from nude mice supported xid B cell differentiation in vitro. We derived panels of stromal cell lines by transfection of primary stromal cell layers with a retrovirus encoding SV40 large T Ag. Several bone marrow stromal cell lines derived from nude and nude.xid mice supported xid B cell differentiation from CD43+/CD45 (B220-) to CD45 (B220+) and from CD45 (B220+)/surface IgM- to surface IgM+. Supporting cell lines expressed both IL-7 and insulin-like growth factor I. The frequencies of bone marrow stromal cells capable of supporting xid B cell differentiation were similar in normal, xid, nude, and nude.xid mice. These results demonstrate that nude and nude.xid mice have bone marrow stromal cells with normal abilities to support B cell maturation.

Function of bone marrow stromal cell lines derived from nude mice

We previously reported that in double deficient nude.xid mice B cells failed to develop and their bone marrow did not produce mature B cells in vitro. However, when progenitors from nude.xid bone marrow were placed on a preestablished normal stromal cell line (AC6) they differentiated into surface IgM+ cells. This raised the possibility of a deficiency of nude and nude.xid stromal cells such that they were incapable of supporting the maturation of X-linked immune deficiency (xid) B cells. Here we ask whether bone marrow stromal cells from nude and nude.xid mice have the ability to support xid B cell lymphopoiesis. A primary stromal cell layer derived from nude mice supported xid B cell differentiation in vitro. We derived panels of stromal cell lines by transfection of primary stromal cell layers with a retrovirus encoding SV40 large T Ag. Several bone marrow stromal cell lines derived from nude and nude.xid mice supported xid B cell differentiation from CD43+/CD45 (B220-) to CD45 (B220+) and from CD45 (B220+)/surface IgM- to surface IgM+. Supporting cell lines expressed both IL-7 and insulin-like growth factor I. The frequencies of bone marrow stromal cells capable of supporting xid B cell differentiation were similar in normal, xid, nude, and nude.xid mice. These results demonstrate that nude and nude.xid mice have bone marrow stromal cells with normal abilities to support B cell maturation.

A Nitrogen-Fixing Endophyte of Sugarcane Stems (A New Role for the Apoplast)

The intercellular spaces of sugarcane (Saccharum officinarum L.) stem parenchyma are filled with solution (determined by cryoscanning microscopy), which can be removed aseptically by centrifugation. It contained 12% sucrose (Suc; pH 5.5.) and yielded pure cultures of an acid-producing bacterium (approximately 104 bacteria/mL extracted fluid) on N-poor medium containing 10% Suc (pH 5.5). This bacterium was identical with the type culture of Acetobacter diazotrophicus, a recently discovered N2-fixing bacterium specific to sugarcane, with respect to nine biochemical and morphological characteristics, including acetylene reduction in air. Similar bacteria were observed in situ in the intercellular spaces. This demonstrates the presence of an N2-fixing endophyte living in apoplastic fluid of plant tissue and also that the fluid approximates the composition of the endophytes's optimal culture medium. The apoplastic fluid occupied 3% of the stem volume; this approximates 3 tons of fluid/ha of the crop. This endogenous culture broth consisting of substrate and N2-fixing bacteria may be enough volume to account for earlier reports that some cultivars of sugarcane are independent of N fertilizers. It is suggested that genetic manipulation of apoplastic fluid composition may facilitate the establishment of similar symbioses with endophytic bacteria in other crop plants.