La actividad de la Caspasa-1 como gen sensibilizador a radio y quimioterapia es independiente de las vías de JNK y p38 / Caspase-1 as a radio and chemosensitizer regardless of JNK and p38 pathways

El efecto citotóxico de las drogas antitumorales es producido mediante la inducción de apoptosis. Esta observaciónimplica la posibilidad de que los factores que afecten la activación de caspasas pueden ser determinantesimportantes como sensibilizantes a los tratamientos antitumorales. Aquí, examinamos el efecto de la sobreexpresiónde caspasa-1 en la respuesta a la quimio y radioterapia. La expresión de la caspasa-1 mediada porun vector adenoviral fue capaz de matar directamente a las células y de sensibilizar las restantes a cisplatino oradiación gamma in vitro. En células HeLa transfectadas establemente con caspasa-1, la sensibilización a cisplatinofue debida a una amplificación en la vía mitocondrial de apoptosis inducida por cisplatino pero esteefecto es independiente del estado de p53, JNK o p38 en la célula

The cytotoxic effect of anticancer drugs has been shown to involve induction of apoptosis. This observationraises the possibility that factors affecting caspase activation might be important determinants as anticancerdrug sensitivity. Ectopic expression of caspase-1 has been shown to trigger apoptosis. Here, we examine theeffect of caspase-1 over-expression on the response to chemotherapy and radiotherapy. Caspase-1 expressionmediated by an adenoviral vector was able to kill directly cells and to sensitize the remaining cells to cisplatinor ã-radiation in vitro. In HeLa cells stably transfected with caspase-1, sensitisation to cisplatin was due to anamplification of the cisplatin-induced mitochondrial apoptotic pathway activation but this effect is independentof p53, JNK or p38 status

Cbl-b, a member of the Sli-1/c-Cbl protein family, inhibits Vav-mediated c-Jun N-terminal kinase activation.

We have used the yeast two-hybrid system to identify proteins that interact with Vav, a GDP/GTP exchange factor for the Rac-1 GTPase that plays an important role in cell signaling and oncogenic transformation. This experimental approach resulted in the isolation of Cbl-b, a signal transduction molecule highly related to the mammalian c-cbl proto-oncogene product and to the C. elegans Sli-1 protein, a negative regulator of the EGF-receptor-like Let23 protein. The interaction between Vav and Cbl-b requires the entire SH3-SH2-SH3 carboxy-terminal domain of Vav and a long stretch of proline-rich sequences present in the central region of Cbl-b. Stimulation of quiescent rodent fibroblasts with either epidermal or platelet-derived growth factors induces an increased affinity of Vav for Cbl-b and results in the subsequent formation of a Vav-dependent trimeric complex with the ligand-stimulated tyrosine kinase receptors. During this process, Vav, but not Cbl-b, becomes highly phosphorylated on tyrosine residues. Overexpression of Cbl-b inhibits the signal transduction pathway of Vav that leads to the stimulation of c-Jun N-terminal kinase. By contrast, expression of truncated Cbl-b proteins and of missense mutants analogous to those found in inactive Sli-1 proteins have no detectable effect on Vav activity. These results indicate that Vav and Cbl-b act coordinately in the first steps of tyrosine protein kinase receptor-mediated signaling and suggest that members of the Sli-1/Cbl family are also negative regulators of signal transduction in mammalian cells.

Post-transcriptional induction of beta 1-adrenergic receptor by retinoic acid, but not triiodothyronine, in C6 glioma cells expressing thyroid hormone receptors.

Thyroid hormone (triiodothyronine; T3) has been shown to control the expression of beta 1-adrenergic receptors (beta 1-AR) in cardiac myocytes, but not in C6 glioma cells. This cell specificity has been attributed to low expression of T3 receptors and high expression of the c-erbA alpha 2 splice variant that interferes with the action of T3. To check this hypothesis we have expressed the c-erbA/thyroid hormone receptor (TR) alpha 1 gene in C6 glioma cells and investigated their response to thyroid hormone. Cells expressing TR alpha 1, but not wild-type cells, were responsive to T3 as shown by increased expression of mitochrondrial hydroxymethylglutaryl CoA synthase after T3 exposure. However, T3 had no effect on beta 1-AR gene expression in either set of cells. The beta 1-AR mRNA concentrations were, however, altered by retinoic acid (RA) treatment. Retinoic acid caused a rapid up-regulation of beta 1-AR mRNA levels that was blocked by cycloheximide. Retinoic acid did not increase the beta 1-AR gene transcription rate in run-on experiments. These results indicate an indirect post-transcriptional effect of RA. Control of beta 1-AR expression in C6 cells is also exerted at the translational level, because there was no correlation between mRNA and protein induction, as determined by radioligand binding studies. We conclude that lack of responsiveness of the beta 1-AR gene in C6 cells to T3 is not due to high expression of c-erbA alpha 2 but to undefined cell-specific factors.

Rac-1 dependent stimulation of the JNK/SAPK signaling pathway by Vav.

The protein product of the human vav oncogene, Vav exhibits a number of structural motifs suggestive of a role in signal transduction pathways, including a leucine-rich region, a plekstrin homology (PH) domain, a cysteine-rich domain, two SH3 regions, an SH2 domain, and a central Dbl homology (DH) domain. However, the transforming pathway(s) activated by Vav has not yet been elucidated. Interestingly, DH domains are frequently found in guanine nucleotide-exchange factors for small GTP-binding proteins of the Ras and Rho families, and it has been recently shown that, whereas Ras controls the activation of mitogen activated kinases (MAPKs), two members of the Rho family of small GTPases, Rac 1 and Cdc42, regulate activity of stress activated protein kinases (SAPKs), also termed c-jun N-terminal kinases (JNKs). The structural similarity between Vav and other guanine nucleotide exchange factors for small GTP-binding proteins, together with the recent identification of biochemical routes specific for members of the Ras and Rho family of GTPases, prompted us to explore whether MAPK or JNK are downstream components of the Vav signaling pathways. Using the COS-7 cell transient expression system, we have found that neither Vav nor the product of the vav proto-oncogene, proto-Vav, can enhance the enzymatic activity of a coexpressed, epitope tagged MAPK. On the other hand, we have observed that, whereas proto-Vav can slightly elevate JNK/SAPK activity, oncogenic Vav potently activates JNK/SAPK to an extent comparable to that elicited by two guanine-nucleotide exchange factors for Rho family members, Dbl and Ost. We also show that point mutations in conserved residues within the cysteine rich and DH domains of Vav both prevent its ability to activate JNK/SAPK and render Vav oncogenically inactive. In addition, we found that coexpression of the Rac-1 N17 dominant inhibitory mutant dramatically diminishes JNK/SAPK stimulation by Vav, as well as reduces the focus-forming ability of Vav in NIH3T3 murine fibroblasts. Taken together, these findings provide the first evidence that Rac-1 and JNK are integral components of the Vav signaling pathway.

The TC21 oncoprotein interacts with the Ral guanosine nucleotide dissociation factor.

TC21 is a highly oncogenic member of the Ras superfamily of small GTP binding proteins. We have used the yeast two hybrid system to identify proteins that interact with an oncogenic form of the TC21 protein. cDNA clones encoding the carboxy-terminal region of the RalGDS protein were isolated from human B-cell and HeLa cDNA libraries. RalGDS is an exchange factor that stimulates GDP dissociation from Ral, another member of the Ras superfamily of proteins. The interaction between RalGDS to TC21 is direct and appears to be mediated by the effector domain of TC21 and the carboxy-terminal region of RalGDS. Moreover, RalGDS only binds to TC21 in its active, GTP-loaded configuration. These results suggest that RalGDS might be an effector molecule for TC21 and may participate in cross-talking between Ral and TC21 signalling pathways.

Induction of platelet-derived growth factor B/c-sis by the v-erbA oncogene in glial cells.

The v-erbA oncogene codes for a mutated form of the thyroid hormone receptor TR/c-erbA-alpha. Thyroid hormone (triiodothyronine, T3) regulates glial functions such as myelination and both astrocytes and oligodendrocytes have been shown to express thyroid hormone receptors (TRs). To study putative effects of v-erbA on glial precursors, we have expressed it in a glial clonal cell line established from early embryonal mouse brain. We have found that v-erbA increases cell survival in serum-free conditions. Moreover, v-erbA-expressing cells show a substantial growth in the presence of insulin or IGF-I, whereas normal and TR/c-erbA-over-expressing cells progressively degenerate. By Northern blotting, immunofluorescence, immunoprecipitation, and neutralization experiments, we show that v-erbA actions are mediated by an increase in the levels of PDGF B/c-sis mRNA and protein. We used anti-PDGF receptor and anti-phosphotyrosine antibodies to show the constitutive activation of PDGF receptors in B3.1 + v-erbA cells, and neutralizing anti-PDGF antibodies to demonstrate that v-erbA enhances the secretion of active PDGF into the culture medium. Our data indicate that v-erbA induces PDGF B/c-sis, a factor involved in the generation of gliomas, the most common central nervous system tumor in humans.

Thyroid hormone regulates stromelysin expression, protease secretion and the morphogenetic potential of normal polarized mammary epithelial cells.

Stromelysins are a group of proteases which degrade the extracellular matrix and activate other secreted proteases. Stromelysin (ST)-1 and ST-2 genes are induced by tumor promoters, oncogenes and growth factors, and have been involved in acquisition of the malignant phenotype. We show here that the thyroid hormone (T3) increases ST-1 and ST-2 expression in a non-transformed mouse mammary epithelial cell line (EpH4) in a way that is dependent on the level of thyroid receptor/c-erbA (TR alpha-1) expression. In agreement with this, T3 increases the secreted stromelysin activity and enhances the gelatinolytic activity of type IV collagenase. We have also demonstrated that T3 affects the epithelial polarity of EpH4 cells, diminishing the transepithelial electrical resistance of monolayers cultured on permeable filters, causing an abnormal distribution of polarization markers and the disruption of the organized 3-D structures formed by these cells in type I collagen gels. These results indicate that the ligand-activated TR alpha-1 plays an important role in regulating the morphogenetic and invasive capacities of mammary epithelial cells. Because the c-erbA locus is altered in several types of carcinoma, an altered or deregulated TR alpha-1 expression may also be important for breast cancer development and metastasis.

c-erbA and v-erbA modulate growth and gene expression of a mouse glial precursor cell line.

The c-erbA alpha protooncogene coding for the thyroid hormone (T3) receptor (TR alpha 1) and the viral, mutated v-erbA oncogene were expressed in an immortal mouse glial cell line (B3.1) using retroviral vectors. c-erbA alpha expression led to a decrease in cell proliferation in high and low serum conditions, both in the presence and in the absence of T3. In serum-free medium, c-erbA-expressing cells (B3.1 + TR alpha 1) were completely arrested, whereas cells expressing v-erbA (B3.1 + v-erbA) showed a higher DNA synthesis rate than normal B3.1 cells. Although proliferation of all three cell types was stimulated by platelet-derived growth factor and basic fibroblast growth factor, differences were also observed in the response to these agents. B3.1 + TR alpha 1 cells were more sensitive to platelet-derived growth factor than B3.1 and B3.1 + v-erbA cells. In contrast, B3.1 cells responded to basic fibroblast growth factor better than B3.1 + TR alpha 1 or B3.1 + v-erbA cells. Insulin-like growth factor I potentiated the action of platelet-derived growth factor and basic fibroblast growth factor. Again, different responses to treatment with insulin-like growth factor I alone were observed; B3.1 + TR alpha 1 cells did not respond to it, whereas B3.1 + v-erbA cells showed a dramatic stimulation by this agent. Interestingly, in the presence of T3, the blockade in B3.1 + TR alpha 1 cell proliferation was accompanied by the down-regulation of the typical astrocytic genes, glial fibrillary acidic protein and vimentin. These hormone effects were not found in v-erbA-expressing cells. In addition, v-erbA inhibited the basal expression of the cyclic nucleotide phosphodiesterase gene, an oligodendrocytic marker.(ABSTRACT TRUNCATED AT 250 WORDS)

Retinoic acid posttranscriptionally up-regulates proteolipid protein gene expression in C6 glioma cells.

The proteolipid protein (PLP) gene codes for the major central nervous system myelin protein. We have studied the effects of different agents on the expression of the PLP gene in C6 glioma cells. Retinoic acid (RA), but not dexamethasone, estradiol, insulin, growth hormone, or vitamin D3, had a drastic effect, increasing 10-20-fold the level of PLP mRNA. Concomitantly, RA also induced the appearance of the corresponding immunoreactive protein. The increase in PLP RNA level showed a slow kinetics and was blocked by cycloheximide, suggesting a posttranscriptional regulation by RA. Nuclear run-on assays confirmed that the rate of PLP gene transcription was unchanged by RA. In contrast, we found that retinoic acid augmented PLP mRNA stability, causing a substantial increase in its half-life. RA action was independent of cell density, serum, or PDGF but was partially inhibited by bFGF. On the other hand, thyroid hormone caused a moderate increase in PLP mRNA levels in C6 cells but only when the low numbers of thyroid receptors in these cells were increased by retrovirally mediated expression of an exogenous c-erbA/TR alpha-1 gene. Our results indicate that RA specifically up-regulates PLP expression in glioma C6 cells at a posttranscriptional level by increasing PLP RNA half-life.

Kinetic evidence of a rapid activation of phosphatidylcholine hydrolysis by Ki-ras oncogene. Possible involvement in late steps of the mitogenic cascade.

A novel phospholipase C specific for phosphatidylcholine has been shown to be activated by several agonists. Also, recent evidence suggests that transformation mediated by the ras oncogene possibly involves the activation of this novel phospholipid degradative pathway which would account for the increased diacylglycerol levels associated with transformation. Here we use a mutant of Ki-ras which is temperature-sensitive for transformation to investigate the kinetics of activation of the phosphodiesterase-mediated turnover of phosphatidylcholine. Upon shift to the permissive temperature, products of the activated phosphatidylcholine-specific phospholipase C were detected by 30 min and reached maximal levels by 1-2 h. These results suggest that the product of the ras oncogene rapidly activates the phosphodiesteratic hydrolysis of phosphatidylcholine. Furthermore, the fact that at least 4 h are required for serum to activate this phospholipase C strongly suggests that the ras oncogene product might be involved in late steps of the mitogenic signaling cascade.

Phospholipase C-mediated hydrolysis of phosphatidylcholine is an important step in PDGF-stimulated DNA synthesis.

Recent evidence suggests the involvement of phosphatidylcholine (PC) hydrolysis both in the control of normal cell growth and in transformation. We show here that the simple exogenous addition of Bacillus cereus PC-hydrolyzing phospholipase C (PC-PLC) is sufficient to elicit a potent mitogenic response in Swiss 3T3 fibroblasts by a mechanism that is independent of protein kinase C. Our results on the additivity and synergism between B. cereus PC-PLC, PDGF, and insulin in the mitogenic response indicate that this novel phospholipid degradative pathway may be important in the mitogenic signaling cascade activated by PDGF.

Phospholipase C-mediated hydrolysis of phosphatidylcholine is activated by muscarinic agonists.

The phospholipase C-catalysed breakdown of inositol-containing phospholipids is an important source of diacylglycerol in cells stimulated by several agonists. However, recent experimental evidence suggests that major phospholipids such as phosphatidylcholine may also be substrates of the phosphodiesteratic hydrolysis activated by hormones, growth factors and oncogene products. We show here that stimulation of muscarinic agonists activates the release of phosphocholine, which, along with diacylglycerol, is a metabolic product of phospholipase C-mediated hydrolysis of phosphatidylcholine. Fluoroaluminates mimic this muscarinic effect, strongly suggesting that carbachol-activated release of phosphocholine may be mediated by a guanine-nucleotide-binding protein. Evidence for this was obtained from experiments using permeabilized cells in which non-hydrolysable analogues of GTP activated phosphocholine release synergistically with carbachol.

The calcium signal for Balb/MK keratinocyte terminal differentiation induces sustained alterations in phosphoinositide metabolism without detectable protein kinase C activation.

Balb/MK keratinocytes require epidermal growth factor for proliferation and terminally differentiate in response to elevated extracellular Ca2+ concentrations. The molecular pathways controlling cell differentiation in this system have yet to be established. We show that a dramatic and sustained activation of phosphoinositide metabolism is produced upon addition of Ca2+ to Balb/MK cultures. The pattern of inositol trisphosphate isomers released in response to Ca2+ challenge appeared to be atypical. Inositol 1,3,4-trisphosphate release was observed by 30s and was produced earlier than any alteration in inositol 1,4,5-trisphosphate levels. Concomitant with the liberation of inositol phosphates, an increased production of diacylglycerol was observed. Despite a 3-fold increase in diacylglycerol levels detected even at 12 h after Ca2+ addition, no evidence of functional activation or down-regulation of protein kinase C was found. This was established by measuring p80 phosphorylation, epidermal growth factor binding, and protein kinase C levels by immunoblotting. Analysis of the diacylglycerol generated following Ca2+ addition to Balb/MK cells revealed that a significant proportion of that lipid was an alkyl ether glyceride molecular species. Therefore, it is possible that this diacylglycerol molecular species may play a role in the Ca2+-induced differentiation program of Balb/MK cells through mechanisms other than stimulation of classical protein kinase C.