Protein Kinase C Activation and Lipid Peroxidation by Doxorubicin Analogues

Several doxorubicin analogues have been tested for their capacity to activate protein kinase C (PKC) and to induce lipid peroxidation in intact human platelets. Only doxorubicin and 4′-iodo-doxorubicin were able to induce lipid peroxidation and PKC activation the first beeing the most effective. N-acetyl-doxorubicin, N-trifluoroacetyl-doxorubicin-14-valerate (AD32) and doxorubicin-14-propionate were not effective on either event. This correlation supports that PKC activation in human platelets by doxorubicin is mediated by lipid peroxidation and suggests that the effect is specific for anthracyclines with a doxorubicin aglycone and a free charged amino group in the sugar moiety. The results stress the new action of anthracyclines, whose pharmacologic implications are presently under investigation on nucleated cells.

Proteomics study of medullary thyroid carcinomas expressing RET germ-line mutations: identification of new signaling elements

Proteomics may help to elucidate differential signaling networks underlying the effects of compounds and to identify new therapeutic targets. Using a proteomic-multiplexed analysis of the phosphotyrosine signaling together with antibody-based validation techniques, we identified several candidate molecules for RET (rearranged during transfection) tyrosine kinase receptor carrying mutations responsible for the multiple endocrine neoplasia type 2A and 2B (MEN2A and MEN2B) syndromes in two human medullary thyroid carcinoma (MTC) cell lines, TT and MZ-CRC-1, which express the RET-MEN2A and RET-MEN2B oncoproteins, respectively. Signaling elements downstream of these oncoproteins were identified after treating cells with the indolinone tyrosine kinase inhibitor RPI-1 to knock down RET phosphorylation activity. We detected 23 and 18 affinity-purified phosphotyrosine proteins in untreated TT and MZ-CRC-1 cells, respectively, most of which were shared and sensitive to RPI-1 treatment. However, our data clearly point to specific signaling features of the RET-MEN2A and RET-MEN2B oncogenic pathways. Moreover, the detection of high-level expression of minimally phosphorylated epidermal growth factor receptor (EGFR) in both TT and MZ-CRC-1 cells, together with our data on the effects of EGF stimulation on the proteomic profiles and the response to Gefitinib treatment, suggest the relevance of EGFR signaling in these cell lines, especially since analysis of 14 archival MTC specimens revealed EGFR mRNA expression in all samples. Together, our data suggest that RET/EGFR multi-target inhibitors might be beneficial for therapy of MTC.

Antitumour and antiangiogenic effects of IDN 5390, a novel C-seco taxane, in a paclitaxel-resistant human ovarian tumour xenograft

IDN 5390 is a novel C-seco taxane analogue selected for preclinical development on the basis of its antimotility activity on endothelial cells, antitumour efficacy in a large panel of human tumour xenografts and high tolerability in mouse. On the basis of oral availability, IDN 5390 is suitable for protracted administration schedules. Such a treatment schedule has been reported as the most appropriate to exploit the antiangiogenic effects of cytotoxic drugs. An ability to downregulate angiogenesis-related growth factors in tumour cells has been described for IDN 5390. The aim of the study was to investigate the antitumour and antiangiogenic potential of oral IDN 5390 on a human ovarian carcinoma xenograft, the INT.ACP/PTX, resistant to paclitaxel (PTX). Such tumour line was derived in vivo from a cisplatin-resistant tumour line, the A2780/DDP, which is sensitive to PTX. Compared to the parental cells, INT.ACP/PTX cells exhibited a high level of Pgp expression, resulting in a reduced in vitro sensitivity to both PTX and IDN 5390. The INT.ACP/PTX tumour xenograft was still resistant to PTX, but responsive to IDN 5390, when delivered per os, by a daily prolonged schedule. A direct effect on tumour cells, allowed by the high tolerability of the compound in mouse, cannot be excluded in vivo. Immunohistochemical analysis indicated a significant reduction of microvessel density in IDN 5390-treated tumours, lasting till 7 days after the last drug administration. Thus, a prolonged inhibitory effect on tumour angiogenesis is consistent with the persistent growth control of INT.ACP/PTX tumour achieved by IDN 5390. On the contrary, the low tolerability and the limited oral availability of conventional taxanes do not allow an easy feasibility of such treatment regimen. Thus, the tolerability profile of IDN 5390 in preclinical systems and its efficacy in PTX-resistant tumours support the therapeutic interest for its clinical development, with particular attention to oral daily prolonged schedules.

Induction of apoptosis and stress response in ovarian carcinoma cell lines treated with ST1926, an atypical retinoid

To understand the molecular mechanisms mediating apoptosis induction by a novel atypical retinoid, ST1926, the cellular response to drug treatment was investigated in IGROV-1 ovarian carcinoma cells carrying wild-type p53 and a cisplatin-resistant p53 mutant subline (IGROV-1/Pt1). Despite a similar extent of drug-induced DNA strand breaks, the level of apoptosis was substantially higher in p53 wild-type cells. p53 activation and early upregulation of p53-target genes were consistent with p53-dependent apoptosis in IGROV-1 cells. Stress-activated protein kinases were activated in both cell lines in response to ST1926. This event and activation of AP-1 were more pronounced in IGROV-1/Pt1 cells, in which the modulation of DNA repair-associated genes suggests an increased ability to repair DNA damage. Inhibition of JNK or p38 stimulated ST1926-induced apoptosis only in IGROV-1 cells, whereas inhibition of ERKs enhanced apoptosis in both the cell lines. Such a pattern of cellular response and modulation of genes implicated in DNA damage response supports that the genotoxic stress is a critical event mediating drug-induced apoptosis. The results are consistent with apoptosis induction through p53-dependent and -independent pathways, regulated by MAP kinases, which likely play a protective role.

Inactivation of Ret/Ptc1 oncoprotein and inhibition of papillary thyroid carcinoma cell proliferation by indolinone RPI-1

Genetic alterations causing oncogenic activation of the RET gene are recognized as pathogenic events in papillary and medullary thyroid carcinomas. Inhibition of Ret oncoprotein functions could thereby represent a specific therapeutic approach. We previously described the inhibitory activity of the 2-indolinone derivative RPI-1 (formerly Cpdl) on the tyrosine kinase activity and transforming ability of the products of the RET/PTC1 oncogene exogenously expressed in murine cells. In the present study, we investigated the effects of RPI-1 in the human papillary thyroid carcinoma cell line TPC-1 spontaneously harboring the RET/PTC1 rearrangement. Treatment with RPI-1 inhibited cell proliferation and induced accumulation of cells at the G2 cell cycle phase. In treated cells, Ret/Ptc1 tyrosine phosphorylation was abolished along with its binding to Shc and phospholipase C(gamma), thereby indicating abrogation of constitutive signaling mediated by the oncoprotein. Activation of JNK2 and AKT was abolished, thus supporting the drug inhibitory efficacy on downstream pathways. In addition, cell growth inhibition was associated with a reduction in telomerase activity by nearly 85%. These findings in a cellular context relevant to the pathological function of RET oncogenes support the role of Ret oncoproteins as useful targets for therapeutic intervention, and suggest RPI-1 as a promising candidate for preclinical development in the treatment of thyroid tumors expressing RET oncogenes.

IDN 5390: an oral taxane candidate for protracted treatment schedules

The recognition of the antiangiogenic properties of taxanes provides a basis for novel therapeutic approaches. A prolonged exposure to low drug concentrations has been proposed to be the most suitable approach to exploit the antiangiogenic potential of cytotoxic agents. Such schedule is required to target preferentially slowly dividing endothelial cells. The protracted use of taxanes could benefit from the availability of a taxane endowed with a favourable tolerability profile. Among compounds of a novel series of C-seco taxanes, IDN 5390 was originally selected on the basis of its potent antimotility activity and poor cytotoxicity on endothelial cells. The aim of the study was to investigate the preclinical pharmacologic profile of IDN 5390 in a variety of human tumour xenografts, including ovarian and colon carcinoma and a glioblastoma. IDN 5390, delivered by s.c. injection, daily for 5 days per week, exhibited a high activity against all tumours investigated (tumour growth inhibition was always >85%) in the range of well-tolerated doses. The maximum tolerated dose/injection (MTD), with no signs of systemic or local vesicant toxicity, was 120 mg kg(-1). In contrast, paclitaxel, delivered according to the same schedule, exhibited a variable antitumour efficacy associated with a substantial local toxicity (MTD=10 mg kg(-1)). Considering the remarkable efficacy of IDN 5390 delivered s.c. by protracted treatment schedule, the oral route of administration was further investigated, as the most suitable for daily treatment. Indeed, a good bioavailability of oral IDN 5390 was found. Oral IDN 5390 maintained a substantial efficacy against human tumour xenografts, including paclitaxel-resistant tumours, without loss of potency with respect to s.c. administration. In conclusion, the therapeutic advantages of IDN 5390, over paclitaxel, in protracted daily treatment schedules are represented by the oral efficacy and the high tolerability, which are favourable features to exploit the antiangiogenic potential and to design combinations with other effective agents.

Cell cycle checkpoint efficiency and cellular response to paclitaxel in prostate cancer cells

BACKGROUND

Defects in the cell cycle machinery of prostate cancer cells might impair the efficiency of cell cycle checkpoints and affect the cell response to chemotherapeutic drugs. We examined the relationship between the status of microtubule damage-activated checkpoints and the response of hormone-refractory prostate cancer cells to paclitaxel.

METHODS

The two cell lines DU145 and PC3 harboring defects at proteins involved in the regulation of checkpoints activated by microtubule damage were examined for cell sensitivity, apoptotic response, and efficiency of checkpoints in response to paclitaxel.

RESULTS

In spite of a comparable sensitivity to the antiproliferative effects of paclitaxel, DU145 and PC3 cells exhibited different cell cycle control at checkpoints activated by microtubule damage. A transient mitotic arrest was induced by the taxane in both cell lines. However, PC3 cells underwent a rapid mitotic slippage and displayed a defective postmitotic checkpoint as evidenced by the appearance of polyploid cells. In this cell line, paclitaxel-induced cell death was a slow and delayed event, occurring also after S-phase re-entry. The mitotic checkpoint appeared to be more stringent in DU145 cells compared to PC3 cells. Moreover, despite the expression of mutated proteins involved in the prevention of DNA endoreduplication (p53, pRb, and p16(INK4A)), these cells did not progress into the cell cycle but efficiently underwent apoptosis by 24 hr. Such a response of DU145 cells was associated with phosphorylation of the p21(WAF1) protein.

CONCLUSIONS

These observations evidence that activation of checkpoints following microtubule damage in prostate cancer may be regulated through complex mechanisms possibly involving p21(WAF1). Our findings support that the status of cell cycle checkpoints might affect the modality of cell death. However, the relevance of the mode of cell death for the sensitivity to taxanes remains to be determined.

A role for loss of p53 function in sensitivity of ovarian carcinoma cells to taxanes

Loss of p53 function has been linked to increased responsiveness to taxane treatment of ovarian carcinoma in clinical studies. We recently reported that the acquisition of cisplatin resistance in an ovarian carcinoma cell line (IGROV-1) was associated with mutation of p53 and collateral sensitivity to paclitaxel. The increased sensitivity to paclitaxel of the cisplatin-resistant subline appeared to be pharmacologically relevant since it was reflected in an in vivo sensitization to taxanes. To investigate the cellular and molecular basis of this phenomenon, we performed a comparative study of cellular response to taxanes (paclitaxel and the novel analog IDN 5109) in the parental cell line, containing wild-type p53 and its cisplatin-resistant p53 mutant subline (IGROV-1/Pt1). IDN 5109 was included in this study because of its higher potency and efficacy compared with paclitaxel on both tumor systems. The pattern of cellular response of the two ovarian cell lines was different. In IGROV-1 cells, apoptosis was an early event consequent to a transient mitotic arrest. The cell death of IGROV-1/Pt1 cells was a somewhat slow and delayed event, following mitotic arrest and appearance of hyperploid cells. The increased cytotoxic effect of IDN 5109, compared with paclitaxel, was associated with more marked p34(cdc2) dephosphorylation in IGROV-1 cells and higher Bcl-2 phosphorylation in IGROV-1/Pt1 cells after 24 hr of treatment. In each cell line, these biochemical events were not correlated with parallel levels of mitotic cells. Attempts to reintroduce wild-type p53 in IGROV-1/Pt1 were unsuccessful. However, in other p53-deficient cells (osteosarcoma SAOS), taxane treatment was associated with hyperploid progression and the introduction of wild-type p53 resulted in a reduced sensivity. Although our approach does not allow definitive conclusions, these results suggest that loss of p53-dependent post-mitotic checkpoint results in a different time-course of taxane-induced cell death following DNA reduplication. These events, more evident after exposure to the potent analog IDN 5109, support the notion that the enhanced sensitivity of p53 mutant cells is closely related to the different mode of cell death.

A role for loss of p53 function in sensitivity of ovarian carcinoma cells to taxanes

Loss of p53 function has been linked to increased responsiveness to taxane treatment of ovarian carcinoma in clinical studies. We recently reported that the acquisition of cisplatin resistance in an ovarian carcinoma cell line (IGROV-1) was associated with mutation of p53 and collateral sensitivity to paclitaxel. The increased sensitivity to paclitaxel of the cisplatin-resistant subline appeared to be pharmacologically relevant since it was reflected in an in vivo sensitization to taxanes. To investigate the cellular and molecular basis of this phenomenon, we performed a comparative study of cellular response to taxanes (paclitaxel and the novel analog IDN 5109) in the parental cell line, containing wild-type p53 and its cisplatin-resistant p53 mutant subline (IGROV-1/Pt1). IDN 5109 was included in this study because of its higher potency and efficacy compared with paclitaxel on both tumor systems. The pattern of cellular response of the two ovarian cell lines was different. In IGROV-1 cells, apoptosis was an early event consequent to a transient mitotic arrest. The cell death of IGROV-1/Pt1 cells was a somewhat slow and delayed event, following mitotic arrest and appearance of hyperploid cells. The increased cytotoxic effect of IDN 5109, compared with paclitaxel, was associated with more marked p34(cdc2) dephosphorylation in IGROV-1 cells and higher Bcl-2 phosphorylation in IGROV-1/Pt1 cells after 24 hr of treatment. In each cell line, these biochemical events were not correlated with parallel levels of mitotic cells. Attempts to reintroduce wild-type p53 in IGROV-1/Pt1 were unsuccessful. However, in other p53-deficient cells (osteosarcoma SAOS), taxane treatment was associated with hyperploid progression and the introduction of wild-type p53 resulted in a reduced sensivity. Although our approach does not allow definitive conclusions, these results suggest that loss of p53-dependent post-mitotic checkpoint results in a different time-course of taxane-induced cell death following DNA reduplication. These events, more evident after exposure to the potent analog IDN 5109, support the notion that the enhanced sensitivity of p53 mutant cells is closely related to the different mode of cell death.

Clavilactones, a novel class of tyrosine kinase inhibitors of fungal origin

Targeting of deregulated protein tyrosine kinases has been proposed as a new approach in the therapeutic intervention against pathological processes including proliferative disorders and cancer. Using a screening approach based on a comparative evaluation of antiproliferative effects in a panel of tumor cells with differential expression of protein tyrosine kinases, three benzoquinoid macrolidic fungal metabolites produced by Clitocybe clavipes, clavilactones A, B, and D (CA, CB, and CD) and two semisynthetic derivatives of these products, diacetyl-CA and dimethyl-CA, were identified as inhibitors of protein tyrosine kinases. Naturally occurring CA, CB, and CD showed inhibitory activity in kinase assays against the Ret/ptc1 and epidermal growth factor receptor (EGF-R) tyrosine kinases, while being less effective against the v-Abl tyrosine kinase and p34(cdc2) serine/threonine kinase (IC(50) 2.8, 5.5, 81.3, and 128 microM respectively, for the most potent compound CD). CB was shown to be a non-competitive inhibitor of EGF-R with respect to ATP or poly(Glu(6)Ala(3)Tyr). CD also preferentially inhibited the growth of A431 cells, which overexpress a constitutively active EGF-R, as opposed to IGROV-1 and SKOV-3 cells, which express low levels of the receptor. Further, EGF-R was shown to be a target for clavilactones in A431 cells, since EGF-induced receptor autophosphorylation was inhibited in the presence of CB, CD, and diacetyl-CA. Both CD and diacetyl-CA displayed weak activity when administered daily (i.p.) to mice bearing ascitic A431 tumor. These findings indicate that clavilactones represent the prototypes of a new structural class of tyrosine kinase inhibitors deserving further investigation.

Structure elucidation of clavilactone D: an inhibitor of protein tyrosine kinases

Clavilactones D and E were isolated from an agar culture of the Basidiomycetous fungus Clitocybe clavipes, and their structure was elucidated by 1H- and 13C-NMR studies. Clavilactone D is an inhibitor of tyrosine kinases.

Inhibition of transforming activity of the ret/ptc1 oncoprotein by a 2-indolinone derivative

ret-derived oncogenes are frequently and specifically expressed in thyroid tumors. In contrast to the ret receptor, ret oncoproteins are characterized by ligand-independent tyrosine-kinase activity and tyrosine phosphorylation. In this study, novel synthetic arylidene 2-indolinone compounds were evaluated as inhibitors of the ret/ptc1 tyrosine kinase. Four compounds inhibited ret/ptc1 activity in immunokinase assay (IC50 27-42 microM) including one (1,3-dihydro-5,6-dimethoxy-3-[(4-hydroxyphenyl) methylene)-2H-indol-2-one) (Cpd 1) that selectively inhibited the anchorage-independent growth of NIH3T3 transformants expressing the ret/ptc1 gene (NIH3T3ptc1 cells). Following exposure to Cpd 1, the transformed phenotype of NIH3T3ptc1 cells was reverted, within 24 hr, to a normal fibroblast-like morphology in adherent-cell culture. In these cells, the constitutive tyrosine phosphorylation of ret/ptc1, of the transducing adaptor protein shc and of a series of co-immunoprecipitated peptides became much reduced, as demonstrated by immunoprecipitation/Western-blot analyses. Data presented provide additional evidence that ret/ptc1 is directly implicated in malignant transformation, and demonstrate the ability of Cpd 1 to interfere in the signal transduction pathway constitutively activated by the ret/ptc1 oncoprotein. These results confirm the interest of the arylidene 2-indolinone class of tyrosine-kinase inhibitors as tools for the study of ret signaling and the control of cell proliferation in ret- and ret/ptcs-associated diseases.

Decreased drug accumulation and increased tolerance to DNA damage in tumor cells with a low level of cisplatin resistance

In an attempt to examine the cellular changes associated with cisplatin resistance, we selected a cisplatin-resistant (A43 1/Pt) human cervix squamous cell carcinoma cell line following continuous in vitro drug exposure. The resistant subline was characterized by a 2.5-fold degree of resistance. In particular, we investigated the expression of cellular defence systems and other cellular factors probably involved in dealing with cisplatin-induced DNA damage. Resistant cells exhibited decreased platinum accumulation and reduced levels of DNA-bound platinum and interstrand cross-link frequency after short-term drug exposure. Analysis of the effect of cisplatin on cell cycle progression revealed a cisplatin-induced G2M arrest in sensitive and resistant cells. Interestingly, a slowdown in S-phase transit was found in A431/Pt cells. A comparison of the ability of sensitive and resistant cells to repair drug-induced DNA damage suggested that resistant cells were able to tolerate higher levels of cisplatin-induced DNA damage than their parental counterparts. Analysis of the expression of proteins involved in DNA mismatch repair showed a decreased level of MSH2 in resistant cells. Since MSH2 seems to be involved in recognition of drug-induced DNA damage, this change may account for the increased tolerance to DNA damage observed in the resistant subline. In conclusion, the involvement of accumulation defects and the increased tolerance to cisplatin-induced DNA damage in these cisplatin-resistant cells support the notion that multiple changes contribute to confer a low level of cisplatin resistance.

Desmopressin and imipramine in the management of nocturnal enuresis: a multicentre study

The efficacy and safety of desmopressin (Minirin/DDAVP) treatment compared with imipramine were investigated in a multicentre, open, cross-over design in 57 patients, aged 6-15 years, affected by nocturnal enuresis to establish the best therapeutic approach to this condition. After a two-weeks observation and control period, patients were randomised to one of two groups: intranasal administration of desmopressin, 30 micrograms/day for three weeks, followed by imipramine, 0.9 mg/kg for a further three weeks, or imipramine 0.9 mg/kg for three weeks, followed by desmopressin, 30 micrograms/day for a further three weeks. Following treatment, all patients were observed for a further two weeks. Administration of either treatment protocol resulted in a statistically significant decline in the number of enuretic episodes per week compared to the control. The greater antidiuretic effect observed in the group receiving imipramine followed by desmopressin suggests the two compounds have different profiles. Also, when the treatment period was compared with the follow-up, the antidiuretic effect had a longer duration in the group initially given imipramine. No further improvement was seen when desmopressin was administered first, with a mild worsening of the effect sometimes occurring, suggesting a different carry-over effect between the two treatments. This suggests that desmopressin offers a better approach to the management of nocturnal enuresis.

The daunorubicin-binding protein of Mr 54,000 is an aldehyde dehydrogenase and is down-regulated in mouse liver tumors and in tumor cell lines

A rabbit antiserum developed against purified rat liver daunorubicin-binding protein of M(r) 54,000 (DNR-BP54) cross-reacted with a mouse protein of the same molecular weight. This protein was expressed in the liver and several other organs of mice. A series of tumors and cell lines tested for the presence of the protein were negative. By immunocytochemistry, we found that DNR-BP54 was abundantly expressed in the cytoplasm of normal hepatocytes but was expressed at much lower levels in urethane-induced mouse liver tumors. By immunoscreening of a mouse liver cDNA library, we cloned the cDNA coding for DNR-BP54 and we found that this protein is aldehyde dehydrogenase-2 (EC 1.2.1.3). This result was confirmed by the dehydrogenase activity found in pure preparations of DNR-BP54 from normal rat and mouse livers, assayed with acetaldehyde as substrate and NAD as cofactor. The enzyme activity was inhibited by daunorubicin. The inhibition was found to be competitive with respect to NAD.

Identification of the product of two oncogenic rearranged forms of the RET proto-oncogene in papillary thyroid carcinomas

In papillary thyroid carcinomas, we have identified two tumor-specific rearrangements of the RET proto-oncogene leading to the formation of different transforming fusion products sharing the tyrosine kinase (tk) domain of the proto-oncogene and designated ptc-1 and ptc-2. We have analysed ptc-1 and ptc-2 products by immunoprecipitation with specific anti-RET antibodies followed by immunoblotting with the same reagent or with antibodies specific for phosphotyrosine (P-tyr) residues. The anti-RET antibodies were reactive with 64-kDa (p64ptc-1) and 81-kDa (p81ptc-2) proteins from lysates of ptc-1 and ptc-2 transformed cells, respectively, and identified two proteins of 140 kDa and 160 kDa from extracts of SK-N-SH, a neuroblastoma cell line previously shown to express two differently glycosylated forms of the normal RET product. The anti P-tyr antibodies, while detecting the same p64ptc-1 and p81ptc-2 proteins from ptc-1 and ptc-2 extracts, did not show any specific band in the neuroblastoma lysates. An additional set of experiments led us to conclude that, whereas the normal product of the RET proto-oncogene is a membrane-associated receptor-like molecule not intrinsically phosphorylated on tyrosine, both oncogenic forms of RET, ptc-1 and ptc-2, are constitutively phosphorylated on tyrosine, display an 'in vitro' autophosphorylation activity, are translocated from the membrane to the cytoplasm and are apparently unaffected by protein kinase C modulation.

Lipid peroxidation, phosphoinositide turnover and protein kinase C activation in human platelets treated with anthracyclines and their complexes with Fe(III)

The effects of the antitumor drugs daunorubicin, doxorubicin and their complexes with Fe(III) on phosphoinositide hydrolysis, lipid peroxidation and protein kinase C (PKC) activation were measured in intact human platelets. Doxorubicin and the Fe(III) complexes of both doxorubicin and daunorubicin quickly induced lipid peroxidation [as measured by the thiobarbituric acid (TBA) assay], phosphorylation of the 40 K substance of PKC, and increased levels of phosphatidic acid and inositol phosphates. Fe(III) alone or complexed to acetohydroxamic acid induced high levels of TBA-reactive material but did not affect either PKC activation or phosphoinositide turnover. In contrast, daunorubicin, which was ineffective per se, inhibited all these doxorubicin- and anthracyclines/Fe(III)-induced biochemical events. We suggest that phosphoinositide hydrolysis determined by anthracyclines, and consequently PKC activation, could be due to lipid peroxidation, thus triggering the activity of phospholipase C.

TRK-T1 is a novel oncogene formed by the fusion of TPR and TRK genes in human papillary thyroid carcinomas

We have recently reported the frequent activation of the TRK oncogene in human papillary thyroid carcinoma. In this paper we describe the isolation and characterization of one of the thyroid TRK oncogenes, designated TRK-T1. A 1746-bp-long cDNA was isolated from a library derived from a primary transformant. The cDNA was able to induce foci in NIH3T3 cells. Sequence analysis revealed that TRK-T1 is created by an intrachromosomal rearrangement that juxtaposes the 5' end of the TPR gene to the TRK tyrosine kinase domain. The resulting hybrid mRNA contains 598 nucleotides of the TPR gene and 1148 nucleotides of the TRK proto-oncogene. TRK-T1 mRNA encodes a protein of 55 kDa reacting with antibodies against the carboxy terminus of the proto-TRK protein. We show also the involvement of TPR in the generation of another TRK-T oncogene.

Selection of monoclonal antibodies which induce internalization and phosphorylation of p185HER2 and growth inhibition of cells with HER2/NEU gene amplification

In order to obtain further information on the biological role of the HER2/neu oncoprotein monoclonal antibodies (MAbs) were produced against the p185 extracellular domain. To immunize the mice and screen the hybridoma supernatants we selected a lung adenocarcinoma cell line (Calu-3), which demonstrated an over-expression of p185HER2 measured as the reactivity with polyclonal rabbit serum to the 14-amino-acid carboxy-terminal-HER2/neu. Two MAbs, designated MGR2 (IgG1) and MGR3 (IgG2), selected for reactivity on Calu-3 and negativity on A43I live cells, the reference target cell for EGF receptor expression, were found to immunoprecipitate a 185-kDa molecule. Immunodepletion experiments with the polyclonal antiserum and cross-competition experiments indicated that the 2 reagents recognized 2 different epitopes located on the p185HER2 molecule. One of the 2 MAbs, MGR3, was found to internalize, induce p185HER2 phosphorylation and inhibit tumor cell growth in vitro. These results indicate that MGR3 is directed against a determinant located in the p185HER2 ligand binding site and may compete with the p185HER2 ligand, but is incapable of inducing a complete mitotic signal.

Protein kinase C activation by anthracyclines in Swiss 3T3 cells

The effects of the anti-cancer anthracyclines doxorubicin and daunorubicin on the activity of protein kinase C (PKC) were examined in intact Swiss 3T3 cells. The 2 drugs stimulated the phosphorylation of an 80K phosphoprotein found to be identical to that generated in response to the PKC activator 12-O-tetradecanoylphorbol-13-acetate as indicated by gel electrophoresis and peptide mapping. The effect of doxorubicin was dose-dependent in the range 10(-5) to 10(-3) M and was not associated with a detectable translocation of PKC activity from cytosol to the cell membrane. Doxorubicin and daunorubicin were found to increase the incorporation of phosphate into phosphatidic acid, phosphatidylinositol 4-monophosphate and phosphatidyl inositol 4,5-bisphosphate. In addition, the anthracyclines induced a rise in inositol phosphates, thus indicating a stimulation of the breakdown of phosphoinositides. These data are consistent with an indirect mechanism of PKC activation by anthracyclines. We propose that diacylglycerol, which is derived from the hydrolysis of phospholipids, (including the phosphoinositides), by activation of phospholipases, could mediate PKC activation. The described effects, involving cell-signal-transducing pathways, emphasize a new aspect of the cellular actions of these anti-tumor agents.

Role of daunosamine and hydroxyacetyl side chain in reaction with iron and lipid peroxidation by anthracyclines

Doxorubicin (Adr), daunorubicin (Dnr), and analogs of Adr modified in daunosamine (4'-epi-Adr and 3'-N-acetyl-Adr) were investigated with respect to their reaction with Fe(III) and analyzed for the ability of the corresponding iron complexes to sustain lipid peroxidation of isolated human platelet membranes. When the proportion of iron [25 microM Fe(III)] to Adr was 1:4, almost 50% of the metal was reduced following 1 hour of anaerobic reaction, while only approximately equal to 14% of the bound iron could be extracted as Fe(II) in the reactions of the Dnr complexes. The reaction of Adr was associated with formation of two main novel anthracyclines. One of the products had lost the C14 atom of the C9 chain and displayed chromatographic features and visible UV light spectra identical to those of authentic 9-dehydroxyacetyl-9-carboxyl-Adr. In complexes of iron and Dnr, no significant anthracycline degradation was observed. Reduction of anthracycline-bound Fe(III) by 4'-epi-Adr (38%) and 3'-N-acetyl-Adr (21.2%) was consistently less than that by Adr. Complexes of the anthracyclines investigated had different abilities to sustain lipid peroxidation, which was blocked (a) by the iron chelators deferoxamine and bathophenanthroline, indicating that Fe(III) and Fe(II) were needed for the reaction, and (b) by ICRF-198, the chelating product that forms intracellularly by hydrolysis of razoxane, which can prevent Adr cardiotoxicity. Peroxidation was not affected by scavengers of reduced oxygen radicals (superoxide dismutase, catalase, and mannitol). The isolated membranes contributed to the reduction of anthracycline-bound Fe(III) and probably represented the main determinant of lipid peroxidation by iron-Dnr. Lipid peroxidation was significantly less for complexes of iron with 4'-epi-Adr or 3'-N-acetyl-Adr than for complexes of iron with Adr. The observed differences may be relevant to the different biologic properties of Adr and its analogs, in particular their different degrees of cardiotoxicity.

Diversity of effects of two antitumor anthracycline analogs on the pathway of activation of PKC in intact human platelets

Two antitumor antibiotics doxorubicin and daunorubicin were tested for their ability to influence the activation of protein kinase C in human platelets. Daunorubicin was found to inhibit the phosphorylation of the 40 K PKC substrate induced by thrombin and 12-O-tetradecanoyl-phorbol-13-acetate as well as the phosphorylation of the 20 K protein induced by thrombin. The serotonin release associated to these phosphorylative events was also inhibited by daunorubicin. In contrast the effects of doxorubicin, though inhibitory on the release reaction, were always stimulatory of the phosphorylations. Doxorubicin alone was able to induce the phosphorylation of both 40 K and 20 K phosphoproteins in a concentration-dependent manner. Whereas the stimulation by doxorubicin was not influenced by pretreatment with dibutyryl-cyclic-AMP which inhibits the effects of thrombin, this effect was inhibited by daunorubicin, neomycin and stimulated by the diacylglycerol-kinase inhibitor R 59 022. It is proposed that doxorubicin activates the protein kinase C by causing the breakdown of phosphoinositides.

Dopaminomimetic action of diphenylhydantoin in rat striatum: effect on homovanillic acid and cyclic AMP levels

Diphenylhydantoin (DPH) is known to induce reversible paroxysmal dyskinesias and paranoid psychosis in humans, but its interactions with dopamine (DA) metabolism are not clear. Single doses of DPH (60-100 mg kg-1), with serum levels over 10 micrograms ml-1, reduced homovanillic acid (HVA) levels in rat striatum. The DPH-induced HVA decrease was enhanced by supersensitivity of postsynaptic DA receptors following chronic haloperidol (Hal) administration. DPH 60 mg kg-1 given acutely enhanced the HVA decrease induced by apomorphine (Apo) and partially counteracted the HVA increase following acute Hal (0.1-0.5-2 mg kg-1). After chronic DPH treatment, Apo was ineffective in reducing striatal HVA levels. Concomitant chronic treatment with DPH and Hal counteracted the development of supersensitivity of postsynaptic DA receptors to Apo. Single doses of DPH (30-60-100 mg kg-1) increased cyclic AMP striatal content; this effect was blocked by Hal. A dopaminomimetic DPH action and a subsensitivity of postsynaptic DA receptors after chronic DPH seem to be suggested. These effects could be related to the dyskinetic and psychotic syndromes produced by the drug.

Purification and partial characterization of a daunorubicin-binding protein from rat liver

A daunorubicin-binding protein has been isolated from the soluble fraction of normal rat liver by affinity chromatography on daunorubicin-Sepharose columns. This protein, which apparently binds anthracyclines specifically, appears to be composed of four polypeptides of 54,000 Mr, is different from tubulin, and is not involved in anthracycline metabolism. Its physiological function remains to be determined.

[The Sotos syndrome. Clinical and neuropsychiatric considerations in 1 case]

A case of Sotos' syndrome or cerebral gigantism is described. The main clinical features of this syndrome are macrocrania, accelerated skeleton maturation and somatic development, cranio-facial dysmorfism, psychomotor retardation in 80% of the cases. Less frequently other skeleton abnormalities associated with neurological and/or endocrinological disorders are reported. In our patient the typical features of the syndrome are accompanied by several neurological signs (mental retardtion, strabism, hypothonia, motor impairment, seizures, CT scan abnormalities) and ophtalmological changes as optic disk pallor. The above mentioned range of symptoms should be considered as a direct consequence of the primary defect which characterizes the Sotos' syndrome. In our case the cerebral nervous system seems to be more specifically involved. Besides, important behavioural difficulties have emerged with regard to the double relation mother-daughter and in the familiar environment as well. For this reason we emphasize the necessity of evaluating and clearing up all problems which often arise in connection with various pathological conditions in childhood. This should be done in order to grant the families an appropriate support.