Effects of carbamazepine coadministration on plasma concentrations of trazodone and its active metabolite, m-chlorophenylpiperazine

Effects of carbamazepine coadministration on plasma concentrations of trazodone and its active metabolite, m-chlorophenylpiperazine (m-CPP) were studied in six depressed patients treated with trazodone. The daily dose of trazodone was 150 mg in three cases and 300 mg in three cases. Carbamazepine, 400 mg/day, was coadministered for 4 weeks, and blood samples were taken before carbamazepine addition and at weekly intervals after the addition. Carbamazepine significantly (p < 0.01) decreased plasma concentrations of not only trazodone but also m-CPP at each week. On the average, plasma concentrations of trazodone and m-CPP at 4 weeks were 24 and 40% of the corresponding precarbamazepine values. This study thus suggests that carbamazepine coadministration decreases plasma concentrations of trazodone and m-CPP by inducing the metabolism of these compounds.

Selective expression of mutated p53 in human cells immortalized with either 4-nitroquinoline 1-oxide or 60Co gamma rays

Many studies on in vitro transformation of human cells indicate that the cells must be immortalized before they can be neoplastically transformed, indicating that immortalization is a critical step in multistep neoplastic transformation of human cells. We immortalized three human cell lines by repeated treatment with either 60Co gamma rays or a chemical carcinogen, 4-nitroquinoline 1-oxide, and found that all three immortalized cell lines have mutations in the tumor suppressor gene, p53. Direct sequencing of the reverse-transcribed mRNA and immunoprecipitation of p53 protein revealed that mutant p53 is selectively expressed in all the immortalized cell lines, whereas the genomic fragments of the immortalized cells contain wild-type and mutated p53 alleles. Although the mutated p53 is selectively expressed in the immortalized cells, expression of the wild-type p53 was induced by treatment of the cells with a hypomethylating reagent, 5-azacytidine, indicating that the wild-type p53 allele might be inactivated by hypermethylation of DNA. Actually, the entire genomic locus including the promoter region of p53 is hypermethylated in all the immortalized cell lines. Expression and phosphorylation of Rb was normal in these three cell lines. Thus, inactivation of both wild type p53 alleles and selective expression of mutated p53 seem to be key factors in the immortalization of human fibroblasts.

Reinitiation of protein translocation across the endoplasmic reticulum membrane for the topogenesis of multispanning membrane proteins

The reinitiation of the translocation of the growing nascent chain across the endoplasmic reticulum membrane is essential for the topogenesis of multispanning membrane proteins. We investigated the requirements for the reinitiation process using model proteins in which systematically designed sequences were inserted after two preceding topogenic sequences, namely the N-terminal signal sequence (S) and stop transfer sequence (St). The model proteins were translated in vitro in the presence of rough microsomes, and the final topology of the proteins in the microsomal membrane was examined by proteolytic digestion. The structural requirements for S and the reinitiation sequence (R) overlapped to some extent, but substantial differences were noticed. When St and R were separated by a short cytoplasmic segment (58 amino acids), the efficiency of the reinitiation was not affected by the concentration of the signal recognition particle (SRP) in the translation system, even though the sequence inserted as R was an SRP-dependent signal sequence. However, when the cytoplasmic segment was longer (100 amino acids), the reinitiation efficiency was reduced, and the SRP improved the overall efficiency as well as impaired the accessibility of the processing site after the R to the signal peptidase.

Persistence of hepatitis C virus RNA in established human hepatocellular carcinoma cell lines

The persistence of the viral RNA of hepatitis C virus (HCV) was examined in 13 hepatocellular carcinoma (HCC) and two hepatoblastoma cell lines by reverse transcription followed by the polymerase chain reaction (RT-PCR). HCV RNA was detected in three HCC lines (JHH-1, JHH-4, and JHH-6) and negative-strand viral RNA was found in JHH-4, indicating that there is a putative replicative intermediate of HCV in JHH-4 cells. To rule out the possibility of contamination, the partial nucleotide sequences of HCV-specific PCR products of these three cell lines were determined. The clone from JHH-1 belonged to genotype 1 (1a or 1b), and the clones from JHH-4 and JHH-6 belonged to genotype 2b, but their sequences differed from each other. These cell lines may be useful for studies related to HCV.

Establishment and characterization of a human colon cancer cell line, OUMS-23, from a patient with familial adenomatous polyposis

A human colon carcinoma cell line designated OUMS-23 has been established from metastatic pericardial fluid of a male familial adenomatous polyposis patient with colon cancer. Since 1984, the epithelial cells have been maintained in culture. Ultrastructural studies revealed the presence of numerous microvilli on the cell surface and desmosomes between the adjacent cells. The cells secreted carcinoembryonic antigen into the culture medium (15 ng/10(6) cells-1 24 h-1). The cells expressed heat-stable placental-type-like alkaline phosphatase, whereas the normal counterparts expressed tissue-unspecific alkaline phosphatase. Karyotypic analysis showed that the cell line was of human origin and that the chromosome number was broadly distributed between 53 and 118. Southern blot analysis of the APC gene revealed no abnormalities in OUMS-24 cells, while Northern blot analysis demonstrated that the expression of the gene was about one-half that of the normal human fibroblasts. No mutations at the "hot spots" of codons 12 and 61 of H-, K- and N-ras proto-oncogenes were detected in the cells. The cells could grow in soft agar at a cloning efficiency of 6.5%, and upon transplantation into nude mice the cells formed tumors, which were diagnosed as differentiated adenocarcinoma.

Cytoplasmic chaperones determine the targeting pathway of precursor proteins to mitochondria

Two ATP-dependent cytosolic chaperones, mitochondrial import stimulation factor (MSF) and hsp70, are known to be involved in the import of precursor proteins into mitochondria. Hsp70 generally recognizes unfolded proteins, while MSF specifically recognizes mitochondrial precursor proteins and targets them to mitochondria in a NEM-sensitive manner. Here we analyzed the relative contribution of these chaperones in the import process and confirmed that the precursor proteins are targeted to mitochondria via two distinct pathways: one requiring MSF and the other requiring hsp70. Both pathways depend on distinct proteinaceous components of the outer mitochondrial membrane. The MSF-dependent pathway is NEM-sensitive and requires the hydrolysis of extra-mitochondrial ATP for the release of MSF from the mitochondrial import receptor, whereas the hsp70-dependent pathway is NEM-sensitive and does not require extra-mitochondrial ATP. The NEM-insensitive, hsp70-dependent import became NEM-sensitive depending on the amount of MSF added. The relative importance of the two pathways appears to be determined by the affinities of MSF and hsp70 for the precursor proteins.

Identification of early plasma cells in peripheral blood and their clinical significance

In the peripheral blood (PB) we detected so-called early plasma cells that might already be committed to entering the bone marrow (BM). By two-colour staining with FITC-anti-CD38 antibody, their intensity (CD38++) of expression of CD38 antigen was between that of germinal centre (GC) B cells (low expression (CD38+)) and that of BM plasma cells (high expression (CD38++)), and their phenotype was CD38++ CD19+ CD10- CD20- CD21+ CD24- CD39+ CD5- VLA-4+ VLA-5- MPC-1- without expression of surface membrane IgM (SmIgM). Morphological and immunological examination of the sorted cells confirmed that they were plasmacytoid cells with expression of cytoplasmic IgG (cIgG). Variations of these early plasma cells were examined in various diseases. In active systemic lupus erythematosus, bacterial septicaemia and liver cirrhosis, early plasma cell levels were significantly increased in PB, and after subsidence of such inflammation (inactive states) these cells returned to normal levels. In contrast, normal early plasma cells were significantly suppressed in myelomas, whilst normal or slightly increased numbers of early plasma cells was found in benign monoclonal gammopathy (BMG). In addition, the number of normal early plasma cells returned to a normal level in myeloma cases with complete responses. Therefore, early plasma cells were identified phenotypically, and an increase and decrease in these cells in PB may reflect mobilization and suppression, respectively, of activated B cells into BM plasma cells.

Immortalization of human cells and its mechanisms

One of the contributions of in vitro neoplastic transformation studies on human cells is the confirmation that cells become malignant by a multistep process. In this review, we use the term "neoplastic transformation" to indicate that the cells become capable of forming a histologically malignant tumor, that is, one that invades and/or erodes normal tissue and is serially transplantable in a susceptible animal host. Phenotypically, the cells first become immortalized and then neoplastic. If normal human cells do not overcome aging by becoming immortalized, they cannot be neoplastically transformed. However, normal human cells are stringently destined to cellular aging and very rarely become immortalized by oncogenic DNA viruses (SV40, papillomavirus types 16 and 18, adenovirus types 5 and 12), chemicals, X-rays, or spontaneously. Once human cells get immortalized, they relatively easily become neoplastic. Evidence shows that immortalization is a critical step in the neoplastic transformation process of human cells. Therefore, investigation of the mechanisms of immortalization is indispensable in understanding the multistep carcinogenesis of human cells. Although the precise mechanisms of immortalization are unknown at present, data indicate that the p53 cascade appears to be important for the immortalization of human cells. The loss of functions of normal p53 may induce genomic instability, resulting in mutations of some other unknown genes that are more directly involved in the immortalization of human cells. These unknown genes, which are presumably located at chromosomes 1, 4, 6, 7, 9, 11, 13, 17, 18, and X are now under extensive investigation.

Telomere elongation observed in immortalized human fibroblasts by treatment with 60Co gamma rays or 4-nitroquinoline 1-oxide

Telomeres are the tandemly repeated (TTAGGG)n sequences that make up the structural and functional ends of all chromosomes in mammals. Many lines of evidence indicate that telomeres stabilize chromosomes, prevent aberrant recombination, and direct chromosome attachment to the nuclear membrane. Since DNA polymerase requires a labile primer to initiate unidirectional 5'-3' DNA synthesis, some bases at the 3' end of each template strand are not copied unless special mechanisms bypass this end-replication problem. To overcome this problem, most eukaryotic cells use telomerase, an enzyme that elongates telomeres. However, this enzyme has not been detected in normal human cells, and these cells lose telomeres with cell division. Cellular senescence might be the result of this loss. Thus, activation of telomerase seems to be critical for the immortalization of human cell lines. In addition, substantial evidence indicates that immortalization in itself is a rate-limiting step for the malignant transformation of human cells. We have treated normal human fibroblasts (AD387, KMS-6, and OUMS-24 lines) intermittently with either 60Co gamma rays or 4-nitroquinoline 1-oxide (4NQO) during serial subcultivations, and have obtained three immortalized cell lines, SUSM-1, KMST-6, and OUMS-24F. In KMS-6 and OUMS-24, the mean terminal restriction fragment length significantly decreased as the population-doubling level increased. The rate of telomere loss was 40 and 50 bp/population doubling in the KMS-6 and OUMS-24 cell lines, respectively. Once these normal cell lines were immortalized, their telomeres became elongated. Similar data were obtained for AD387 cells and their immortalized SUSM-1 cells. These results suggest that telomeres play a critical role in cellular senescence and in the immortalization processes of human cells.

High proportions of VLA-5- immature myeloma cells correlated well with poor response to treatment in multiple myeloma

Using two-colour phenotypic analysis with anti-CD38 antibody, human myeloma cells can be classified into VLA-5- immature and VLA-5+ mature cells. We examined the relationship between variations of these subpopulations and clinical responses during treatment in multiple myeloma (MM). 39 patients with MM were treated with combined chemotherapy. First estimation of clinical responses after induction therapy showed that early clinical responses were correlated with the percentage of immature myeloma cells present after induction therapy (P < 0.01), not at diagnosis. After three courses of cyclic maintenance therapy, immature myeloma cells significantly decreased in proportion along with a decrease in total myeloma cells in maintained or more responsive cases (P < 0.01). On the other hand, immature myeloma cells were still found in high proportions in nonresponsive cases with no change (NC) or minor response (MR) (P < 0.01). Furthermore, in relapsing cases from partial response (PR) or progressive disease (PD) from nonresponsive cases, immature myeloma cells increased markedly. Therefore these results show that high proportions of VLA-5- immature myeloma cells remaining after induction therapy and during maintenance therapy correlate well with a declining clinical course of MM during maintenance therapy.

Intracellular targeting of lysosomal cathepsin D in COS cells

Cathepsin D carries a mannose 6-phosphate sorting signal which is recognized by a specific mannose 6-phosphate receptor, presumably at the site of the trans Golgi network, which segregates cathepsin D from the secretory proteins, and results in targeting of the enzyme to the acidic prelysosomal compartments and lysosomes in mammalian cells. Recent evidence implies that another sorting signal resides within the polypeptide backbone of the precursor cathepsin D. To evaluate the role of the propeptide region of cathepsin D in mannose 6-phosphate receptor-independent targeting to lysosomes, we prepared a deletion mutant of rat cathepsin D lacking the propeptide portion and analyzed its intracellular targeting mechanism after transfection of the mutant cDNA as well as the wild-type cDNA into COS cells. The glycosylated mutant protein was retained intracellularly, and extracellular release of mutant protein was not observed after a 48 h chase. A cell fractionation experiment demonstrated that in the cells expressing the wild-type cathepsin D, the processed form of 44 kDa cathepsin D was recovered in the dense lysosomal fraction. In contrast, in the cells expressing the mutant protein, virtually all of the cell-associated cathepsin D was present in the light fraction which was enriched in the marker enzyme NADPH cytochrome c reductase, and this molecular form of cathepsin D was not observed in the dense lysosomal fraction. An immunofluorescence study revealed that the deletion mutant protein was accumulated within the endoplasmic reticulum, unlike the wild-type protein. These results suggest that the mutant cathepsin D is not correctly recognized by the intracellular sorting system in the endoplasmic reticulum, implying that the propeptide region of cathepsin D is essential for the export of cathepsin D from the endoplasmic reticulum.

Enantioselective determination of mianserin and its desmethyl metabolite in plasma during treatment of depressed Japanese patients

A method for the analysis of the enantiomers of mianserin and its main metabolite desmethylmianserin in plasma using a chiral AGP high performance liquid chromatography column is described. In the majority of 66 depressed Japanese patients, the concentration of the more active S(+)-mianserin was higher than that of the R(-)-enantiomer. The mean S/R ratio was 1.9 +/- 0.9 (SD) (range 0.5-4.8). The concentration of S(+)-varied between 19 and 223 nM, while that of the R(-)-mianserin varied between 14 and 72 nM. Among 42 of the 66 plasma samples in which the enantiomers of desmethylmianserin could be measured, the R-form predominated in all but one. S-Desmethylmianserin was in most of the samples present in concentrations of < 10 nM (limit of detection). Analysis of the enantiomers of mianserin and desmethylmianserin might allow the establishment of a closer relationship between plasma levels and clinical effects.

Effects of various factors on steady state plasma concentrations of trazodone and its active metabolite m-chlorophenylpiperazine

Effects of various factors on steady state plasma concentrations of trazodone and its active metabolite m-chlorophenylpiperazine (mCPP) were studied in 43 depressed patients (19 males, 24 females) receiving trazodone 150 mg at bedtime for 1-3 weeks. Sixteen cases were smokers, and 19 cases were also receiving various benzodiazepines. The means (and ranges) of plasma concentrations of trazodone and mCPP, and the mCPP/trazodone ratio were 619 (251-1059) ng/ml, 59 (32-139) ng/ml and 0.100 (0.044-0.219), respectively. Smokers had significantly (p < 0.05) lower plasma concentrations of trazodone and higher mCPP/trazodone ratios than non-smokers. Age, sex and co-administration of benzodiazepines did not affect any plasma concentrations or the mCPP/trazodone ratio. In 11 cases where the dose was increased to 300 mg, neither plasma concentration/dose ratios nor the mCPP/trazodone ratio changed significantly. The present study thus suggests that: (1) there is a large Interindividual variation in the metabolism of trazodone; (2) smoking enhances the metabolism, but age, sex and co-administration of benzodiazepines do not affect it; (3) trazodone and mCPP have linear kinetics.

Reconstitution of the initial steps of mitochondrial protein import

We have reconstituted the initial steps of mitochondrial protein import with a purified precursor protein, a purified, ATP-dependent, cytosolic chaperone selective for mitochondrial precursors (mitochondrial import stimulating factor; MSF), and either intact mitochondria or intact or solubilized mitochondrial outer membranes. We show that the precursor-MSF complex first binds to the Mas37p/Mas70p subunits of the mitochondrial import receptor. After ATP-dependent release of MSF, the precursor is transferred from Mas37p/Mas70p to the Mas20p/Mas22p subunits of the receptor, and finally delivered to the import channel in the outer membrane. Import in the absence of the MSF bypasses Mas37p/Mas70p. The ATP-mediated transfer of a precursor from MSF to specific subunits of the import receptor is similar to the GTP-mediated transfer of precursors from the signal recognition particle to its receptor on the endoplasmic reticulum.

Inhibition of trazodone metabolism by thioridazine in humans

To clarify the involvement of cytochrome P4502D6 (CYP2D6) in the metabolism of trazodone, the effects of coadministration of thioridazine, which is an inhibitor of this isozyme, on plasma concentrations of trazodone and its active metabolite m-chlorophenylpiperazine (m-CPP) were studied. The subjects were 11 depressed patients receiving trazodone at bedtime for 1-18 weeks. The dose was 150 mg in 10 patients and 300 mg in one. Thioridazine 40 mg/day was coadministered for 1 week, and blood samplings were performed before and after the coadministration. Thioridazine significantly (p < 0.001) increased plasma concentrations of both trazodone (713 +/- 252 vs. 969 +/- 370 ng/ml) and m-CPP (61 +/- 22 vs. 94 +/- 34 ng/ml). The present study thus suggests that CYP2D6 is involved in the metabolism of trazodone.

Malfolded cytochrome P-450(M1) localized in unusual membrane structures of the endoplasmic reticulum in cultured animal cells

A conserved region containing three to five proline residues is present just behind the signal-anchor sequence in the amino terminal portion of most microsomal cytochrome P-450s. We have shown that the proline residues are crucial for correct folding in Schizosaccharomyces pombe cells by using mutants of P-450(M1) in which one to three of the proline residues were changed to alanine. To examine the effects of the mutations on the intracellular localization of P-450s, they were expressed in COS-7 cells. They were found to be localized only in the perinuclear loci as patched structures like the Golgi apparatus, while the wild-type P-450(M1) is localized in the reticular structures which are typical for the ER membrane. However, treatment of the cells with Brefeldin A had no effect on the patched structures. Upon co-expression with another ER membrane protein, CD4D, which possesses a double lysine motif, the expressed CD4D was localized not only in the patched structures as the mutated P-450(M1)s, but also in the reticular structures of ER. When the cells were homogenized and then fractionated, the mutated P-450(M1) was recovered mainly in the low-speed precipitate and in the fractions of much higher density than the normal ER membrane. On electron microscopic observation, unusual membranous bodies were observed near the nucleus only when the mutated P-450(M1) was expressed.(ABSTRACT TRUNCATED AT 250 WORDS)

Expression of rat cathepsin D cDNA in Saccharomyces cerevisiae: implications for intracellular targeting of cathepsin D to vacuoles

To investigate the intracellular transport mechanisms of lysosomal cathepsin D in yeast cells, we produced cathepsin D in Saccharomyces cerevisiae by placing the coding region under the control of the promoter of the yeast glyceraldehyde-3-phosphate dehydrogenase (GAPDH) gene. Immunoblotting analysis by the use of an antibody specific for rat cathepsin D coding sequence produced an intermediate species which had a slightly higher molecular weight than that of the mature cathepsin D. Cell fractionation experiments demonstrated that the cathepsin D polypeptide was colocalized to the yeast vacuoles with the marker enzyme carboxypeptidase Y in a Ficoll step gradient. A biosynthesis study with pulse-chase kinetic analysis revealed that the precursor polypeptide was accurately sorted to the yeast vacuoles as determined by cell fractionation, and that N-linked carbohydrate modifications were not required for vacuolar sorting of this protein. To elucidate the role of the propeptide region of cathepsin D, which might function in the intracellular targeting to the vacuole, a deletion mutant of cathepsin D lacking the propeptide was prepared and its intracellular targeting was examined after transfection into yeast cells. Immunoblotting analysis demonstrated that the propeptide-deleted mutant protein was recovered in a low quantity as compared with that in the case of yeast cells expressing the wild-type protein in the isolated vacuolar fraction. Immunofluorescence analysis revealed that the deletion mutant protein appeared to be accumulated within the intracellular small vesicles but not in the carboxypeptidase Y-positive vacuoles. Overall, these results indicate that the rat cathepsin D precursor polypeptide is recognized by mechanisms similar to those involved in the intracellular sorting of vacuolar proteins through the ER/Golgi/vacuolar sorting pathway in yeast cells, and that the propeptide has an important function in translocation of the cathepsin D polypeptide to the vacuole.

Expression of CD21 antigen on myeloma cells and its involvement in their adhesion to bone marrow stromal cells

The mature myeloma cells express very late antigen 5 (VLA-5) and MPC-1 antigens on their surface and adhere to bone marrow (BM) stromal cells more tightly than the VLA-5-MPC-1- immature myeloma cells in vitro. The VLA-5 and MPC-1 antigens possibly function as two of the molecules responsible for interaction of mature myeloma cells with BM stromal cells. However, the immature myeloma cells do interact with BM stromal cells, and it is unclear which adhesion molecules mediate their interaction. In this study, we found that both immature and mature myeloma cells expressed CD21, an adhesion molecule known to bind to CD23. CD21 was also detected on normal plasma cells. To evaluate the role of CD21 expression on myeloma cells, two myeloma cell lines, NOP-2 (VLA-5-MPC-1-) and KMS-5 (VLA-5+MPC-1+), were used as representatives of immature and mature myeloma cell types, respectively, and an adhesion assay was performed between the myeloma cell lines and BM stromal cells. Antibody-blocking results showed that adhesion of the mature type KMS-5 to KM102, a human BM-derived stromal cell line, or to short-term cultured BM primary stromal cells was inhibited by monoclonal antibodies (MoAbs) against CD21, VLA-5, and MPC-1, and inhibition of adhesion of the immature type NOP-2 to KM102 by the anti-CD21 MoAb was observed as well. Furthermore, CD23 was detected on KM102. Treatment of KM102 with an anti-CD23 MoAb also inhibited adhesion of either KMS-5 or NOP-2 to KM102. Therefore, we propose that CD21 expressed on myeloma cells likely functions as a molecule responsible for the interaction of immature myeloma cells as well as mature myeloma cells with BM stromal cells, and CD23 may be the ligand on the stromal cells for the CD21-mediated adhesion.

A new phenotypic classification of bone marrow plasmacytosis

Here, we propose a new phenotypic classification of bone marrow plasmacytosis. By 2-color phenotypic analysis with FITC anti-CD38 and PE anti-CD19, -CD56, -VLA-5 or MPC-1 antibody, plasma cells are easily identified on the histogram, even though no more than 1% of plasma cells are found in the bone marrow. Hence, plasma cells are phenotypically classified into polyclonal (reactive) (CD19+CD56-) or monoclonal (neoplastic) plasma cells (mostly CD19-CD56+), and furthermore immature (VLA-5-MPC-1-), intermediate (VLA-5-MPC-1+) and mature plasma cells (VLA-5+MPC-1+). According to these findings, plasmacytosis in the bone marrow can be classified into polyclonal marrow plasmacytosis (POMP) and monoclonal marrow plasmacytosis (MOMP) states. The MOMP state is further subclassified into MOMP-1 and MOMP-2, MOMP-3 and MOMP-4; MOMP-1 is defined by co-existence of monoclonal plasma cells and polyclonal plasma cells, and MOMP-2 to MOMP-4 are dependent on increased proportions of VLA-5-MPC-1- immature myeloma (plasma) cells. We found that the cases of benign monoclonal gammopathy (BMG) according to the conventional classification were in the MOMP-1 state, and myelomas could be classified into the MOMP-2 to MOMP-4 state. Subclassification of the MOMP state may be useful in determining the prognosis of myelomas, where an increase in immature myeloma cells is reported to correlate well with their aggravation during the clinical courses. Therefore, this new phenotypic classification of bone marrow plasmacytosis (POMP and MOMP-1 to MOMP-4) will contribute to differential diagnosis and understanding of therapeutic responses and prognosis in myelomas.

Two-dimensional electrophoretic analysis of down-regulated proteins in human fibroblasts immortalized by treatment with either 4-nitroquinoline 1-oxide or 60Co gamma rays

Cellular proteins were examined by two-dimensional polyacrylamide gel electrophoresis (2-D PAGE) in order to determine the mechanisms of cellular aging and immortalization of human fibroblasts. A total of 10 cell lines were studied, four of which were immortalized. OUMS-24F and SUSM-1 cells were immortalized by repeated treatment with 4-nitroquinoline 1-oxide (4NQO), KMST-6 cells were immortalized by intermittent exposure to 60Co-gamma rays, and IMR-90/SV40 cells were immortalized with simian virus 40 (SV40). None of these immortalized cells were tumorigenic. Four normal human fibroblast cell lines, OUMS-24, AD 387, KMS-6 and IMR-90, and two human cervical cancer cell lines, HeLa and A-431, were also studied. Applying 2-D PAGE, the down-regulation of the identical proteins was observed in the four immortalized cell lines and in the two human cancer cell lines. Their molecular masses were about 80 kDa and the isoelectric points ranged between 5.5 and 6.3. We could not find any information on our proteins from the recent protein data bases. Further characterization of the proteins indicated that they might be phosphorylated cytoskeletal proteins.

High-performance liquid chromatographic determination of trazodone and 1-m-chlorophenylpiperazine with ultraviolet and electrochemical detector

A high-performance liquid chromatographic (HPLC) assay was developed for the determination of trazodone and its metabolite, 1-m-chlorophenylpiperazine (m-CPP), in plasma. The high level of trazodone in plasma was detected by ultraviolet absorbance at 254 nm and the low level of m-CPP in plasma was detected by coulometric electrochemical detection at 840 mV on the series arrangement of two detectors. Pilsicainide as an internal standard for both compounds was monitored by both detectors. Trazodone and m-CPP in plasma were extracted by a rapid and simple procedure based on CN bonded-phase extraction, and C8 reversed-phase HPLC separation. Determination was possible for trazodone in the concentration range 100-2000 ng mL-1 and for m-CPP in the concentration range 5-100 ng mL-1. The recoveries of trazodone and m-CPP added to plasma were 81.0-84.2 and 68.0-73.2%, respectively, with coefficients of variation of less than 7.3 and 8.2%, respectively. The method is applicable to high level monitoring of trazodone and low level monitoring of m-CPP in plasma of healthy volunteers and patients treated with trazodone.