一些植物成分对实验肿瘤的作用

观察了18个植物成分对S180、Lewis肺癌、B16黑色素瘤、Ehrlich腹水癌、白血病P388、L1210和L615等小鼠肿瘤的疗效。以白血病P388和L1210最为敏感,L615最不敏感。此外,试验了高三尖杉酯碱、美登素、羟基喜树碱和长春新碱对Friend白血病的疗效,仅高三尖杉醋碱有明显疗效。部分样品还观察了对~3H标记的前体参入肿瘤细胞核酸和蛋白质的影响。     

A new antitumor antibiotic, FR-900482. III. Antitumor activity in transplantable experimental tumors

FR-900482 (4-formyl-6,9-dihydroxy-14-oxa-1,11-diazatetracyclo[7.4.1.02,7, O10,12]tetradeca-2,4,6-triene-8-ylmethyl carbamate), a new antibiotic with antitumor activity was isolated from fermentation broth of Streptomyces sandaensis. Its antitumor activities were studied and compared with that of mitomycin C (MMC) in animals. FR-900482 in doses of 0.32 approximately 10 mg/kg (ip) prolonged the life of mice bearing ascitic P388, L1210, B16, MM46, Ehrlich or EL4 tumors and rats bearing ascitic AH130 or AMC60 tumors. FR-900482 in doses of 5.6 approximately 18 mg/kg (iv) inhibited human LX-1, MX-1, SC-6 and LC-6 tumors xenografted sc in nude mice. FR-900482 was more effective than or equally effective to MMC in all the tumors used. FR-900482 was ineffective against cyclophosphamide-resistant P388, but was effective against MMC- or vincristine-resistant P388. The results suggest that FR-900482 may have clinical potential.     

Antitumor activity of spergualin, a novel antitumor antibiotic

Spergualin (SGL), a novel antitumor antibiotic, exhibited strong antitumor activity against transplantable leukemias in mice: L1210, L1210(IMC), P388, P815, C1498, EL-4 and RL male 1. It also exhibited antitumor activity against M5076 fibrosarcoma, AH66 and AH66F rat hepatomas, but not against Meth-A fibrosarcoma, B16 melanoma, Lewis lung carcinoma (LL) and C26 colon adenocarcinoma. The antitumor activity of SGL was administration-schedule dependent. The strongest activity against L1210 was obtained by ip continuous infusion for 7 days or daily ip administration for 9 days. Single ip injection of SGL at 100 mg/kg to mice caused convulsion and death within 15 minutes after injection. Such acute toxicity was not observed by continuous infusion. SGL showed its strongest activity at subtoxic dose against sensitive tumors except for L1210(IMC). Mice implanted ip with L1210(IMC) were cured by treatment with SGL at 3.13 mg/kg/day for 9 days, but died from the tumor at 50 mg/kg/day X 9. The cured mice rejected a second inoculation of up to 10(6) tumor cells. The tumor cells isolated from mice after treatment with the high dose showed resistance to SGL in vivo. Mice implanted sc with L1210(IMC) were also cured by 9 daily ip administrations of SGL at 12.5 mg/kg/day, but solid tumor was observed at the implantation site until 3 days after the final injection of SGL in some cured mice. These results suggest that the therapeutic effect of SGL has a relatively high specificity for leukemias and that the immunological effect is involved in the antitumor activity.     

Modulation of thiol pools by vitamin K3 and its effect on survival of sensitive and resistant murine tumor cells.

Cytotoxic effects of vitamin K3 were evaluated utilizing the P388/S, L1210, EAT, S-180 and a multidrug-resistant variant of the P388 leukemia cells (P388/ADR). Antitumorigenic potential of vitamin K3 was assessed by MTT and DNA and RNA biosynthesis inhibition assay. A dose-dependent inhibition of P388/S and P388/ADR cell survival and [3H]thymidine and [3H]uridine incorporation (as a function of DNA and RNA biosynthesis) was observed in tumor cell types exposed to vitamin K3 concentrations ranging from 1 to 100 microM. One hundred mg/kg vitamin K3 caused a 32 and 52% increase in life span of the sensitive and resistant P388 leukemia tumor-bearing mice. Induction of DNA strand breaks at 100 microM vitamin K3 was greater in P388/S than in P388/ADR cells. In vitro treatment with vitamin K3 (100 microM) reduced the intracellular levels of GSH by 40, 47, 6, 15 and 14% in P388/S, P388/ADR, EAT, S-180 and L1210 tumor cells, respectively. In vivo treatment with 100 mg/kg vitamin K3 reduced the GSH content by 18 and 38% and increased the activity of the enzyme GSH-S-transferase and gamma-glutamyl transpeptidase. Effects of free radical scavengers and of compounds that modulate the GSH metabolism on the cytotoxicity of vitamin K3 were also investigated. Results indicate that vitamin K3 interacts with the tumor cell thiol pools while eliciting its antitumor effects and suggest the utility of vitamin K3 in dealing with the growing problem of multidrug resistance.     

Tumor inhibiting [1,2-bis(fluorophenyl)ethylenediamine]platinum(II) complexes. Part II: Biological evaluation-in vitro studies on the P 388 D1 leukemia cell line

Experiments on the P 388 D1 cell line (48 h exposure) demonstrate that [1,2-bis-(fluorophenyl)ethylenediamine]platinum(II) complexes are comparably active on the cell number and 3H-thymidine incorporation, irrespective of the position of the fluorine atom (ortho, meta, or para) and the nature of the "leaving group" (Cl- or H2O). However, the compounds of the R,R/S,S series are more active than those of the R,S series and comparable to cisplatin. In the "tumor colony forming assay" the R,R/S,S configurated compounds are about ten times as active as cisplatin. The R,R/S,S configurated diaqua[1,2-bis(4-fluorophenyl)ethylenediamine]platinum(II) salts reach their half maximum effect more readily (t1/2 approximately equal to 1.6 h) than their R,S configurated analogues (t1/2 approximately equal to 20 h). A time limited contact of the cells with R,R/S,S configurated diaqua[1,2-bis(4-fluorophenyl)ethylenediamine]platinum(II) salts (-1h) leads to a similar inhibition like a permanent drug exposure indicating a fast uptake of the complex by the tumor cell. In experiments on the Ehrlich ascites tumor of the mouse and on the L 1210 leukemia cell line R,R/S,S-[1,2-bis(4-fluorophenyl)ethylenediamine]dichloroplatinum(II) turns out to be equipotent with cisplatin.     

Antitumor spectrum of deoxyspergualin and its lack of cross-resistance to other antitumor agents

Antitumor activities of 15-deoxyspergualin (NKT-01), an analogue of spergualin (SGL), were examined in cultured tumor cells, transplantable murine tumors, and human tumor xenografts in nude mice. NKT-01 exhibited strong antitumor activity specifically against leukemias both in vitro and in vivo. Moreover, it also showed activity against AH66F hepatoma, M5076 fibrosarcoma and MH134 hepatoma. However, antitumor activity of NKT-01 against other non-leukemic tumors was marginal. Effective dose range of NKT-01 in sensitive tumors was so wide that the largest chemotherapeutic indexes were produced by NKT-01 in P388 and L1210 leukemias among 15 antitumor agents examined. The efficacy of NKT-01 against doxorubicin- and cytosine arabinoside-resistant P388 leukemias was comparable to that against parental sensitive P388 leukemia. NKT-01 also retained activity against other p388 leukemia sublines resistant to cisplatin, 5-fluorouracil or nimustine, although the effect was slightly decreased. In addition, in the in vitro and in vivo experiments using NKT-01-resistant P388 and SGL-resistant L1210(IMC) leukemias, no cross-resistance was observed. Moreover, collateral sensitivity was observed especially to alkylating agents in animal study.     

Permeation and salvage of dideoxyadenosine in mammalian cells

Transmembrane equilibration of 2',3'-dideoxyadenosine (ddAdo) was measured by rapid kinetic techniques in deoxycoformycintreated P388 and L1210 mouse leukemia cells and human erythrocytes, at 25 degrees. It was only about 10% as rapid as that of other purine nucleosides that are known substrates for the nucleoside transporters of these cells. ddAdo entry was nonsaturable up to a concentration of 1 mM and was not inhibited by other nucleosides or two nucleoside transport inhibitors, dipyridamole and nitrobenzylthioinosine. Thus, ddAdo permeation was mainly nonmediated. It was relatively rapid because of the high lipid solubility of ddAdo. ddAdo entered the cells at least 100 times more rapidly than dideoxycytidine but less rapidly than trideoxythymidine, with an even greater lipophilicity than ddAdo. ddAdo was not phosphorylated in human erythrocytes, but there was some phosphorylation in deoxycoformycin-treated P388 and L1210 cells. In situ conversion of 10 microM ddAdo to ddATP, however, was slow and ceased after 5-10 min at 25 degrees or 37 degrees. Cessation of net uptake was not due to turnover of dideoxy-ATP or deamination of dideoxy-AMP. The results suggest that ddAdo salvage in the absence of deamination is limited by feedback inhibition of its phosphorylation, perhaps by deoxycytidine kinase. Permeation into the cells was not rate limiting to ddAdo salvage. In P388 and L1210 cells that had not been treated with deoxycoformycin, ddAdo was salvaged at least 100 times more efficiently than in deoxycoformycin-treated cells and converted to nucleoside triphosphates, but the end-products and pathways of salvage have not been resolved entirely. Salvage of ddAdo required deamination but was not primarily via dideoxyinosine----hypoxanthine----IMP, as is the case for 2'-deoxyadenosine salvage, because [3H]ddAdo salvage was only little inhibited by unlabeled hypoxanthine, whereas it was strongly inhibited by 2'-deoxyadenosine, adenosine, and adenine.     

Studies on antitumor activities and pulmonary toxicity of pepleomycin sulfate (NK631) (author's transl)]

The antimicrobial and antitumor activities, and the pulmonary toxicity of pepleomycin (NK631) were studied in comparison with bleomycin (BLM). NK631 showed a broad antimicrobial spectrum against gram positive and gram negative bacteria equally to BLM, and its activity was about twice higher than BLM. NK631 showed higher activity on cultured HeLa S3 cells and higher antitumor effect on the transplanted tumors of Ehrlich solid carcinoma in mice, AH66 and AH66F ascites hepatoma in rats, and lower antitumor effect on Ehrlich ascites carcinoma in mice than BLM. Similarly to BLM, NK631 did not show satisfactory activity on L1210 leukemia in mice. NK631 showed marked effect on chemically induced squamous cell carcinoma, spontaneous lymph sarcoma of a dog, human and dog gastric cancer heterotransplanted in nude mice equally to BLM. Furthermore NK631 exhibited remarkably higher antitumor activity on lymph node metastasis of AH66 ascites hepatoma of rats and chemically induced gastric carcinoma of rats than BLM. Pulmonary toxicity of NK631 was low as 1/3 in incidence and 1/4 in grade of the BLM in old mice system. This trend was confirmed by chemical analysis of hydroxyproline in lung.     

cis-bis(pyridine)platinum(II) organoamides with unexpected growth inhibition properties and antitumor activity.

The platinum(II) organoamides [Pt(NRCH2)2L2] (L = pyridine (py), R = p-HC6F4, C6F5,p-IC6F4,p-CIC6F4,p-C6F5C6F4; L = 4-methylpyridine, R = p-HC6F4) and [Pt(NRCH2CH2NR')(py)2] (R = p-HC6F4, R' = C6F5, p-BrC6F4, or p-MeC6F4) inhibit the growth of murine L1210 leukemia cells in culture with ID50 values for continuous exposure in the range 0.6-2.7 microM. Representative complexes are also active against L1210 cells in 2-h pulse exposures, as well as against the cisplatin-resistant variant L1210/DDP and human colonic carcinoma cell lines HT 29 and BE. Three complexes [Pt(NRCH2)2L2] (R = p-HC6F4, C6F5, or p-IC6F4) have good activity (T/C greater than or equal to 180%) against P388 leukemia in mice, and all other compounds tested are active except when R = p-C6F5C6F4, L = py. Although the molecular basis of the biological activity of these complexes is not known, the observation of good activity for amineplatinum(II) compounds with no hydrogen substituents on the nitrogen donor atoms introduces a new factor in the anticancer behavior of platinum(II) complexes.     

Cell killing mode of liblomycin (NK313), a novel dose-survival relationship different from bleomycins.

Liblomycin (NK313) is a novel derivative of bleomycin (BLM) and peplomycin (PEP). The cell kill kinetics of NK313 on rat ascites hepatoma AH66 were compared with those of PEP. NK313 induced intracellular DNA cleavage and arrested cell cycle progression at the G2 phase similarly to PEP. The cytocidal effect of NK313, however, was found to be different from that of PEP as described below: 1) The dose-survival curve for cells exposed to PEP for 1 hour was upward concave, whereas in case of NK313, the survival curve was linear. PEP was more effective to AH66 than NK313 at lower concentration, but at higher concentration, NK313 was much more effective. 2) The time-survival curve for cells treated with either NK313 or PEP was biphasic. NK313, however, did not induce temporary resistance of AH66 cells to NK313, while PEP induced resistance to PEP. 3) NK313 was effective against the cells which became temporarily resistant to PEP by the treatment of PEP. These differences suggest that NK313 might be of value to treat PEP-insensitive tumor cells.     

Antitumor activity of trienomycin A on murine tumors

The antitumor activity of a novel ansamycin antibiotic, trienomycin A, against various murine tumors was studied with two treatment schedules. The intraperitoneal injection of the antibiotic showed remarkable antitumor activity on sarcoma 180 and P388 leukemia at doses of 160 or 320 mg/kg, showing 151% and 100% increase in life span, respectively. Trienomycin A inhibited the growth of Ehrlich and Meth A cells in vitro at doses of 0.1-0.4 microgram/ml when the cells were exposed to the antibiotic for 72 hours. The incorporation of [3H]thymidine into acid precipitable material in HeLa cells was slightly more marked than that of [3H]uridine and [3H]leucine when the cells were exposed to 0.04 or 0.08 microgram/ml of trienomycin A for 4 hours. It appeared that trienomycin A showed antitumor activity by direct cytotoxic action.     

1-Amino-substituted 4-methyl-5H-pyrido[4,3-b]indoles (gamma-carbolines) as tricyclic analogues of ellipticines: a new class of antineoplastic agents

A series of 1-amino-substituted 4-methyl-5H-pyrido[4,3-b]indoles that are structurally related to ellipticines by deletion of a ring have been synthesized in order to evaluate their DNA affinity, their in vitro cytotoxicity on L1210 cultured cells, and their in vivo antitumor activity. Among 24 derivatives that have been prepared and studied for the structure-activity relationship in this new class of antineoplastic agents, those that have a NH(CH2)3N(R)2 side chain (R = CH3 or C2H5) at their 1-position, a 4-methyl group, and an 8-OH substituent, either with a 5-NH or with a 5-NCH3 group, show the most potent cytotoxicities on L1210 cultured cells and in vivo antitumor properties in P388 and L1210 leukemia systems. In vivo antineoplastic activity of the most potent products was confirmed in P388 and L1210 leukemia systems. In vivo antineoplastic activity of the most potent products was confirmed on other mouse experimental tumors from the standard NCI screening:B16 melanoma and C38 adenocarcinoma.     

Uptake and retention of adriamycin and daunorubicin by sensitive and anthracycline-resistant sublines of P388 leukemia.

Sublines of P388 leukemia completely resistant to adriamycin (P388/ADR) or daunorubicin (P388/DAU) in vivo were studied in vitro. These sublines were more resistant to the cytotoxic effects of adriamycin (800-fold relative to sensitive parental cell line, P388/S) than to daunorubicin (18-fold for P388/ADR and 56-fold for P388/DAU). When the effects of the drugs on thymidine incorporation were compared in vitro in sensitive and resistant cells, it was observed that slightly higher levels of the drugs were required to inhibit nucleic acid synthesis in the resistant cells. The shift in inhibitory concentration was much less than the shift in cytotoxic concentration, particularly for adriamycin. The uptake and efflux of [G-³H]daunorubicin and [14-¹⁴C]adriamycin were studied. At low concentrations uptake of both drugs was impaired in the resistant sublines, whereas, at high concentrations a difference in uptake between sensitive and resistant cells was not evident. Resistance did not appear to be related to the difference in the rate of uptake. A markedly enhanced efflux of the drugs from the resistant cells was observed which correlated well with the difference in sensitivity of the sublines to adriamycin and daunorubicin. Enhancing the uptake of adriamycin by increasing the pH of the incubation medium and thereby increasing the proportion of non-ionized drug available for diffusion into the cells or by modifiying the cell membrane by the addition of Tween 80 failed to reverse resistance. The binding of daunorubicin to isolated nuclei from P388/S and P388/ADR cells was essentially similar. It is concluded that these anthracycline-resistant cell lines are resistant by virtue of decreased retention of the drugs.     

Macrophage-specific effect on lipid metabolism by an antibiotic, ascofuranone

Ascofuranone (AF) enhanced glucose consumption of splenocytes and macrophages, while it enhanced incorporation of [14C]acetate into macrophages but not into splenocytes. When using tumor cell lines, it inhibited the incorporation of [14C]acetate into lymphoma cell lines, YAC-1 and P388, and a thymoma, L5178Y, while it stimulated that into P388D1, which is derived from P388 and has macrophage-like characteristics. Incorporation of [14C]acetate into a mammary carcinoma FM3A was also stimulated by AF. In contrast, AF stimulated uptake of methylglucose in all cell lines tested. The effect of AF was further studied using mouse myeloid leukemia, M1 cells. AF slightly stimulated the incorporation of [14C]acetate into undifferentiated M1 cells, and strongly stimulated that of hydrocortisone-differentiated M1 cells. In contrast, AF suppressed the incorporation of [14C]acetate into retinoic acid-differentiated M1 cells. Glucose consumption of these three types of M1 cells was all stimulated. From these results, we conclude that AF specifically stimulates the incorporation of [14C]acetate into macrophages while it generally stimulates glucose uptake of the cells.     

Effects of a new triazinoaminopiperidine derivative on adriamycin accumulation and retention in cells displaying P-glycoprotein-mediated multidrug resistance.

A new triazinoaminopiperidine derivative, Servier 9788 (S9788), was investigated for its ability to increase Adriamycin (ADR) accumulation and retention in two rodent (P388/ADR and DC-3F/AD) and three human (KB-A1, K562/R and COLO 320DM) cell lines displaying the P-glycoprotein (P-gp)-mediated multidrug resistance (MDR) phenotype. Depending on the cell line S9788 was shown to be two to five times more active and five to 15 times more potent than Verapamil (VRP) in increasing ADR accumulation in resistant cells. ADR retention in KB-A1 cells maintained in a concentration of 10 microM S9788 was twice that in VRP-treated cells, and similar to that measured in the untreated sensitive KB-3-1 cells. Although 5 microM S9788 and 50 microM VRP gave the same values of ADR uptake in KB-A1 cells, S9788 was shown to induce a greater ADR retention following cell wash and post-incubation in resistance modifier- and ADR-free medium. Taking into account that S9788 had no effects on ADR accumulation and retention in sensitive KB-3-1 cells, it can be suggested that S9788 inhibits specifically the P-gp dependent ADR efflux, and in a manner less reversible than that observed with VRP. Moreover, [3H]azidopine photolabeling of P-gp, in P388/ADR plasma membranes, was completely inhibited by 100 microM S9788. Although S9788, as VRP, had no effect on the cell cycle of P388 cells, 5 microM S9788 increased 700-fold the efficacy of ADR to block P388/ADR cells in the G2+M phase of the cell cycle. Together, these results show that the sensitization, by S9788, of cell lines resistant to ADR is mainly due to an increase in ADR accumulation and retention, leading to an increase in the number of resistant cells blocked in the G2+M phase.     

Genetic variations of CYP2B6 gene were associated with plasma BPDE-Alb adducts and DNA damage levels in coke oven workers

This study was designed to investigate the molecular mechanism underlying the chemopreventive effects of methionine on benzo[a]pyrene (B[a]P)-DNA adducts formation in HepG2 cells. Methionine significantly inhibited B[a]P-DNA adduct formation in HepG2 cells. Methionine significantly decreased the cellular uptake of [³H] B[a]P, but increased the cellular discharge of [³H] B[a]P from HepG2 cells into the media. B[a]P significantly lowered total cellular glutathione (GSH) level, but co-cultured with B[a]P and methionine, gradually attenuated intracellular GSH levels in a concentration-dependent manner, which was markedly higher at 20-500 μM methionine. The cellular proteins of treated cells were resolved by 2D-polyacrylamide gel electrophoresis. Proteomic profiles showed that phase II enzymes such as glutathione S-transferase (GST) omega-1, GSTM3, glyoxalase I (GLO1) and superoxide dismutase (SOD) were down-regulated by B[a]P treatment, whereas cathepsin B (CTSB), Rho GDP-dissociation inhibitor alpha (Rho-GDP-DIA), histamine N-methyltransferase (HNMT), spermidine synthase (SRM) and arginase-1 (ARG1) were up-regulated by B[a]P. B[a]P and methionine treatments, GST omega-1, GSTM3, GLO1 and SOD were significantly enhanced compared to B[a]P alone. Similarly, methionine was effective in diminishing the B[a]P-induced up-regulation of CTSB, Rho-GDP-DIA, HNMT, SRM and ARG1. Our data suggests that methionine might exert a chemoprotective effect on B[a]P-DNA adduct formation by attenuating intracellular GSH levels, blocking the uptake of B[a]P into cells, or by altering expression of proteins involved in DNA adduct formation.     

Factors governing the modulation of vinca-alkaloid resistance in doxorubicin-resistant cells by the calmodulin inhibitor trifluoperazine

Calmodulin inhibitors enhance the cytotoxic effects of doxorubicin (DOX) in DOX-resistant (P388/DOX) P388 mouse leukemia cells by augmenting cellular accumulation and retention of drug. In P388/DOX cells which are cross-resistant to vinblastine (VLB) and vincristine (VCR), cell kill following treatment with VLB and VCR alone was evident only after 12 hr of treatment. Additionally, the 2- to 10-fold increase in cytotoxicity of the vinca alkaloids in the presence of 2 and 4 microM trifluoperazine (TFP) was observed only in P388/DOX cells treated for 12 hr, but not for 3 or 6 hr. However, in DOX-sensitive (P388/S) P388 mouse leukemia cells, cytotoxic effects of VCR but not VLB were apparent after treatment for 3 hr, and cell kill with VLB and VCR was enhanced 2- to 20-fold in the presence of 2 and 4 microM TFP following treatment for 12 hr. Cellular accumulation of [3H]VLB in P388/DOX cells was 12-fold lower than in similarly treated P388/S cells and, in the presence of 2 and 4 microM TFP, cellular VLB levels were enhanced 1.3- to 2.0-fold in P388/S cells and 2- to 8-fold in P388/DOX cells. The effect of TFP in increasing cellular retention of [3H]VLB was more apparent with P388/DOX cells, and retention of [3H]VLB in the presence of 4 microM TFP was enhanced less than 1.5-fold and greater than 4-fold in P388/S and P388/DOX cells respectively. Results from this study and our earlier observations with DOX and TFP in P388/DOX cells demonstrate that: (1) TFP potentiates the cytotoxicity of VLB and VCR in P388/S and P388/DOX cells by augmenting drug accumulation and retention; (2) enhanced cell kill in the presence of TFP with P388/DOX cells is apparent at 1 hr for DOX vs 12 hr for VLB and VCR; and (3) in P388/S cells, TFP has a more striking effect on the cellular accumulation, retention and cytotoxicity of VLB and VCR rather than DOX.     

Antitumor activity of patulin and structural analogs.

A comparison between the cytotoxicity and the antitumor activity of patulin and five structural analogs (isopatulin, dehydroisopatulin, dimethylisopatulin, trimethylisopatulin and isopropylisopatulin) has been established. In vitro assays using L 1210 and P 388 cells showed that the structure of the pyranic ring as well as the nature of the substituents influenced the observed activities. Among the five structural analogs of patulin assayed in vivo against Ehrlich carcinoma, L 1210 and P 388 leukemias, dehydroisopatulin was the only one to be active on all 3 types of tumors at a dose of 100 mg.kg-1.d-1. The ratio between the LD50 in mice and the active dose was 5 while with patulin it was 10. It can be assumed that the lactone function is not solely responsible for the activity of patulin and its structural analogs.     

Adhesive interaction of highly malignant hepatoma AH66F cells with mesothelial cells.

We investigated the mechanism of adhesion of highly malignant ascites hepatoma AH66F cells to mesothelial cells. The adhesion rate of AH66F cells to mesentery-derived mesothelial cells (M-cells) was about 46% at 37 degrees C, but it decreased to about 27% at 4 degrees C. The adhesion rate of AH66F cells was about 25% in the presence of leukocyte function-associated antigen 1 (LFA-1) mAb at both 4 C and 37 C. When M-cells were treated with hyaluronidase, the AH66F/M-cell adhesion was decreased to half at 37 degrees C and had nearly disappeared at 4 degrees C. The residual adhesion of AH66F cells to M-cells treated with hyaluronidase almost disappeared in the presence of LFA-1 mAb. AH66F cells strongly adhered to a hyaluronate (HA)-coated plate, but not to a bovine serum albumin-coated plate. AH66F cells expressed a CD44 molecule (a HA receptor) in the plasma membrane, with a molecular size of about 85 to 90 kDa, corresponding to the CD44H isoform. These results indicated that the adhesion of AH66F cells to mesothelial cells is composed of pathways of CD44/HA and LFA-1/ICAM-1.     

Reversal of multidrug resistance by 7-O-benzoylpyripyropene A in multidrug-resistant tumor cells

7-O-Benzoylpyripyropene A (7-O-BzP), a semi-synthetic analog of pyripyropene, was investigated for its reversing effect on multidrug-resistant (MDR) tumor cells. 7-O-BzP (6.25 microg/ml) completely reversed resistance against vincristine and adriamycin in vincristine-resistant KB cells (VJ-300) and adriamycin-resistant P388 cells (P388/ADR), respectively. 7-O-BzP alone had no effect on the growth of drug sensitive and drug-resistant cells. 7-O-BzP (6.25 microg/ml) significantly enhanced accumulation of [3H]vincristine in VJ-300 cells and completely inhibited the binding of [3H]azidopine to the P-glycoprotein in VJ-300 cells and P388/ADR cells. The result suggests that 7-O-BzP effectively reverses P-glycoprotein-related MDR by interacting directly with P-glycoprotein in drug resistant VJ-300 and P388/ADR cells.