Dietary induction of NQO1 increases the antitumour activity of mitomycin C in human colon tumours in vivo.

The bioreductive antitumour agent, mitomycin C (MMC), requires activation by reductive enzymes like NAD(P)H:quinone oxidoreductase 1 (NQO1). We used a novel approach to increase MMC efficacy by selectively inducing NQO1 in tumour cells in vivo. CD-1 nude mice were implanted with HCT116 cells, and fed control diet or diet containing 0.3% of the NQO1 inducer, dimethyl fumarate (DMF). The mice were then treated with saline, 2.0, 3.5 or 2.0 mg kg(-1) MMC and dicoumarol, an NQO1 inhibitor. The DMF diet increased NQO1 activity by 2.5-fold in the tumours, but had no effect in marrow cells. Mice given control diet/2.0 mg kg(-1) MMC had tumours with the same volume as control mice; however, mice given DMF diet/2.0 mg kg(-1) MMC had significantly smaller tumours. Tumour volumes in mice given DMF/2.0 mg kg(-1) MMC were similar to those in mice given control diet/3.5 mg kg(-1) MMC. Tumour inhibition was partially reversed in mice given DMF/2.0 mg kg(-1) MMC and dicoumarol. DMF diet/2.0 mg kg(-1) MMC treatment did not increase myelosuppression and did not produce any organ toxicity. These results provide strong evidence that dietary inducers of NQO1 can increase the antitumour activity of bioreductive agents like MMC without increasing toxicity.

Cerebral vasoconstriction and stroke after use of serotonergic drugs.

Serotonin (5-hydroxytryptamine) is a potent vasoconstrictor amine. The authors report three patients who developed thunderclap headache, reversible cerebral arterial vasoconstriction, and ischemic strokes (i.e., the Call-Fleming syndrome). The only cause for vasoconstriction was recent exposure to serotonergic drugs in all patients, and to pseudoephedrine in one patient. These cases, and the literature, suggest that the use of serotonin-enhancing drugs can precipitate a cerebrovascular syndrome due to reversible, multifocal arterial narrowing.

Clinical applications of quinone-containing alkylating agents.

Quinone-containing alkylating agents are a class of chemical agents that have received considerable interest as anticancer drugs. These agents contain a quinone moiety that can be reduced and an alkylating group that can form covalent bonds with a variety of cellular components. The oxidation state of the quinone element can modulate the activity of the alkylating element, and reduction of the quinone is required for activation of the alkylating activity of many of these agents. The quinone element may also contribute to the cytotoxic activity of quinone-containing alkylating agents through the formation of reactive oxygen species during redox cycling. The natural product, mitomycin C, has been the most widely used quinone-containing alkylating agent in the clinic, but other quinone-containing alkylating agents like porfiromycin, diaziquone, carbazilquinone, triaziquone and EO9 have also been used in the clinic for the treatment of cancer. In addition, many other quinone-containing alkylating agents have been tested in preclinical studies and the development of new agents is being actively pursued. This chapter describes the current and past clinical uses of these agents in the treatment of cancer and discusses new agents that are currently in clinical trials.

A CD36 synthetic peptide inhibits bleomycin-induced pulmonary inflammation and connective tissue synthesis in the rat.

Transforming growth factor (TGF)-beta1 is an important regulator of inflammation and fibrosis. TGF-beta1 is usually secreted as a biologically latent protein called latent TGF-beta1 (L-TGF-beta1). L-TGF-beta1 has no biologic effect unless L-TGF-beta1 is converted to its active form. Using a well-recognized model of lung injury induced by the antineoplastic antibiotic bleomycin (Blm), we demonstrated that 7 d after intratracheal Blm administration, total lung TGF-beta was maximally increased. This induction was due to TGF-beta1 production by alveolar macrophages that, when explanted, generated increased quantities of L-TGF-beta1 complexed with the glycoprotein thrombospondin (TSP)-1. The TSP-1/L-TGF-beta1 complex was associated with CD36, a receptor for TSP-1. The association of TSP-1/L-TGF-beta1 to CD36 was critical for plasmin-mediated release of mature TGF-beta1. In this paper we show that, compared with administration of Blm by itself, when a synthetic peptide of CD36 between amino acids 93 and 110 is given concomitantly with Blm to rats, alveolar macrophages generate markedly less active TGF-beta1, the rats gain weight more rapidly, and there is less inflammation, collagen I and III, and fibronectin synthesis. These findings demonstrate a novel in vivo mechanism of activation of L-TGF-beta1 in lung injury and the importance of alveolar macrophage- derived active TGF-beta1 in the pathogenesis of pulmonary inflammation and fibrosis.

Functional status of the immune system after chronic administration of 2'-deoxycoformycin in the BB rat.

Insulin-dependent diabetes mellitus (IDDM) is caused by autoimmune destruction of pancreatic beta cells with the primary mechanism being cell mediated. The BB rat develops insulitis and IDDM with many features analogous to the disease in man. In previous studies we reported that weekly administration of 2'-deoxycoformycin (dCF) for four months reduces significantly the incidence of IDDM in the BB rat by 70%, and that the animals remain free of diabetes for a minimum of two months after drug withdrawal. Since the diabetes-prone BB rat is lymphopenic, with a reduction of both CD4 and CD8 cells, the continuous failure of dCF treated animals to develop diabetes may have been due to generalized immunosuppression. To test this possibility, the ability of dCF treated diabetes-free BB rats to mount an immune response after challenge with Ovalbumin was examined five months after drug withdrawal. The results showed that the post-immunization levels of total IgG and specific IgG in these animals did not differ from those observed in non-dCF treated controls nor those of control diabetes-resistant non-lymphopenic BB rats. Moreover, FACS analysis indicated no change in the percentages of total numbers of CD4+ or CD8+ cells between the two groups of animals. Histological assessment of the pancreata of the post-dCF treated animals showed varying degrees of mononuclear cell infiltrates in the islets. These data demonstrate that treatment by dCF is not permanent, and may require intermittent or continuous administration to prevent development of diabetes. Further studies are needed to determine the mechanism of action of dCF in this model of IDDM.

Enhanced cytotoxicity of mitomycin C in human tumour cells with inducers of DT-diaphorase.

DT-diaphorase is a two-electron reducing enzyme that activates the bioreductive anti-tumour agent, mitomycin C (MMC). Cell lines having elevated levels of DT-diaphorase are generally more sensitive to MMC. We have shown that DT-diaphorase can be induced in human tumour cells by a number of compounds, including 1,2-dithiole-3-thione. In this study, we investigated whether induction of DT-diaphorase could enhance the cytotoxic activity of MMC in six human tumour cell lines representing four tumour types. DT-diaphorase was induced by many dietary inducers, including propyl gallate, dimethyl maleate, dimethyl fumarate and sulforaphane. The cytotoxicity of MMC was significantly increased in four tumour lines with the increase ranging from 1.4- to threefold. In contrast, MMC activity was not increased in SK-MEL-28 human melanoma cells and AGS human gastric cancer cells, cell lines that have high base levels of DT-diaphorase activity. Toxicity to normal human marrow cells was increased by 50% when MMC was combined with 1,2-dithiole-3-thione, but this increase was small in comparison with the threefold increase in cytotoxicity to tumour cells. This study demonstrates that induction of DT-diaphorase can increase the cytotoxic activity of MMC in human tumour cell lines, and suggests that it may be possible to use non-toxic inducers of DT-diaphorase to enhance the efficacy of bioreductive anti-tumour agents.

A three-year programme in oral diagnosis and treatment planning. A model using an interdisciplinary teaching team.

Diagnosis and treatment planning are considered to be the basis for successful clinical dentistry, however, these skills are difficult to teach and evaluate. At the Department of Diagnosis and Treatment Planning, Tel Aviv University Dental School, a 3-year teaching programme has been developed. The goals of the programme are to teach a systematic pattern of data collection from history, clinical examination, imaging modalities and models, and to use this data to identify the patient's problems and to arrive at a final diagnosis, to develop a treatment plan, taking into account all relevant information, and to consult experts when needed, to train in case presentation, and to deal with peer response. The program includes 20 h of lectures and 30 h of exercises in the 4th year, developing at least 8 full treatment plans per student in the fifth year, a 1 30-min weekly panel seminar during the final year, and a final integrative examination at the end of the 6th year.

Expression of p53 predicts treatment failure in aggressive non-Hodgkin's lymphomas.

Approximately 50% of patients with aggressive non-Hodgkin's lymphomas (NHL) achieve a complete remission (CR) and cure with combination chemotherapy. The International Index is a useful clinical measure that predicts the patients' tolerance of therapy and likelihood of achieving CR, but it is not a direct measure of chemosensitivity. In this study we have investigated the predictive value of the tumor suppressor gene, p53, as a biological marker for response to treatment in the aggressive NHL. A retrospective study was carried out on 50 patients with aggressive NHL who were treated with CHOP chemotherapy. Treatment outcome was correlated with the expression of p53 in the lymphoma, as measured by routine immunohistochemistry using the monoclonal antibody Do-7. Forty percent of the lymphomas had >5% of the cells staining positively for p53 and this finding correlated significantly with response to treatment. Fifty percent of patients with p53 positive tumors achieved a CR versus 77% of patients with p53 negative tumors. In addition, the relapse rate and time to relapse were significantly different in the two groups. In the p53 positive group, 60% of patients relapsed in a median time of 6 months, whereas 26% of the p53 negative group relapsed with the time to relapse being >22 months. The overall survival of the p53 positive group (17 months) was significantly shorter than that of p53 negative group (>24 months). These results suggest that the immunohistochemical assessment of p53 is a simple and important prognostic measure for patients with aggressive NHL who are treated with CHOP chemotherapy.

Induction of DT-diaphorase by 1,2-dithiole-3-thiones in human tumour and normal cells and effect on anti-tumour activity of bioreductive agents.

DT-diaphorase is a two-electron-reducing enzyme that is an important activator of bioreductive anti-tumour agents, such as mitomycin C (MMC) and EO9, and is inducible by many compounds, including 1,2-dithiole-3-thiones (D3Ts). We showed previously that D3T selectively increased DT-diaphorase activity in mouse lymphoma cells compared with normal mouse marrow cells, and also increased MMC or EO9 cytotoxic activity in the lymphoma cells with only minor effects in the marrow cells. In this study, we found that D3T significantly increased DT-diaphorase activity in 28 of 38 human tumour cell lines representing ten tissue types with no obvious relationships between the tumour type, or the base level of DT-diaphorase activity, and the ability of D3T to increase the enzyme activity. Induction of DT-diaphorase activity in human tumour cell lines by 12 D3T analogues varied markedly with the D3T structure. D3T also increased DT-diaphorase activity in normal human bone marrow and kidney cells but the increases were small in these cells. In addition, D3T increased the level of enzyme activity in normal human lung cells. Pretreatment of human tumour cells with D3T analogues significantly increased the cytotoxic activity of MMC or EO9 in these cells, and the level of enhancement of anti-tumour activity paralleled the level of DT-diaphorase induction. In contrast, D3T did not effect the toxicity of EO9 in normal kidney cells. These results demonstrate that D3T analogues can increase DT-diaphorase activity in a wide variety of human tumour cells and that this effect can enhance the anti-tumour activity of the bioreductive agents MMC and EO9.

A novel system of human submandibular/sublingual saliva collection.

The assessment of submandibular/sublingual (sm/sl) saliva is a procedure of increasing significance. However, the collection of these fluids by traditional techniques is difficult and therefore often neglected. To collect sm/sl saliva, we have assembled a novel, universal system consisting of four parts-collecting tubing, a buffering chamber, a storing tube, and a suction device. Submandibular/sublingual saliva samples were collected from ten healthy and ten xerostomic individuals. The system showed intra-examiner reproducibility of 0.92 for healthy and 0.89 for xerostomic subjects, and inter-examiner reproducibility of 0.93 for normal subjects and 0.80 for xerostomic individuals. The flow rates obtained by the present collecting set-up were similar to those measured by all known previous methods that were published during the last 40 years. The system was also efficient, in that more than 90% of the fluid that entered the system was eventually collected in the storing tube for analysis. The system appears to collect relatively pure sm/sl fluids, since contamination of the collected sample by a stimulant solution swabbed repeatedly over the tongue during saliva collection was minimal. The system is reliable, safe, practical, and comfortable for the patient.

P53, MDM-2, BAX and BCL-2 and drug resistance in chronic lymphocytic leukemia.

Most antitumor agents exert their cytotoxic effect through the induction of apoptosis, and this process may be mediated through an elevation in p53 protein, with a subsequent increase in bax and decrease in bcl-2. p53 also increases mdm-2 expression and mdm-2 may then bind and inactivate p53. Cells from 31 patients with chronic lymphocytic leukemia (CLL) were treated in vitro with 2-chlorodeoxyadenosine (CdA), arabinosyl-2-fluoroadenine (F-ara-A), or chlorambucil (CLB) and drug sensitivity measured using the MTT assay. The protein levels of bax and bcl-2 were measured in CLL cells from 25 patients, and were found to be higher in leukemic cells than in normal B cells. The bcl-2 levels varied three-fold, the bax levels fifteen-fold, and the bax:bcl-2 ratios ranged from 0.44 to 2.91. The expression of mdm-2 mRNA was measured in CLL cells from 28 patients and was found to vary twenty-fold. However, no correlation was observed between drug sensitivity to CdA, F-ara-A, or CLB and the cellular levels of mdm-2 mRNA, or the protein levels of bax or bcl-2, or the bax:bcl-2 ratio. Treatment of CLL cells having wild type p53 with CdA, F-ara-A or CLB produced an increase in p53 protein and mdm-2 mRNA. This was not observed in cells having a p53 mutation, and these cells were highly resistant to both CLB and the nucleoside analogs. In contrast to the nucleoside analogs and CLB, dexamethasone and vincristine had no effect on mdm-2 mRNA levels. Treatment of CLL cells containing a wild type p53 gene with CdA, F-ara-A, or CLB, did not produce any consistent changes in bax or bcl-2. Thus, CdA, F-ara-A and CLB appear to act in CLL cells through a p53-dependent pathway, whereas this does not occur with dexamethasone or vincristine. The cellular levels of mdm-2, bcl-2, bax or the bax:bcl-2 ratios are not predictive indicators of clinical sensitivity in CLL, but an increase in mdm-2 levels after drug treatment is indicative of p53 function in these cells.

Immunotherapy for insulin-dependent diabetes mellitus in the "BB" rat.

We have previously reported that weekly administration of the adenosine deaminase inhibitor, 2'-deoxycoformycin (dCF), reduces the incidence of insulin-dependent diabetes mellitus (IDDM) in the BB Wistar rat, and this effect is likely due to immunosuppression by dCF. In the present study, we examined the effect of altering the dose and scheduling of dCF on prevention of IDDM in the BB rat. When rats were treated from day 25 of age with 2.5, 4, or 10 mg of dCF/kg/week, the percentage of diabetes-free animals at 120 days of age was 40, 60, and 80% respectively, compared with 10% for control animals, demonstrating increased protection against IDDM with increased dCF dose. Histological assessment of the pancreata from animals that became diabetic revealed a marked mononuclear infiltrate and a loss of positive staining for beta cell granules. In contrast, pancreata from animals that remained diabetes-free appeared normal. Protection against IDDM by dCF was time dependent and only occurred if treatments were initiated by day 30 of age. In addition, the protective effect persisted after drug withdrawal. Further studies are required to determine the optimum duration of therapy with dCF to prevent IDDM and to examine the immunological mechanism responsible for this effect.

Induction of DT-diaphorase in cancer chemoprevention and chemotherapy.

DT-diaphorase (EC 1.6.99.2) is a flavoprotein that catalyses two-electron reduction of quinones, quinone imines, and nitrogen oxides. It is a Phase II detoxifying enzyme that can detoxify chemically reactive metabolites, and may be important in an early cellular defense against tumorigenesis. DT-diaphorase is also an activating enzyme for bioreductive antitumor agents like mitomycin C (MMC) and EO9. DT-diaphorase is induced in many tissues by a wide variety of compounds including dithiolethiones and isothiocyanates. Dithiolethiones are chemoprotective agents against a variety of chemical carcinogens in animal models, and the dithiolethione analogue, oltipraz, is currently in Phase I and Phase II clinical chemoprevention trials. Similarly, the isothiocyanate derivative, sulforaphane, blocks the formation of carcinogen-induced mammary tumors in rats. The low toxicity of these inducers of DT-diaphorase makes them suitable for use as chemopreventive agents in high-risk individuals. Cells with elevated DT-diaphorase levels are generally more sensitive to bioreductive antitumor agents. Thus, we suggested that the antitumor efficacy of bioreductive agents can be enhanced by selective induction of DT-diaphorase in tumor cells compared with normal cells. We showed that 1,2-dithiole-3-thione (D3T) can increase the level of DT-diaphorase activity and the cytotoxic activity of bioreductive agents in mouse lymphoma cells without increasing these activities in normal mouse marrow cells. D3T also increased DT-diaphorase activity in 24 of 33 human tumor cell lines representing nine tissue types with no obvious relationships between the tumor type, or the base level of DT-diaphorase activity, and the ability to increase enzyme activity. A series of dithiolethione analogues and dietary components were also shown to be good inducers of DT-diaphorase in human tumor cells. D3T increased DT-diaphorase activity in normal human bone marrow and kidney cells but the increases were small in these cells. Combination treatment with D3T and EO9 increased cell kill in HL-60 human leukemia cells compared with EO9 alone, but had no effect on EO9 toxicity in normal human kidney cells. Similarly, D3T increased tumor cell kill by EO9 in H661 human lung cancer cells and by MMC in T47D human breast cancer cells. Thus, inducers of DT-diaphorase may play an important role in cancer chemoprevention programs and may also be useful in enhancing the antitumor efficacy of bioreductive agents.

In vitro cytotoxicity of 2-chlorodeoxyadenosine and chlorambucil in chronic lymphocytic leukemia.

Chronic lymphocytic leukemia (CLL) is most commonly treated with the alkylating agent chlorambucil (CLB), although the nucleoside analogs, fludarabine (Flu) and 2-chlorodeoxyadenosine (CdA), are also effective in this disease. In this study, we investigated the in vitro cytotoxicity of CdA and CLB in CLL cells from 12 patients in vitro. Treatment with CLB for 6 h, followed by CdA for 18 h, resulted in 2.3- to 7.5-fold synergistic cytotoxicity in leukemic cells from 10 patients and an additive effect in cells from two patients. In general, synergy was greatest in patients who were sensitive to CLB or CdA, and could be enhanced by increasing the concentrations of CLB or CdA. Synergy was only observed if the cells were treated with CLB prior to CdA. Synergy could not be explained by an increase in the incorporation of CdA into DNA, or by the inhibition of repair of CLB-induced DNA crosslinks by CdA. In contrast to CLL cells, treatment of human marrow in vitro with CLB and CdA resulted in a low level of synergy for CFU-GM cells, and additive cell kill in erythroid progenitors. Thus, treatment with CdA and CLB can produce selective synergistic cell kill in CLL cells, and combination therapy may improve the therapeutic index of these agents in chemosensitive patients.

Chlorambucil in chronic lymphocytic leukemia: mechanism of action.

Chronic lymphocytic leukemia (CLL) is the most common leukemia in Western countries but the clinical presentation and rate of disease progression are highly variable. When treatment is required the most commonly used therapy is the nitrogen mustard alkylating agent, chlorambucil (CLB), with or without prednisone. Although CLB has been used in the treatment of CLL for forty years the exact mechanism of action of this agent in CLL is still unclear. Studies in proliferating model tumor systems have demonstrated that CLB can bind to a variety of cellular structures such as membranes, RNA, proteins and DNA; however, DNA crosslinking appears to be most important for antitumor activity in these systems. In addition, a number of different mechanisms can contribute to CLB resistance in these tumor models including increased drug metabolism, DNA repair and CLB detoxification resulting from elevated levels of glutathione (GSH) and glutathione S-transferase (GST) activity. However, unlike tumor models in vitro, CLL cells are generally not proliferating and studies in CLL cells have raised questions about the hypothesis that DNA crosslinking is the major mechanism of antitumor action for CLB in this disease. CLB induces apoptosis in CLL cells and this appears to correlate with the clinical effects of this agent. Thus, alkylation of cellular targets other than DNA, which can also induce apoptosis, may contribute to the activity of CLB. Alterations in genes such as p53, mdm-2, bcl-2 and bax which control entry into apoptosis may cause drug resistance. Loss of wild-type p53 by mutation or deletion occurs in 10 to 15% of CLL patients and appears to correlate strongly with poor clinical response to CLB. The induction of apoptosis by CLB is paralleled by an increase in P53 and Mdm-2 but this increase in not observed in patients with p53 mutations indicating that with high drug concentrations CLB can produce cell death through P53 independent pathways. The level of Mdm-2 mRNA in the CLL cells is not a useful predictor of drug sensitivity. In addition, although Bax and Bcl-2 are important regulators of apoptosis and the levels of these proteins are elevated in CLL cells compared with normal B cells, the levels of Bax and Bcl-2, or the Bax:Bcl-2 ratio, are not important determinants of drug sensitivity in this leukemia. Finally, whereas CLB and nucleoside analogs may produce cell death in CLL by a P53 dependent pathway other agents, such as dexamethasone or vincristine, may act through P53-independent pathways.

Induction of DT-diaphorase by 1,2-dithiole-3-thione and increase of antitumour activity of bioreductive agents.

Bioreductive antitumour agents are an important new class of anticancer drugs that require activation by reduction. The two-electron reducing enzyme, DT-diaphorase, has been shown to be an important activating enzyme for the bioreductive agents, mitomycin C (MMC) and EO9. Incubation of L5178Y murine lymphoma cells in vitro with 1,2-dithiole-3-thione (D3T) increased the level of DT-diaphorase activity in these cells 22-fold. In contrast, D3T had no effect on the DT-diaphorase level in normal mouse bone marrow cells. Combination therapy with D3T and MMC or EO9, produced a 2- or 7-fold enhancement, respectively, of the cytotoxic activity of these antitumour agents in L5178Y cells. By comparison, D3T did not enhance the activity of MMC in marrow cells and produced only a small increase in EO9 cytotoxicity in these cells. The DT-diaphorase inhibitor, dicoumarol, inhibited the effect of D3T on the antitumour activity of the bioreductive agents, supporting the proposal that the enhanced anticancer activity was due to the elevated enzyme level. These findings suggest that D3T, or other inducers of DT-diaphorase, could be used to enhance the antitumour efficacy of bioreductive antitumour agents.

Comparison of antitumor activities of 2-chlorodeoxyadenosine and 9-beta-arabinosyl-2-fluoroadenine in chronic lymphocytic leukemia and marrow cells in vitro.

The in vitro antitumor activities of the nucleoside analogs, 2-chlorodeoxyadenosine (CdA) and 9-beta-arabinosyl-2-fluoroadenine monophosphate (Flu), and the alkylating agent, chlorambucil (CLB), were compared in leukemic cells from 28 patients with chronic lymphocytic leukemia (CLL). On a molar basis, the median sensitivities of the cells to these agents were CLB > CdA > Flu. CLL cells from 90% of the patients had similar relative orders of sensitivities to CdA and Flu, while cells from 10% of the patients showed differential sensitivities to these agents. There was no relationship between the sensitivities of the cells to the nucleoside analogs and sensitivity to CLB. CdA and CLB produced similar toxicities to human marrow progenitor cells in vitro, while Flu was less toxic to these cells. An 18 h exposure to CdA produced significantly greater cell kill of both CLL and marrow progenitor cells than an equivalent 2 h treatment; however, the difference in cytotoxicity was greater for the tumor cells resulting in a higher therapeutic index with the 18 h treatment. The intracellular accumulation of drug varied 5-fold for CdA, with the major metabolite being CdAMP, and 15-fold for Flu, with the major metabolite being F-ara-ATP. However, the accumulation of CdA, Flu or their metabolites did not predict for drug sensitivity. These studies suggest that CdA and Flu cross-resistance cannot be assumed in all CLL patients. The therapeutic effectiveness of CdA may be enhanced by use of a prolonged, low-dose drug regimen.

Induction of DT-diaphorase by doxorubicin and combination therapy with mitomycin C in vitro.

Mitomycin C (MMC) is a bioreductive antitumor agent that is activated by NADPH:cytochrome P450 reductase (EC 1.6.2.4) and NAD(P)H:(quinone acceptor) oxidoreductase (EC 1.6.99.2) (DT-diaphorase). DT-diaphorase is a two-electron reducing enzyme that is induced by a variety of chemicals, including quinones. Doxorubicin (DOX) is an anthraquinone antitumor agent that has been used clinically with MMC for combination chemotherapy in breast cancer. In this study, we investigated whether DOX could selectively induce DT-diaphorase in tumor cells and whether combining this agent with MMC in an appropriate schedule could produce synergistic antitumor activity. Treatment of EMT6 murine mammary tumor cells with DOX resulted in a 40% increase in DT-diaphorase activity in these cells, but had no effect on this enzyme in murine bone marrow cells. Combination therapy with DOX and MMC produced a 1.4-fold level of synergistic cell kill in the tumor cells, but a similar level of synergy was also observed in normal bone marrow cells. Thus, DOX can selectively induce elevated levels of DT-diaphorase in tumor cells; however, the synergy observed by combining this agent with MMC appears to be unrelated to the induction of DT-diaphorase.

Deposition of transforming growth factor-beta in the marrow in myelofibrosis, and the intracellular localization and secretion of TGF-beta by leukemic cells.

The marrows of 10 patients with hematologic malignancies were examined by immunohistochemistry using anti TGF-beta antibody, CC(1-30), which detects secreted TGF-beta, and compared with four normal marrows. TGF-beta was not demonstrated in marrows with a normal level of reticulin fibrosis; however, TGF-beta was observed within collagen in marrows having collagen fibrosis or increased reticulin fibrosis. The extent of TGF-beta deposition paralleled the severity of fibrosis (P < .0001), and occurred even with normal or reduced numbers of megakaryocytes. Using another TGF-beta antibody, LC(1-30), which detects intracellular TGF-beta, TGF-beta was detected by immunofluorescence in discrete sites in the cytoplasm of immature and mature myeloid and large granular lymphocytic leukemia cells. These sites colocalized with areas detected by an anti-granule antibody (D545) suggesting that TGF-beta was stored in granules. However, neither the TGF-beta mRNA content nor the degree of TGF-beta secretion by these leukemic cells correlated with the extent of TGF-beta deposition in the marrow. Thus, TGF-beta deposition in marrow may contribute to myelofibrosis, but the source of this cytokine in the absence of megakaryocytes requires further study.