Apoptosis in the preimplantation mouse embryo: effect of strain difference and in vitro culture.

Cell death by apoptosis occurs predominantly in the inner cell mass (ICM) of the blastocyst, the cell population which carries the germ line and gives rise to the foetus. The frequency of apoptosis in blastocysts varies widely within outbred species such as human and cow. We have addressed the basis of this variation by examining the relative influence of strain difference and in vitro culture conditions on apoptosis, using embryos from two different strains of mice (MF1 and C57BL6/CBA) in two different culture media (M16 and kSOM). In both strains and all crosses apoptosis was first detected by nuclear fragmentation or TUNEL [Terminal deoxynucleotidyl transferase mediated d-UTP nick end-labelling] labelling at the early blastocyst stage. This was true for embryos which had developed in vivo, and in vitro in both M16 and kSOM. The apoptotic index in blastocysts was found to be significantly different between both media and strain (P < 0.0001). Blastocysts from MF1 x MF1 at equivalent stages had an apoptotic index of 32.4% in M16 and 20.3% in kSOM. Blastocysts from C57BL6/CBA x C57BL6/CBA had an apoptotic index of 19.3% in M16 and 14.4% in kSOM. When embryos of similar cell number were compared, a significantly greater apoptotic index was found for cultured MF1 x MF1 embryos with a cell number between 40 and 59 compared to similar directly flushed C57BL6/CBA embryos (P = 0.001), and MF1 embryos (P < 0.0005). MF1 x MF1 embryos and C57BL6/CBA x MF1 embryos of 60-79 cells had a greater apoptotic index in M16 than kSOM (P < 0.0005) but the difference between media was not significant for C57BL6/CBA x C57BL6/CBA. When strain was compared MF1 x MF1 embryos of 60-79 cells had a significantly greater apoptotic index than C57BL6/CBA x MF1 in both media (P < 0.0005 M16; P = 0.002 kSOM) and than C57BL6/CBA x C57BL6/CBA in M16 (P = 0.019). Our data suggest that genetic make-up and the chemical composition of simple medium are equally important in determining the level of apoptosis.     

Induction of apoptosis in murine leukemia by diarylheptanoids from Curcuma comosa Roxb.

Diarylheptanoids, isolated from the rhizome of Curcuma comosa Roxb., have several biological activities including anti-oxidant and anti-inflammation. The present study investigated the effect of five diarylheptanoids isolated from C. comosa rhizome on the proliferation of murine P388 leukemic cells. Compound-092, (3S)-1-(3,4-dihydroxyphenyl)-7-phenyl-(6E)-6-hepten-3-ol, bearing a catechol moiety, was the most potent diarylheptanoid (IC₅₀ of 4 μM) in inhibiting P388 leukemic cell viability by causing DNA breakage and inducing apoptosis. Apoptotic cell death was characterized by the presence of chromatin condensation, formation of apoptotic bodies, DNA fragmentation, and externalization of plasma membrane phosphatidylserine. This compound increased caspase-3 activity about fivefold above the untreated control, decreased the intracellular reduced glutathione level, and impaired mitochondrial transmembrane potential. In the presence of Cu(II) ion, the compound exhibited a pro-oxidant activity causing DNA strand breakage and enhancing the anti-proliferative activity. The results provide evidence for the pro-oxidant activity of the diarylheptanoid bearing a catechol moiety in the induction of apoptosis in murine P388 leukemia.     

Plasma membrane phospholipid asymmetry precedes DNA fragmentation in different apoptotic cell models

 Biochemical alterations occurring in many cell types during apoptosis include the loss of plasma membrane phospholipid asymmetry and nuclear DNA fragmentation. Annexin V staining detects phosphatidylserine translocation into the outer plasma membrane layer occurring during cell death, while the in situ tailing (IST or TUNEL) reaction labels the DNA strand breaks typical of apoptosis. To compare the time course of these processes we investigated methylprednisolone-induced apoptosis of rat thymocytes, topoisomerase inhibitor-induced apoptosis in the human histiocytic lymphoma cell line U937, and serum deprivation-induced apoptosis in the rat pheochromocytoma cell line, PC12. At all time points, FACS analysis and quantitative fluorescence light microscopy showed a higher proportion of annexin V-positive than IST-positive cells, with significantly different time courses in the apoptotic cell models investigated (Anova test). Results were confirmed by confocal microscopy. Our data indicate that the exposure of phosphatidylserine, a potential phagocyte recognition signal on the cell surface of apoptotic cells in vivo, precedes DNA strand breaks during apoptosis in different cell types. Accepted: 29 June 1998     

8-hydroxydeoxyguanosine causes death of human leukemia cells deficient in 8-oxoguanine glycosylase 1 activity by inducing apoptosis

Our previous study showed that KG-1, a human acute leukemia cell line, has mutational loss of 8-oxoguanine (8-hydroxyguanine; oh(8)Gua) glycosylase 1 (OGG1) activity and that its viability is severely affected by 8-hydroxydeoxyguanosine (8-oxodeoxyguanosine; oh(8)dG). In the present study, the nature of the killing action of oh(8)dG on KG-1 was investigated. Signs observed in oh(8)dG-treated KG-1 cells indicated that death was due to apoptosis, as demonstrated by: increased sub-G(1) hypodiploid (apoptotic) cells, DNA fragmentation, and apoptotic body formation; loss of mitochondrial transmembrane potential, the release of cytochrome c from mitochondria into the cytosol, and the down-regulation of bcl-2; and the activation of caspases 8, 9, and 3, and the efficient inhibition of the apoptotic process by caspases inhibitors. This apoptosis appears not to be associated with Fas/Fas ligand because the expressions of these proteins were unchanged. Apoptotic KG-1 cells showed a high concentration of oh(8)Gua in DNA. Moreover, the increased concentration of oh(8)Gua in DNA, and the apoptotic process were not suppressed by the antioxidant, N-acetylcysteine, and thus the process is independent of reactive oxygen species. Of the 18 cancer cell lines treated with oh(8)dG, 3 cell lines (H9, CEM-CM3, and Molt-4) were found to be committed to apoptosis, and all of these showed very low OGG1 activity and a marked increase in the concentration of oh(8)Gua in DNA. These observations indicate that in addition to its mutagenic action, oh(8)Gua in DNA disturbs cell viability by inducing apoptosis.     

Microtubules play an essential role in the survival of primary acute lymphoblastic leukemia cells advancing through G1 phase

We recently reported that primary acute lymphoblastic leukemia (ALL) cells are susceptible to the microtubule depolymerizing agent vincristine (VCR) in G1 phase. This finding prompted testing another G1 phase-active compound, palbociclib (PCB), a highly selective inhibitor of cyclin-dependent kinases 4/6 (CDK4/6), alone and in combination with VCR. PCB used alone caused G1 arrest in ALL cells with no effect on cell viability, and similar results were obtained for the retinoblastoma (RB)-proficient T98G glioblastoma cell line. In contrast, HeLa cells failed to arrest in the presence of PCB, consistent with their lack of dependence on the CDK4/6-RB pathway. When ALL cells were pretreated with PCB, they became refractory to death in G1 phase induced by VCR treatment, whereas HeLa cells retained VCR sensitivity after PCB pretreatment. Immunofluorescence microscopy showed that PCB did not disrupt the microtubule network nor prevent VCR from doing so. Furthermore, ALL cells pretreated with PCB retained susceptibility to the Bcl-2/Bcl-xL inhibitor ABT-263, indicating that downstream apoptotic signaling was unaffected. When released from PCB-enforced arrest, ALL cells reinitiated cycling and regained sensitivity to VCR. ALL cells treated with cycloheximide also arrested in G1 phase and became insensitive to VCR, independently reinforcing conclusions derived from PCB-imposed arrest. Thus, primary ALL cells advancing through G1 phase are strictly dependent on functional microtubules for survival whereas microtubules are dispensable for G1-arrested cells. These findings provide novel insight into interphase microtubule function and, from a therapy standpoint, strongly caution against combining microtubule targeting agents and CDK4/6 inhibitors for ALL.     

Hydrogen peroxide induces topoisomerase I-mediated DNA damage and cell death

Reactive oxygen species modify DNA, generating various DNA lesions including modified bases such as 8-oxoguanine (8-oxoG). These base-modified DNA lesions have been shown to trap DNA topoisomerase I (TOP1) into covalent cleavage complexes. In this study, we have investigated the role of TOP1 in hydrogen peroxide toxicity. We showed that ectopic expression of TOP1 in Saccharomyces cerevisiae conferred sensitivity to hydrogen peroxide, and this sensitivity was dependent on RAD9 checkpoint function. Moreover, in the mammalian cell culture system, hydrogen peroxide-induced growth inhibition and apoptosis were shown to be partly TOP1-dependent as evidenced by a specific increase in resistance to hydrogen peroxide in TOP1-deficient P388/CPT45 murine leukemia cells as compared with their TOP1-proficient parental cell line P388. In addition, hydrogen peroxide was shown to induce TOP1-DNA cross-links. These results support a model in which hydrogen peroxide promotes the trapping of TOP1 on oxidative DNA lesions to form TOP1-DNA cleavage complexes that contribute to hydrogen peroxide toxicity.     

Mechanisms of the antitumor action of spirobromine in mice with leukemia P-388

The influence of new antitumor drug, spirobromine, a derivative of dispirotripiperazine, on DNA synthesis in tumor cells and organs at different times after its injection into mice with P388 leukemia has been studied. The duration of DNA synthesis inhibition in tumor cells was found to correlate with spirobromine antitumor activity. A certain selectivity of action of the studied compound on DNA synthesis in P 388 leukemia cells as compared to the action on DNA synthesis in bone marrow, small intestine, spleen and liver of tumor animals was observed.     

Regulation by survivin of cancer cell death induced by F14512, a polyamine-containing inhibitor of DNA topoisomerase II

F14512, an epipodophyllotoxin derivative equipped with a spermine moiety, is selectively taken up by the polyamine transport system over-active in tumor cells. F14512 was identified as a selective anticancer agent with a broad spectrum of antitumor activities and is currently undergoing phase I clinical trial in onco-hematology. However, the mechanism by which F14512 exerts its selective effects on neoplastic cells remains poorly understood. In this study, using mainly P388 leukemia cells, we showed that activation of the DNA damage response by F14512 did not induce immediate apoptosis but resulted in an early growth arrest. F14512-induced G2 arrest was accompanied by the appearance of a senescence-like phenotype (characterized by an increased β-galactosidase staining) with up-regulation of the cyclin-dependent kinase inhibitor p16, and cyclin D1. The early senescence-based cell cycle block was characterized by a marked increase of the level of the IAP protein survivin, but not cIAP2, in P388 cells as well as in three other leukemia and melanoma cell types. The Thr(34)-phosphorylated form of survivin was observed within 4 h after F14512 exposure. Inhibition of survivin by siRNA resulted in a switch from senescence-like growth arrest to apoptosis. Compared with the parental drug etoposide, F14512-induced DNA damage signaling pathway resulted in greater senescence like-growth arrest and delayed apoptosis. Collectively, our data show that senescence arrest and subsequent apoptosis are powerful mechanisms mediating the chemotherapeutic effects of F14512 and identify survivin as the molecular determinant responsible for a qualitative shift in cell fate from senescence to apoptosis upon treatment with F14512.     

The endogenous differentiation factor of the HL-60 cells shows a nuclease activity

A structural homology between the endogenous differentiation factor of the HL-60 cell line of promyelocyte leukemia (HLDF) and several DNA/RNA-binding and DNA/RNA-hydrolyzing proteins was revealed, and expression of the hldf gene in prokaryotic systems was studied. On the basis of these experiments, the amino acid sequence of an 8-membered fragment of HLDF with potential nuclease activity was identified. The synthetic octapeptide RRWHRLKE was shown to be capable of the cleavage of RNA, linear DNA from phage lambda, and all forms of plasmid DNA. We established that treatment of the HL-60 cell culture with this peptide (10(-6) M) results in an increase in the number of apoptotic cells and suggested that HLDF is involved in processes of apoptosis.     

Antiapoptotic Activity of the Herpesvirus Saimiri-Encoded Bcl-2 Homolog: Stabilization of Mitochondria and Inhibition of Caspase-3-Like Activity

Viruses have evolved different strategies to interfere with host cell apoptosis. Herpesvirus saimiri (HVS) and other lymphotropic herpesviruses code for proteins that are homologous to the cellular antiapoptotic Bcl-2. In this study HVS-Bcl-2 was stably expressed in the human leukemia cell line Jurkat and in the murine T-cell hybridoma DO to assess its antiapoptotic spectrum and to gain further insight into its mode of action. HVS- Bcl-2 prevented apoptosis that occurs as a result of a disturbance of intracellular homeostasis by, for example, DNA damage or menadione, which gives rise to oxygen radicals. In Jurkat cells, HVS-Bcl-2 also inhibited apoptosis mediated by the death receptor CD95. In DO cells, HVS-Bcl-2 did not interfere with CD95-mediated apoptosis but blocked dexamethasone-induced cell death. Mitochondrial damage is a central coordinating event in apoptosis induced by different stimuli. To assess the integrity of mitochondria, we used rhodamine 123, which is released upon disturbance of the mitochondrial membrane potential, and determined the release of cytochrome c into the cytosol. Both signs of mitochondrial damage were prevented by HVS-Bcl-2. This viral protein also inhibited the generation of caspase-3-like DEVDase activity and blocked the cleavage of poly(ADP-ribose) polymerase, a natural substrate of caspase-3-like proteases. In conclusion, HVS-Bcl-2 protects against a great variety of apoptotic stimuli, stabilizes mitochondria, and acts upstream of the generation of caspase-3-like activity.     

Effects of naringin on cytosine arabinoside (Ara-C)-induced cytotoxicity and apoptosis in P388 cells

Naringin (NG), a flavonoid in grapefruit and citrus, has been reported to exhibit antioxidant effects and pharmacological actions. Recently, we have reported that NG suppressed the cytotoxicity and apoptosis induced by H(2)O(2), a typical pro-oxidant, in mouse leukemia P388 cells. Cytosine arabinoside (1-beta-d-arabinofuranosylcytosine; Ara-C) is the most important antimetabolite chemotherapeutic drug used for acute leukemia. It has been suggested that Ara-C-induced cytotoxicity is caused by apoptosis, which is mediated by reactive oxygen species (ROS). In this study, we examined the effect of NG on the cytotoxicity and apoptosis in mouse leukemia P388 cells treated with Ara-C. Ara-C caused cytotoxicity in a concentration and time-dependent manner in the cells. N-Acetyl-L-cysteine (NAC), cystamine (CysA) or a reduced form of glutathione (GSH), typical antioxidants significantly blocked Ara-C-induced cytotoxicity. Similarly, Ara-C-induced cell death was completely prevented by NG. NG strongly reduced ROS production caused by Ara-C in the cells. NG slightly increased the activities of antioxidant enzymes, catalase and glutathione peroxidase. Ara-C caused apoptosis with nuclear morphological change and DNA fragmentation. NG remarkably attenuated the Ara-C-induced apoptosis. NG completely blocked the DNA damage caused by Ara-C treatment at 6 h using the Comet assay. Our data suggest that NG reduces Ara-C-induced oxidative stress through both an inhibition of the generation of ROS production and an increase in antioxidant enzyme activities. Consequently, NG blocked apoptosis caused by Ara-C-induced oxidative stress, resulting in the inhibition of the cytotoxicity of Ara-C.     

Biologic Activity of a Nucleotide Conjugate Between Mitomycin C and Cytarabine Monophosphate

Abstract

A dual prodrug conjugate between the antimetabolite cytarabine monophosphate and the alkylating agent 2,7-diaminomitosene (derived from mitomycin C), cytaramycin, was synthesized and tested for antileukemic activity in sensitive and resistant tumors. The compound was active against parental L-1210, CCRF-CEM, HL-60 and K-562 leukemia cells but did not overcome resistance in sublines developed for (1) multidrug resistance (L-1210/MDR and K-562-R) or (2) for cytarabine resistance (CCRF-CEM/ARA-C and HL-60/ARA-C). Alkaline DNA elution tests demonstrate a predominance of strand breaking activity due to the cytarabine moiety, and a lesser degree of DNA crosslinking, due to the mitosene moiety. The conjugate was active in mice bearing P-388 leukemia (80% increased lifespan), but was not more effective than mitomycin C alone in mice bearing a cytarabine-resistant L-1210 cell line (38% to 31% increased lifespan). These findings suggest that mitomycin nucleotide conjugates do not overcome resistance to the parent antimetabolites.     

酒精促PC12细胞凋亡及对神经鞘磷脂合酶表达和活性的影响

目的 观察酒精诱导PCI2细胞凋亡及其凋亡过程中神经鞘磷脂合酶活性和mRNA表达量的变化.方法 MTr法测定酒精对PCI2细胞增殖的抑制作用.Hoeelmt33258染色荧光显微镜观察PCI2细胞凋亡形态学变化.DNA琼脂糖凝胶电泳检测细胞凋亡梯状DNA条带.RT-PCR法检测酒精对PCI2细胞SMSI和SMS2 mRNA表达的影响.薄层层析法测定SMS的活性.结果 PCI2细胞去血清培养24 h,酒精浓度在100、200、400和800 mmoL/L时,细胞存活率分别是单纯去血清的87.54%、70.73%、57.89%和51.70%,表现出较强的细胞增殖抑制作用（P〈0.05）;细胞核形态学变化显示酒精处理组凋亡细胞增多,表现染色质凝集,细胞核变小、核碎裂成碎片等典型细胞凋亡特征性变化,凋亡率随着酒精浓度的增大而升高,去血清组的酒精浓度为100、200和300 mmol/L时,细胞凋亡率呈剂量依赖关系;琼脂糖凝胶电泳可见酒精处理组有不同程度的DNA断裂,显示凋亡细胞典型的梯状DNA.RT-PCR检测酒精对PCI2细胞SMS转录水平结果显示,不同浓度酒精作用于PCI2细胞0.5 h,SMSI表达量无显著变化,当作用时间达1h和2 h,SMSl表达量显著增加,并呈剂量依赖性,而SMS2的mRNA表达则不受酒精作用的影响;薄层层析法检测细胞总SMS活性显示,不同浓度酒精作用2 h,细胞SMS活性随酒精浓度增加而升高.结论 酒精可导致PCI2细胞凋亡并与酒精浓度呈正相关.酒精致PCI2细胞凋亡过程中SMSl的mRNA表达量增高,酶活性增强,提示酒精致PCI2细胞凋亡作用与鞘磷脂循环有关.     

Cytokine production by macrophages in association with phagocytosis of etoposide-treated P388 cells in vitro and in vivo.

Chemotherapy and radiotherapy are performed for cancer patients with the hope that dying cancer cells are safely scavenged by phagocytic cells such as macrophages. In this study, we examined cytokine production by macrophages during and after the phagocytosis of etoposide-treated P388 cells in vitro and in vivo. Etoposide caused apoptosis as early as 5 h after treatment, as assessed as to the exposure of phosphatidylserine, increase in membrane permeability and DNA ladder formation. Phagocytosis by phorbol myristate acetate (PMA)-treated THP-1 cells occurred marginally when P388 cells were treated with etoposide for 10 h, while it occurred significantly with P388 cells treated for 24 h, as evidenced by flow cytometry and confocal microscopy. PMA-treated THP-1 cells produced pro-inflammatory cytokines, such as interleukin (IL)-1alpha, IL-8 and macrophage migration inhibitory factor (MIF), but not anti-inflammatory cytokines among those tested at the mRNA level during and after the phagocytosis of apoptotic cells. IL-8 and MIF were also produced at the protein level, and the IL-8 production was dependent on cell-to-cell contact when the plasma membranes of apoptotic cells were intact enough not to leak one of the cytoplasmic enzymes, lactate dehydrogenase. In addition, etoposide-treated P388 cells induced neutrophil infiltration as well as MIP-2 production upon injection into the peritoneal cavity of either normal mice or mice with sterile peritonitis. When macrophages ingesting and/or binding apoptotic P388 cells were isolated from the mice with sterile peritonitis using a cell sorter, they were found to produce MIP-2 upon culture.     

Mannose 6-phosphate/insulin-like growth factor II receptor mediates the growth-inhibitory effects of retinoids.

Both retinoids and the mannose 6-phosphate/insulin-like growth factor-II receptor (M6P/IGF2R) have been shown to play an important role in controlling cell growth during embryonic development and oncogenesis. Our recent work (Kang et al., Proc. Natl. Acad. Sci. USA, 94: 13671-13676, 1997; Kang et al., Proc. Natl. Acad. Sci. USA, 95: 13687-13691, 1998) revealed a direct biochemical interaction between retinoic acid (RA) and the M6P/IGF2R, thereby leading us to hypothesize that the M6P/IGF2R may mediate a growth-inhibiting effect of RA. To test this hypothesis, cell growth and apoptosis in response to RA and various receptor-selective retinoids were examined in cells that lack or overexpress the M6P/IGF2R. RA and those retinoids capable of binding to the M6P/IGF2R induced a remarkable morphological change with characteristics of round shape and reduced spreading, apoptosis, and growth inhibition in stably transfected mouse P388D1 cells overexpressing the M6P/IGF2R but not in the M6P/IGF2R-deficient P388D1 cells. These effects of RA were neither blocked by a potent RA nuclear receptor (RAR) antagonist (AGN193109), nor mimicked by a selective RAR agonist (TTNPB), suggesting that the observed effects of RA are independent of RARs. Similar effects of the retinoids were observed in cultured neonatal rat cardiac myocytes that have high levels of the M6P/IGF2R. Furthermore, overexpression of the M6P/IGF2R in a RA-resistant cancer cell line (HL-60R) that lacked functional RARs gave the cells a susceptibility to RA-induced apoptosis. These data suggest that the M6P/ IGF2R may play an important role in mediating retinoid-induced apoptosis/growth-inhibition and provide insight into the similar biological effects of RA and the M6P/IGF2R on fetal development and carcinogenesis.     

维甲酸诱导的人大肠癌细胞凋亡

本研究应用光镜、电镜技术、DNA凝胶电泳、流式细胞术及末端脱氧核苷酰转移酶原位标记(TUNEL法),观察全反式维甲酸ATRA诱导的人大肠癌CCL229细胞凋亡特征。RA诱导CCL229细胞凋亡,光、电镜下观察到凋亡小体形成等典型的形态学改变,琼脂糖凝胶电泳上呈现特征性的DNA ladder,DNA直方图上显示亚二倍体峰。10-8mol/L-105mol/L范围内,RA诱导CCL229细胞凋亡表现出时间和剂量依赖性。     

Gene amplification in murine leukemia cells with multiple drug resistance acquired in vivo

The P388rm and P388rx cell lines resistant to antracycline antibiotics were obtained as a result of chemotherapy of mice bearing P388 leukemia, by means of increasing dosages of rubomycin and ruboxyl, respectively. These cell lines possessed cross-resistance to vinblastine, vincristine, colchicine, actinomycin D and some other drugs. Multidrug resistance (MDR) of P388rm and P388rx is due to decreased uptake of different cytotoxic compounds by the cells. Development of resistance to rubomycin and ruboxyl was accompanied by the appearance of additional chromosomal structures--long homogeneously staining regions (HSRs), double minute chromosomes and others usually containing amplified DNA sequences. Southern blot-hybridization with cloned DNA fragments amplified in Djungarian and Chinese hamster cell lines having MDR has revealed in P388rm and P388rx cells approximately 50-fold amplification of mdr and pC52 genes. Thus, in mouse leukemia cells which acquired MDR in vivo, as a result of chemotherapy, amplification is observed of the same genes that undergo amplification during selection of cell cultures for MDR in vitro.     

The nuclease activity of the endogenous differentiation factor of the HL-60 cell line

A structural homology between the endogenous differentiation factor of the HL-60 cell line of promyelocyte leukemia (HLDF) and several DNA/RNA-binding and DNA/RNA-hydrolyzing proteins was revealed, and expression of thehldf gene in prokaryotic systems was studied. On the basis of these experiments, the amino acid sequence of an 8-membered fragment of HLDF with potential nuclease activity was identified. The synthetic octapeptide RRWHRLKE was shown to be capable of the cleavage of RNA, linear DNA from phage λ, and all forms of plasmid DNA. We established that treatment of the HL-60 cell culture with this peptide (10⁻⁶ M) results in an increase in the number of apoptotic cells and suggested that HLDF is involved in processes of apoptosis.     

In vitro evaluation of the chemosensitivity of an experimental murine leukemia rendered resistant in vivo to adriamycin

The results obtained using a rapid assay for in vitro chemosensitivity detection of leukemias are presented. The assay, performed according to the technique already described, involves in vitro incubation of a tumor cell suspension with various concentrations of antitumor drugs for 1 h and evaluation of drug-induced cell damage by addition to the cultured cells of 125I-deoxyuridine 48 h after pharmacological treatment. Results are expressed as percent inhibition of the isotope incorporation with respect to untreated controls. Preliminary results demonstrated that this assay is able to evidence differential chemosensitivity exhibited in vivo by murine leukemias. The present study reports the results obtained using comparatively P388 and P388/ADR, a subline of P388 murine leukemia with acquired resistance to Adriamycin in vivo. We found that P388/ADR exhibited resistance to ADR and DNR at all the concentrations tested, whereas P388 was highly sensitive. Cross-resistance of P388/ADR was also found to some structurally dissimilar agents, i.e. VCR and Act-D. These in vitro results correlate well with much data in the literature concerning the characteristics of resistance and cross-resistance exhibited in vivo by P388/ADR. These results suggest the possibility of using a similar in vitro assay for predicting the in vivo drug resistance of human leukemias.