Poor response to all-trans retinoic acid therapy in a t(11;17) PLZF/RAR alpha patient

All-trans retinoic acid (ATRA) is a potent inducer of differentiation and cell death in malignant cells. Its effect is known to be mediated through binding to specific nuclear (RARs and RXRs) or cytoplasmic (CRABP) proteins. ATRA is strikingly effective in acute promyelocytic leukemia (the AML3 subtype) inducing a high incidence of complete remissions. Paradoxically, most AML3 cells harbor an abnormal retinoic acid receptor (PML/RAR alpha) resulting from the t(15;17) translocation. Though few AML3 patients do not respond to ATRA therapy, individualization of these cases is of practical importance. Recently the RAR alpha gene has been demonstrated to be involved in a novel fusion transcript (PLZF/RAR alpha) through a t(11;17) translocation. We describe here the second case of such a patient with a t(11;17)-PLZF/RAR alpha leukemic clone. Southern analysis revealed that the breakpoint in the RAR alpha gene was within the second intron (as for PML/RAR alpha) and the intron separating the second and third zinc finger of the PLZF gene. In vitro, the leukemic cells did not show increased NBT reduction or loss of self-renewal after incubation with ATRA. After therapy with ATRA, only partial remission was obtained. These results suggest that the t(11;17) (PLZF/RAR alpha) case of this study was less responsive to ATRA therapy than t(15;17) (PML/RAR alpha) cases and raises the question of the definition of this novel AML subtype.

Down-regulation of retinoic acid receptor activity associated with decreased alpha and gamma isoforms expression in F9 embryonal carcinoma cells differentiated by retinoic acid

F9 embryonal carcinoma cells differentiate in response to retinoic acid (RA). To investigate the regulation of RA receptors (RARs) expression during this process, cDNA probes specific for the major RAR isoforms were used. In contrast to the level of RAR beta 2 mRNA which was high in cells treated 5 days with RA and below detection in untreated cells, as previously described, the steady state levels of RAR alpha 1, alpha 2, gamma 1, and gamma 2 mRNAs were markedly decreased in the RA-differentiated cells as compared to untreated cells. The down-regulation of the RA-responsive system in differentiated cells was also evident in gel shift assays as a marked decrease in binding capacity to a retinoid acid response element (beta 2RARE), as well as in chloramphenicol acetyltransferase (CAT) assays as a sixfold decrease in RA-mediated transacting activity via this element. The down-regulation of RAR DNA-binding and transacting activity coincided with the burst in tissue plasminogen activator secretion and thus, occurred at the hinge between early and late differentiation. The down-regulation of RA responsiveness may constitute an important event in the transition between early and late differentiation stage in F9 cells.

Acute promyelocytic leukemia: clinical relevance of two major PML-RAR alpha isoforms and detection of minimal residual disease by retrotranscriptase/polymerase chain reaction to predict relapse

Recent data have shown that the PML-RAR alpha fusion gene resulting from translocation t(15;17) is a highly reliable molecular marker of acute promyelocytic leukemia (APL). In this study performed on 97 Chinese patients with APL, the retrotranscriptase/polymerase chain reaction (RT/PCR) was used to evaluate the clinical relevance of the long (L) or short (S) PML-RAR alpha fusion mRNA isoforms and to study minimal residual disease during clinical remission (CR). There were more early deaths during the all-trans retinoic acid (ATRA) induction treatment and more relapses within 2 years of CR in the S-type (6 of 19 cases) than in the L-type group (2 of 33 cases) (P < .025). Among 12 cases analyzed before and after the ATRA-induced CR, 9 cases (75%) showed positive RT/PCR, whereas only 3 cases showed a negative result, justifying the need for chemotherapy after ATRA-induced CR. Eleven of 62 APL patients in CR, after ATRA-induced CR and chemotherapy consolidation (follow-up, from 3 to 72 months), showed positive RT/PCR. Five of them relapsed within 1 to 6 months after the positive test; one converted to negative after further chemotherapy; and 5 remained in CR status without further PCR data. However, the latter 5 cases all received further intensive consolidation therapy after the PCR positivity. These results show that a positive RT/PCR of PML-RAR alpha is a sensitive predictor of relapse in APL.

Rearrangements of the retinoic acid receptor alpha and promyelocytic leukemia zinc finger genes resulting from t(11;17)(q23;q21) in a patient with acute promyelocytic leukemia

Cytogenetic study of a patient with acute promyelocytic leukemia (APL) showed an unusual karyotype 46,xy,t(11;17) (q23;21) without apparent rearrangement of chromosome 15. Molecular studies showed rearrangements of the retinoic acid receptor alpha (RAR alpha) gene but no rearrangement of the promyelocytic leukemia gene consistent with the cytogenetic data. Similar to t(15;17) APL, all-trans retinoic acid treatment in this patient produced an early leukocytosis which was followed by a myeloid maturation, but the patient died too early to achieve remission. Further molecular analysis of this patient showed a rearrangement between the RAR alpha gene and a newly discovered zinc finger gene named PLZF (promyelocytic leukemia zinc finger). The fusion PLZF-RAR alpha gene found in this case, was not found in DNA obtained from the bone marrow of normals, APL with t(15;17) and in one patient with AML-M2 with a t(11;17). Fluorescence in situ hybridization using a PLZF specific probe localized the PLZF gene to chromosomal band 11q23.1. Partial exon/intron structure of the PLZF gene flanking the break point on chromosome 11 was also established and the breakpoint within the RAR alpha gene was mapped approximately 2 kb downstream of the exon encoding the 5' untranslated region and the unique A2 domain of the RAR alpha 2 isoform.

Inhibition of mouse GATA-1 function by the glucocorticoid receptor: possible mechanism of steroid inhibition of erythroleukemia cell differentiation

Treatment of mouse erythroleukemia (MEL) cells with hexamethylene bisacetamide induces a program of erythrodifferentiation, as judged by an increase in the synthesis of globins and other erythroid-specific products. This induction can be inhibited by glucocorticoids, e.g. dexamethasone. All globin and other erythroid-specific genes tested contain GATA response elements (GATA-RE) and can be transactivated by GATA-1, a transcription factor. GATA-1 is highly expressed in erythroid cells, including MEL cells. We noted a glucocorticoid receptor (GR) response element motif near a GATA-RE motif in the promoter region of the mouse beta-major and beta-minor globin genes and about 130 bases away from a GATA-RE in the alpha 1-globin gene promoter and, therefore, investigated the possibility that the dexamethasone-induced inhibition of induced MEL cell differentiation may involve effects of the GR on GATA-1 activity. Evidence obtained from transfection assays and DNA electrophoretic mobility shift assays indicates that the GR binds GATA-1 and interferes with its function before any interaction with DNA, but that the presence of a glucocorticoid response element near a GATA-RE augments the GR effect. The N-terminal 106-amino acid domain of the GR was found to be essential for the effect, possibly by binding to GATA-1. Since GATA-1 is autoregulatory, i.e. it has been shown by others to bind to its own promoter and up-regulate its own transcription, the finding that activated GR can interfere with GATA-1 function may provide an explanation for the inhibition by glucocorticoids of the entire program of erythroid differentiation in MEL cells. That is, by interfering with GATA-1 function, the GR inhibits not only the expression of erythroid structural genes, but may also inhibit the expression of a primary erythroid regulatory gene, GATA-1. It was also shown that the GATA-RE in each of the beta-globin promoters responds to mouse GATA-1 in a functional transfection assay.

Fusion between a novel Krüppel-like zinc finger gene and the retinoic acid receptor-alpha locus due to a variant t(11;17) translocation associated with acute promyelocytic leukaemia

We have identified a unique case of acute promyelocytic leukaemia (APL) with a t(11;17) reciprocal chromosomal translocation involving the retinoic acid receptor alpha (RAR alpha) and a previously uncharacterized zinc finger gene. As a result of this translocation, mRNAs containing the coding sequences of the new gene, fused in-frame either upstream of the RAR alpha B region or downstream from the unique A1 and A2 regions of the two major RAR alpha isoforms, are expressed from the rearranged alleles. The above gene, which we have termed PLZF (for promyelocytic leukaemia zinc finger), encodes a potential transcription factor containing nine zinc finger motifs related to the Drosophila gap gene Krüppel and is expressed as at least two isoforms which differ in the sequences encoding the N-terminal region of the protein. Within the haematopoietic system the PLZF mRNAs were detected in the bone marrow, early myeloid cell lines and peripheral blood mononuclear cells, but not in lymphoid cell lines or tissues. In addition, the PLZF mRNA levels were down-regulated in NB-4 and HL-60 promyelocytic cell lines in response to retinoic acid-induced granulocytic differentiation and were very low in mature granulocytes. Our results demonstrate for the first time the association of a variant chromosomal translocation involving the RAR alpha gene with APL, further implicating the RAR alpha in leukaemogenesis and also suggesting an important role for PLZF as well as retinoic acid and its receptors in myeloid maturation.

Redundant regulation of urokinase plasminogen activator transcription by the two major isozymes of cAMP-dependent protein kinase

The regulation of urokinase plasminogen activator (uPA) gene expression by the two major cAMP-dependent protein kinase isozymes was studied in SC115 mouse mammary carcinoma cells using the site-selective cAMP analog approach. SC115 cells expressed both type I and type II cAMP-dependent protein kinase holoenzyme (at a ratio of 2:3), and selective, partial activation of each holoenzyme could be demonstrated in vitro using appropriate combinations of cAMP analogs. When cells were exposed to the same analog combinations, uPA expression was upregulated 2- to 4-fold when either holoenzyme I or holoenzyme II was targeted. For comparison, a high concentration (1 mM) of 8-bromo-cAMP, an analog that does not discriminate between kinase isoforms, up-regulated uPA 10-fold. These findings suggest that there are two pathways of cAMP-dependent regulation of uPA, one mediated by holoenzyme I, the other by holoenzyme II, and that the end result of activation of each pathway is the same. Differences in the mechanism whereby each pathway regulates uPA were searched for but not found. Both pathways were shown to be dependent on catalytically active enzyme, to be potentiated by retinoic acid treatment, and to regulate uPA transcriptionally. The most likely interpretation of these findings is that uPA transcription is mediated solely by the action of the common catalytic subunit, regardless of whether it originated from holoenzyme I or holoenzyme II.

Occurrence of distinct PML-RAR-alpha fusion gene isoforms in patients with acute promyelocytic leukemia detected by reverse transcriptase/polymerase chain reaction

A specific 'nested' reverse transcriptase/polymerase chain reaction (RT/PCR) procedure was used to characterize the expression patterns of PML-RAR-alpha chimeric mRNAs in 32 patients with acute promyelocytic leukemia (APL). The sensitivity of the technique was such that the fusion gene transcript could be detected from as little as 2.5 pg of total leukemic cell RNA against a background of 1 microgram of cellular RNA lacking the PML-RAR-alpha fusion gene transcript(s). In 19 cases the PML-RAR-alpha isoform referred to here as long was identified. A short isoform, which in comparison with the long form lacks three PML exons, was detected in 11 other cases. A third PML-RAR-alpha mRNA isoform, in which the most 3' PML exon present in the long-type isoform was truncated in its sequences lying immediately upstream of RAR-alpha B region, was found and characterized in a single patient. In one APL patient with a variant translocation t(11;17), the PCR product corresponding to PML-RAR-alpha chimeric mRNAs could not be amplified despite the presence of RAR-alpha gene rearrangement. Genomic and PCR analysis showed that the different PML-RAR-alpha isoforms found in APL patients arise as a result of distinct translocation breakpoints. In each case the exons encoding the B-F regions of RAR-alpha are expressed and are spliced downstream from variable PML gene exons. The 'nested' RT/PCR analysis of the PML-RAR-alpha fusion gene proved to be a rapid and sensitive tool for the diagnosis of the APL and for monitoring the residual APL chimeric mRNA expression during complete remission.

Enhancement of differentiation and cytotoxicity of leukemia cells by combinations of fluorinated pyrimidines and differentiation inducers: development of DNA double-strand breaks

We have previously shown that pretreatment of mouse erythroleukemia (MEL) cells with the fluorinated pyrimidines 5-fluorouracil (FUra) or 5-fluorodeoxyuridine (FUdR) followed by the differentiation inducer hexamethylene bisacetamide (HMBA) greatly enhanced the magnitude of their differentiation and caused extensive cell death. We have now extended these studies to address the mechanism that may be responsible for this enhancement and have also examined a human leukemic cell line (HL-60) for its sensitivity to this combination cytotoxic-differentiation therapy. We found that in HL-60 cells, pretreatment with FUdR, but not FUra, followed by 1.2% dimethylsulfoxide (DMSO) led to an 8 to 10-fold enhancement of cell death as compared to FUdR alone. When all-trans-retinoic acid (ATRA) was used instead of DMSO, the enhancement of differentiation and cytotoxicity was 5-fold. The percent of cells induced to differentiate was dependent on the concentration of both FUdR and ATRA. In HL-60 cells resistant to ATRA-induced differentiation, the combination of FUdR and ATRA did not result in enhanced cytotoxicity. Leucovorin (LV), a compound known to enhance the inhibitory effect of FUra or FUdR on DNA synthesis, increased the effectiveness of the cytotoxic-differentiation therapy, whereas thymidine inhibited its effectiveness. This suggests that inhibition of DNA metabolism may be an integral part of the differentiation-enhancing cytotoxic mechanism. To further explore inhibition of DNA synthesis, DNA was extracted under alkaline or neutral conditions from 3H-thymidine-labelled cells that were treated with FUra/LV and HMBA individually or in combination. The emergence of single and double-strand DNA breaks was monitored by agarose gel electrophoresis. In parallel to the enhancement of cytotoxicity, the combination treatment (FUra/LV followed by HMBA) also produced a 2.5-3-fold increase in the DNA breaks when compared to the same effect obtained by the agents applied individually. Thus, we propose that DNA degradation may be the mechanism responsible for the enhanced loss of cell viability. In summary, we report here an approach which is targeted to increasing the death rate of leukemic cells through the combined use of low doses of cytotoxic drugs and differentiation inducers.

Modulation of the antigenic phenotype of human breast carcinoma cells by modifiers of protein kinase C activity and recombinant human interferons

In the present study we have analyzed the effect of a synthetic protein kinase C (PKC) activator 3-(N-acetylamino)-5-(N-decyl-N-methylamino)-benzyl alcohol (ADMB) and the natural PKC-activating tumor-promoting agents 12-O-tetradecanoylphorbol 13-acetate (TPA) and mezerein on the antigenic phenotype of T47D human breast carcinoma cells. All three agents increased the surface expression of the tumor-associated antigen BCA 225 and various cellular antigens, including HLA class II antigens, intercellular adhesion molecule 1 (ICAM-1) and c-erbB-2. Expression of the same antigens was also upregulated to various extents in T47D cells by recombinant fibroblast (IFN beta) and immune (IFN gamma) interferon. Shedding of BCA 225 from T47D cells was induced by TPA, mezerein, IFN beta and IFN gamma, whereas ADMB did not display this activity. The ability of ADMB, TPA and mezerein to modulate the antigenic phenotype of T47D cells appears to involve a PKC-mediated pathway, since the PKC inhibitor, H-7, eliminates antigenic modulation. In contrast, the ability of IFN beta and IFN gamma to enhance the synthesis, expression and shedding of BCA 225, as well as to enhance HLA class II antigens, c-erbB-2 and ICAM-1 expression, was either unchanged or modestly reduced by simultaneous exposure to H-7. Analysis of steady-state mRNA levels for HLA class I antigens, HLA class II-DR beta antigen, ICAM-1 and c-erbB-2 indicated that the ability of H-7 to inhibit expression of these antigens in TPA-, mezerein- and ADMB-treated cells was not a consequence of a reduction in the steady-state levels of mRNAs for these antigens. The results of the present investigation indicate that the biochemical pathways mediating enhanced antigenic expression in T47D cells induced by TPA, mezerein and the synthetic PKC activator ADMB are different from those induced by recombinant interferons. Furthermore, up-regulation of antigenic expression in T47D cells can occur by a PKC-dependent or a PKC-independent pathway.

Reduction in lactate accumulation correlates with differentiation-induced terminal cell division of leukemia cells

Lactate accumulation in the medium and glucose utilization decreased during the induction of in vitro differentiation of mouse erythroleukemia (MEL) and human myeloid leukemia (HL-60) cells. The decrease in lactate accumulation occurred as early as 24 h after inducer treatment was initiated and occurred prior to the decrease in glucose utilization. The decrease in lactate accumulation was greater than that predicted by the decrease in glucose utilization, i.e., the ratio of glucose used glycolytically, as measured by lactate accumulation, to glucose used in other pathways ('glycolytic ratio') markedly decreased during differentiation in these cell lines. Differentiation correlated with the abrogation of the high levels of lactate accumulation first described by Warburg as characteristic of some transformed and neoplastic cells. Studies on both parental and differentiation-resistant variant MEL cell lines indicated that the changes in lactate accumulation were not dependent on the changes in glucose utilization and could be dissociated from them. Moreover, the changes in lactate accumulation only occurred in cells able to undergo differentiation-induced terminal cell division. This regulatable expression of lactate accumulation in MEL and HL-60 cells in vitro may make them useful model systems for the elucidation of the molecular mechanisms controlling lactate formation in malignant cells.

Combination cytotoxic-differentiation therapy of mouse erythroleukemia cells with 5-fluorouracil and hexamethylene bisacetamide

The effects of 5-fluorouracil (5-FUra), in combination with various differentiation inducers on the growth and differentiation of mouse erythroleukemia (MEL) cells were investigated. The cells were first treated with 5-FUra, washed, and then treated with various concentrations of differentiation inducers: hexamethylene bisacetamide (HMBA), dimethyl sulfoxide (DMSO), and N-methylformamide. Pretreatment with 5-FUra, shown here to be a weak inducer of MEL cell differentiation, enhanced the subsequent HMBA induction of differentiation. The three inducers of differentiation markedly inhibited cell growth and increased cell death in a dose- and time-dependent manner if given immediately after cells were exposed to 5-FUra. In contrast, 5-FUra at similar concentrations inhibited cell growth, but only slightly increased cell death, while inducers without 5-FUra had little effect on cell growth or viability. When placed in fresh drug-free medium for 6 days following drug treatments, the cells completely recovered from the growth inhibition of 5-FUra as a single agent, whereas in cells previously treated with only HMBA there was a inhibition of cell growth without loss of viability. In contrast, a profound and prolonged growth inhibition with 98% cell death occurred in cells previously treated with 5-FUra followed by HMBA. The enhancement of 5-FUra cytotoxicity appeared to be directly related to the degree of differentiation and to biochemical events that occur during the commitment to terminal cell division induced by N-methylformamide, DMSO, or HMBA. An increase in Okazaki fragments was found in MEL cells treated with HMBA or DMSO when committed to terminal cell division. DNA breaks also follow 5-FUra treatment (A. Yoshioka et al., J. Biol. Chem., 262: 8235-8241, 1987) and may be the events that lead to cell death. The marked increase in cell death resulting from 5-FUra/HMBA treatment may be, at least partly, a consequence of increased DNA breaks due to 5-FUra followed by inhibition of DNA repair which is known to occur following the HMBA or DMSO induction of differentiation and commitment to terminal cell division. This combined sequential cytotoxic-differentiation therapy resulting in synergistic cytotoxicity and differentiation may be the basis of a new approach to cancer therapy and may aid in reducing the amounts of chemotherapeutic agents required for effective treatment, while maintaining or even increasing their therapeutic effects.

Thallium-201 scintigraphy in bone sarcoma: comparison with gallium-67 and technetium-MDP in the evaluation of chemotherapeutic response

This study attempts to characterize thallium-201 (201TI) uptake in patients with bone and soft-tissue sarcoma and to compare these findings with gallium-67 (67Ga) and bone scintigraphy with emphasis on evaluating tumor viability before and after chemotherapy. Thirty-eight patients with surgically-proven sarcomas were evaluated. All patients had gallium and thallium studies. Nineteen patients underwent pre- and post-chemotherapy thallium and evaluation. Seven patients also had technetium-99m-MDP (99mTc-MDP) bone scintigraphy comparisons. Pathologic changes pre- and postchemotherapy were graded on the basis of %tumor necrosis as defined histologically. Scintigraphic comparisons demonstrated a high degree of correlation with 201TI and poor correlation with 99mTc-MDP. Thallium-201 was superior to 99mTc-MDP and 67Ga in predicting tumor response to chemotherapy as determined by %tumor necrosis determined histologically. Gallium was superior to Tc-MDP in predicting response to chemotherapy. However, both 67Ga and 99mTc-MDP appear to be affected by factors other than tumor activity.

In vitro and in vivo growth and casein gene expression of mouse mammary tumor epithelial cells in response to hormones

Cells from autochthonous mouse mammary carcinomas which display estrogen-independent growth in vivo were studied for their hormonal responses in primary culture. A culture system employing insulin-supplemented, serum-free medium and basement membrane Matrigel as a substratum was used to cultivate tumor cells. The cells did not exhibit in vitro estrogen- or prolactin-dependent growth. Primary tumors still displayed a constitutional expression of alpha-, beta-, and gamma-casein mRNAs. These messages were dramatically reduced during the culture period. However, seven to eightfold increases in alpha- and beta-casein mRNAs were inducible in the 5-day cultures by treatment with prolactin and hydrocortisone. If the hormones were present through a 2-week culture period, the levels of alpha-, beta-, and gamma-casein mRNAs in the cells were maintained and displayed in a time-dependent increase with a peak at 10-14 days. The accumulation of beta-casein mRNA in vitro did not require DNA synthesis. Administration of prolactin directly into the growing tumors in vivo could also enhance beta-casein mRNA levels in the tumor cells. Morphological studies of the cells cultured in the presence of prolactin and hydrocortisone did not reveal visible changes compared with those without hormonal treatment. Transplantation of tumor cells cultured in the presence or absence of hormones resulted in the development of tumors in mice at approximately the same time. The current studies suggest that the autochthonous mammary tumor cells, independent of estrogen for cell growth, were still inducible for casein gene expression in vitro and in vivo by appropriate hormones. The induction and maintenance of casein messages by a single hormonal treatment did not appear to correlate with morphology and DNA synthesis of cells in vitro or with tumor-producing capacities in vivo.

Effects of extracellular matrix on the growth and casein gene expression of primary mouse mammary tumor cells in vitro

This study describes a serum-free culture system and provides a tumor model to investigate the effects of extracellular matrices on the growth and beta-casein gene expression of mouse mammary tumor epithelial cells (MMTCs) in vitro. Primary cultures of MMTCs derived from autochthonous mammary tumors in BALB/cfC3H x DBA/8 F1 mice, FUKU cells, an established MMTC line, and COMMA-1D cells established from mouse mammary tissues were studied. A reconstituted basement membrane from the Englbreth-Holm-Swarm tumor (Matrigel) allowed a 2.7-fold increase in cell number of 5-day primary MMTC cultures in serum-free, insulin-supplemented medium. FUKU and COMMA-1D cells in serum-free medium displayed a 13.6- and 11.5-fold increase in cell number, respectively, after 5 and 6 days in culture on Matrigel. In semisolid agar cultures, Matrigel or laminin was shown to promote colony-forming efficiency of FUKU cells when either of the matrices was mixed in the top agar layer. An increase of 4.4 or 2.1 times in colony-forming efficiency was detected when 20% (v/v) Matrigel or 112 micrograms/ml of laminin were mixed in the agar layer compared with FUKU cells plated in plain agar. beta-Casein mRNA was detectable by Northern blot assays in the primary mammary tumors. MMTCs in primary cultures grown on Matrigel in serum-free, insulin-supplemented medium for 4 days were inducible for beta-casein mRNA following the treatment with prolactin and hydrocortisone (FPRL) for 24 h. No beta-casein mRNA was detectable in the absence of FPRL. MMTCs in the primary cultures could also be induced for beta-casein mRNA when they were cultivated on type I collagen gels for 4 days but not on laminin, type IV collagen, or plastic. However, the capacity to respond to FPRL was not lost in MMTCs cultured on laminin. When MMTCs were initially cultured on laminin for 4 days and then subcultured on Matrigel for another 4 days, they were inducible for beta-casein mRNA upon exposure to FPRL for 24 h. In contrast, no beta-casein mRNA upon exposure to FPRL for 24 h. In contrast, no beta-casein mRNA was found in MMTCs from the same tumors cultured on laminin for 8 days with the same treatment of hormones. These data demonstrate that cells from autochthonous mammary tumors, which are not dependent on estrogen for growth in vivo, are inducible in vitro for beta-casein mRNA by FPRL; and this hormonal response of MMCTs requires appropriate extracellular matrix.

Benzyl alcohol alters the hemoglobin phenotype of mouse erythroleukemia cells

The hemoglobin minor/hemoglobin major ratio expressed in mouse erythroleukemia (MEL) cells grown in vitro varies according to the differentiation inducer utilized. For example, butyrate and hemin induce higher hemoglobin minor/hemoglobin major ratios than do dimethyl sulfoxide (DMSO) or hexamethylene bisacetamide (HMBA). Benzyl alcohol in non-toxic concentrations was found to markedly reduce the hemoglobin minor/hemoglobin major ratio and to moderately reduce the total hemoglobin induced by DMSO or HMBA in MEL cells, while only slightly decreasing the ratio induced by hemin or butyrate. The addition of dexamethasone (another and more potent inhibitor of the induction of hemoglobin synthesis than benzyl alcohol) to the media during HMBA induction of differentiation increased the hemoglobin minor/hemoglobin major ratio. This is similar to other "inhibitory" treatments (i.e., treatments that result in sub-optimal hemoglobin production) that have been previously reported. Therefore, although benzyl alcohol and dexamethasone both partly inhibit the induction of total hemoglobin production, they have opposite effects on the induced hemoglobin phenotype: benzyl alcohol decreases the hemoglobin minor/hemoglobin major ratio while dexamethasone increases it. The mechanism(s) of the alteration in the hemoglobin phenotype is unknown as is the mechanism of induction by any of the various inducing agents or of the inhibition of induction by any treatment. However, it appears that if the signal for the induction of hemoglobin minor is sufficiently potent (as it is during butyrate or hemin induction), it cannot be overcome by benzyl alcohol at a "non-toxic" concentration.

Role of folate binding proteins in folate metabolism

The essential role of folates in cellular biochemistry is well established, but the nature of the participation by folate-binding proteins has been disputed. This review will define folate-binding proteins and distinguish them from low-affinity, nonspecific folate binders and folate-dependent intracellular enzymes. We outline changes in plasma folate-binding proteins in various clinical states, review their postulated functions, detail the biochemistry of mammalian soluble folate-binding proteins and their membrane-bound immunologically cross-reactive possible precursors, and present evidence that the latter proteins may function as the physiologic folate receptors and intracellular regulators of folate coenzyme availability.

A possible effect of heme on the fate of DNA ligase activity extracted from differentiating mouse erythroleukemia cells

When mouse erythroleukemia (MEL) cells were induced to differentiate by growth in the presence of dimethyl sulfoxide, hexamethylene bisacetamide (HMBA), or hemin, the apparent activity of DNA ligase extractable from inducer-treated cells decreased 70 to 80% when compared to untreated cells. Earlier work had indicated that these changes did not occur in a differentiation-resistant MEL cell variant and suggested that the decrease in the level of DNA ligase activity might be related to the differentiation process. Since the MEL cells accumulate high levels of both hemoglobin-bound and non-hemoglobin-bound heme, the effect of both hemoglobin and hemin on DNA ligase activity of MEL cell extracts was tested. When cell-free extracts containing DNA ligase activity were preincubated with hemin at concentrations up to 150 microM, an 80% or greater inhibition of the DNA ligase activity resulted. The ATP-dependent DNA ligase from bacteriophage T4 was also inhibited by hemin, but the NAD-dependent DNA ligase from Escherichia coli was not sensitive to this treatment. Preincubation of these same extracts with hemoglobin at levels comparable to those present in differentiating cells did not result in inhibition of any of the ATP-dependent DNA ligases tested. Culturing the cells with dimethyl sulfoxide in the presence of imidazole resulted in a marked decrease in globin chain accumulation but did not reverse the dimethyl sulfoxide-related decrease in DNA ligase activity. These data suggest the possibility that heme or its metabolites, but not globin or hemoglobin, could serve to modify the process of DNA replication and/or repair in differentiating MEL cells via inhibition of DNA ligase activity. These data are consistent with the findings of Lo et al. (S.C. Lo, R. Aft, and G.C. Mueller, Cancer Res., 41: 864-870, 1981) which correlated the onset of differentiation-related terminal cell division in MEL cells with the levels of nonhemoglobin heme present in these cells.

Influence on immunoreactive folate-binding proteins of extracellular folate concentration in cultured human cells

The influence of extracellular folate concentration on cellular levels of the folate transport protein and its soluble product was studied directly in cultured human nasopharyngeal carcinoma (KB) cells. As determined by radioimmunoassay, levels of the folate transport protein and the soluble folate-binding protein were 58 +/- 17 (mean +/- SD) and 5 +/- 2 pmol/mg cell protein, respectively, in KB cells maintained in standard medium (containing 2,300 nM folic acid). These levels significantly increased to 182 +/- 34 and 26 +/- 6 pmol/mg cell protein, respectively, in KB cells serially passaged in low folate medium (containing 2-10 nM 5-methyltetrahydrofolate). Increases in folate-binding protein levels occurred more rapidly in KB cells serially passaged in very low folate medium containing less than 2 nM folate and were prevented by the addition of 100 nM 5-methyltetrahydrofolate or 0.1-1 microM 5-formyltetrahydrofolate to this medium. When KB cells which had been passaged in low folate medium were passaged back into either standard medium or low folate medium supplemented with reduced folates, the levels of both folate-binding proteins fell linearly towards the levels in KB cells continuously maintained in standard medium. The folate transport protein was identified in and underwent similar changes in human and mouse mammary tumor cells. These studies indicate that the folate transport system is probably regulated by the extracellular folate concentration through changes in intracellular metabolite levels.