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NEOPLASIA
From the Departments of Human Morphology, Internal
Medicine, Biochemistry, and Pediatrics, Faculty of Medicine, American
University of Beirut, Beirut, Lebanon; CNRS URA 1461 and Department of
Hematology, Necker Hospital, Paris, France; UPR 9051 CNRS Laboratoire
associé No. 11 du comité de Paris de la Ligue contre le
Cancer, conventionné par l'Université Paris VII,
Hôpital St Louis, Paris, France; INSERM CJF 9701, Hôpital
Bichat, Paris, France; and Departement de Biologie Moléculaire,
Université Libre de Bruxelles, Brussels, Belgium.
Human T-cell lymphotropic virus type I (HTLV-I)-associated
adult T-cell leukemia/lymphoma (ATL) is a malignancy of mature activated T cells resistant to conventional chemotherapy. The viral
transactivator protein Tax plays a critical role in
HTLV-I-induced transformation and apoptosis resistance by inducing
I Adult T-cell leukemia/lymphoma (ATL) is an
aggressive malignancy of mature activated CD4+ T cells
associated with the human T-cell lymphotropic virus type I (HTLV-I)
infection.1 The exact mechanism of HTLV-I-induced tumorogenesis is not fully elucidated, although HTLV-I infection appears to represent an early event in a multistep oncogenic
process.2 HTLV-I transactivator protein Tax activates
several major cellular transcription factor pathways, such as nuclear
factor (NF)- NF- Tax is a powerful activator of the NF- ATL remains of poor prognosis mainly because of its resistance to
conventional as well as high-dose chemotherapy, possibly due to
Tax-induced apoptosis resistance.21,22 The antiviral treatment with the combination of zidovudine and interferon (IFN) has
been documented to result in a high response rate in ATL patients and
significantly improves survival.23-25 However, most
patients eventually relapse. We have recently shown that the
combination of IFN and arsenic trioxide (As) is highly synergistic in
the induction of cell cycle arrest and apoptosis in HTLV-I-transformed cells and in fresh ATL cells ex vivo.26 In this study we
investigate the mechanisms by which As-IFN triggers apoptosis. Our data
demonstrate that the combination of As-IFN sharply down-regulates Tax
expression, resulting in loss of nuclear RelA-containing NF- Cells
After informed consent, peripheral blood mononuclear cells were
extracted from diluted venous blood from a patient with acute ATL by
Ficoll-Hypaque centrifugation (Lymphoprep, Nyegaard, Oslo, Norway).
Cells were cultured in RPMI 1640 medium supplemented with 10%
heat-inactivated FCS, antibiotics, and 100-U/mL recombinant human IL-2.
Reagents and drugs
Rabbit polyclonal antisera to I Western blot analysis Approximately 107 cells from various treatments were solubilized at 4°C in lysis buffer (0.125-mol/L Tris-HCl, pH 6.8; 2% sodium dodecyl sulfate [SDS], 2.5% -mercaptoethanol; and
10% glycerol). The samples were loaded onto a 12% SDS-polyacrylamide
gel, subjected to electrophoresis, and transferred to nitrocellulose
membrane. After blocking of the membrane in 5% skimmed milk and 0.05%
Tween 20 in triethanolamine-buffered saline, the blots were
incubated with specific antibodies against bcl-2, bax, p53, I B-
IB-, or Tax. After several washes, the protein bands were
visualized using chemiluminescence (Amersham, Buckinghamshire, England).
Immunofluorescence Cells from different treatments were fixed in 70% ice-cold ethanol and processed for indirect immunofluorescence. Background binding of the antibodies was reduced by a preincubation with normal goat serum (10% in phosphate-buffered saline [PBS]). Cells were then incubated with primary antibodies for 2 hours at room temperature, washed in PBS, and incubated with the secondary antibodies. After several washes, the specific binding and cellular distribution of the antigens was assessed by fluorescence microscopy (LSM 410, Zeiss, Germany).Northern blot analysis Total cellular RNA was extracted by the guanidium isothiocyanate-phenol-chloroform method. A total of 20 µg of RNA was separated on a 1% agarose gel and transferred to nitrocellulose membrane. The filter was hybridized with the HTLV-I full genomic probe (pMT-2) (gift from A. Gessain).Electrophoretic mobility shift assay Nuclear extracts were prepared as described.27 Briefly, cells were washed with ice-cold PBS after various treatments. Cells were collected by centrifugation, and the pellet was lysed by rapid freezing in dry ice and ethanol and thawed by resuspension in 70 µL of ice-cold buffer containing 10-mmol/L HEPES, 10-mmol/L KCl, 1.5-mmol/L MgCl2, and 1-mmol/L dithiothreitol (DTT). The nuclei were centrifuged in a microcentrifuge at 3500 rpm for 10 minutes at 4°C and suspended in 15µL of buffer containing 20-mmol/L HEPES, 400-mmol/L NaCl, 1.5-mmol/L MgCl2, 0.2-mmol/L ethylenediaminetetraacetic acid (EDTA), 1-mmol/L DTT, 0.5-mmol/L phenylmethylsulfonyl fluoride (PMSF), and 25% (vol/vol) glycerol. The nuclei were then extracted by gentle mixing for 30 minutes at 4°C, followed by centrifugation at 14 000 rpm in a microcentrifuge for 20 minutes at 4°C. The supernatant was diluted with 30 µL of buffer consisting of 20-mmol/L HEPES, 50-mmol/L KCl, 20% (vol/vol) glycerol, 0.2-mmol/L EDTA, 1-mmol/L DTT, and 0.5-mmol/L PMSF and stored at 70°C. Protein concentration was determined using the colorimetric
dye binding assay (BioRad, Hertfordshire, England).
NF-
To investigate the mechanism of action of the combination of As and IFN on ATL cells, we used 3 different HTLV-I-transformed cell lines: HuT-102, MT-2, and C91-PL. Whereas HuT-102 cells are relatively sensitive to As, with a major synergy between As and IFN in the induction of cell cycle arrest and apoptosis,26 MT-2 cells are resistant to As alone but sensitive to the combination of As and IFN, although to a lesser extent than HuT-102 (not shown); however, C91-PL cells were extremely sensitive to As alone with a complete cell death with As-IFN (not shown). As-IFN-induced apoptosis is partially caspase-independent We tested the possible involvement of caspase activation on cell cycle arrest and apoptosis induced by As-IFN treatment in HuT-102 cells in the presence or absence of zVAD. Because HuT-102 cells are resistant to cytotoxic agents, actinomycin D-treated MOLT-4 cells were used as control of caspase activation and zVAD inhibition. The inhibition of cell growth of HuT-102 cells by As-IFN treatment was not reversed by zVAD, while the inhibition of cell growth of MOLT-4 cells by actinomycin D was totally blocked by zVAD (Figure 1A). In the presence of zVAD the percentage of TUNEL+ HuT-102 cells treated by As-IFN only decreased from 50% to 25%, while the percentage of TUNEL+ MOLT-4 cells treated with actinomycin D returned to the control levels (Figure 1B). The results obtained with C91-PL cells were similar to those obtained with HuT-102 (data not shown). These results demonstrate that As-IFN-triggered cell cycle arrest is caspase-independent, while cell death is only partially caspase-associated, similar to what has been observed in other cell systems.28
As and IFN treatment down-regulates Tax expression We examined the level of Tax expression by Western blot analysis using Tax-specific monoclonal antibodies. In HuT-102 cells, one specific band of 40 kd was recognized (Figure 2A), which was absent from CEM and MOLT-4 cells (not shown). In MT-2 cells, 2 distinct protein bands were detected (Figure 2D), corresponding to Tax and a previously described Tax-env fusion protein.29-30 In HuT-102 cells, As and IFN induced a sharp decrease in Tax expression, visible after 24 hours of treatment (not shown) but complete after 48 hours (Figure 2A). Arsenic alone partially reduced Tax expression, while IFN did not (Figure 2A). Northern blot analysis of HTLV-I messenger RNA in HuT-102 cells treated by IFN, As, or both for 48 hours did not reveal any significant change in the levels of the 3 major viral transcripts (the full genomic RNA of 9 kilobases [kb], the single-spliced form of 4.3 kb, and the double-spliced form encoding Tax and Rex of 2.1 kb) (Figure 2B). Hence, As-IFN-induced down-regulation of Tax is a posttranscriptional event. Caspases were not responsible for Tax degradation, because zVAD did not reverse Tax degradation (Figure 2C). Because of the toxicity of proteasome inhibitors in these cells, zLLL could only be used for 6 hours and led to a minimal reversal of Tax degradation, precluding any conclusion on the involvement of this degradation pathway (data not shown). The expression of HTLV-I structural proteins was also unaffected by IFN, As, or As-IFN (data not shown). Thus, As-IFN treatment specifically targets the viral transactivator oncoprotein. Similarly, the exposure of MT-2 cells to As or As-IFN for 72 hours resulted in a sharp down-regulation of the 40-kd Tax without affecting the level of Tax-env fusion protein (Figure 2D). Note that, in these cells, apoptosis is only observed at 72 hours, consistent with the kinetics of Tax degradation. Again, expression of viral RNA and structural proteins was unaffected by As-IFN (data not shown).
To investigate whether As or As-IFN treatment modifies the intracellular distribution of Tax, immunofluorescence analysis was performed on HuT-102 using rabbit anti-Tax polyclonal serum or mouse anti-Tax monoclonal antibodies. As previously described,31,32 Tax had a diffuse nuclear staining excluding the nucleolus, with a few speckles together with a weak cytoplasmic distribution. In As-IFN-treated cells, the stain for Tax was sharply decreased, with no major change in its subcellular distribution (data not shown). In contrast to Tax degradation, bcl-2, p53 (Figure
3), or bax expression (data not shown)
was not modified in cells treated with IFN, As, or their
combination. Together with the stability of structural viral
proteins, these observations strongly suggest that As-IFN
treatment specifically targets the Tax oncoprotein, whose
down-regulation could promote apoptosis rather than be its consequence.
As and IFN treatment up-regulates I B- for
degradation.13,14 Tax degradation would therefore be
expected to diminish IB- proteolysis. Indeed, in HuT-102, MT-2,
and C91-PL cells, Western blot analysis demonstrated that both As and
As-IFN up-regulate IB- expression, consistent with their effects
on Tax degradation (Figure 3, data not shown). In contrast, the level
of IB- was not affected in HTLV-I-negative cells under any of
these conditions (not shown). As previously
described,33,34 IB- was undetectable in both HuT-102
and MT-2 treated or not (not shown).
We then examined whether As, IFN, and their combination could modulate
the NF-
To determine the subunit composition of these NF-
Fresh leukemic cells from a patient with ATL were then studied. As-IFN
induced both cell cycle arrest and some apoptosis after 48 hours,
despite the continuous presence of IL-2.26 Nuclear extracts of these cells showed a dramatic decrease in NF-
In this study we identify Tax as a molecular target of As-IFN
treatment in ATL cells. Tax down-regulation probably accounts for the
induction of apoptosis through its effects on NF- We have demonstrated that Tax is down-regulated upon As exposure and
that IFN, which has no effect on its own, sharply enhances As effects.
This pattern of Tax degradation (or RelA complex disappearance) Previous studies have shown that Tax is sufficient to
transform T lymphocytes and induce bcl-2 and bcl-XL expression and
apoptosis resistance.42-44 Hence, the down-regulation of
Tax may be sufficient to sensitize ATL cells to apoptotic stimuli such
as those triggered by IFN and As. NF- Recent clinical studies have shown that IFN is well tolerated in ATL patients23-25 and that As treatment exhibits very little toxicity in APL patients.47 In fact, a recent phase II trial has shown that IFN and As combination is well tolerated by patients with ATL (O. Hermine, unpublished observation). In addition, some definite antileukemic effect of this combination has been observed, suggesting that ATL cells may similarly respond to As-IFN by apoptosis or by cell cycle arrest in vivo. Tax degradation by As-IFN could also provide a rational basis for the treatment of high-risk HTLV-I-infected carriers as well as tropical spastic paraparesis/HTLV-I-associated myelopathy patients. Such a treatment may dramatically reduce both viral load and infected lymphocyte proliferation. Should the ongoing trial in ATL patients confirm the clinical efficacy of this association, As-IFN would constitute, together with retinoic acid or As in APL, the second example of oncogene-targeted therapy of leukemia.
The authors thank Dr F. Homaidan for her critical reading of this manuscript. The expert assistance from the personnel of the Core Laboratory Facilities of the American University of Beirut and the photography department (R. Nancel) in Hôpital St Louis are greatly appreciated.
Submitted March 27, 2000; accepted June 19, 2000.
Supported by the American University of Beirut Medical Practice Plan, the Lebanese National Research Council, the CNRS, ARC, the Foundation St Louis, and the Programme Franco-Libanais Coopération pour l'Evaluation et le Développement de la Recherche.
The publication costs of this article were defrayed in part by page charge payment. Therefore, and solely to indicate this fact, this article is hereby marked "advertisement" in accordance with 18 U.S.C. section 1734.
Reprints: Hugues de Thé, CNRS UPR 9051, Hôpital St Louis 1 av. C. Vellefaux, 75475 Paris, Cedex 10, France; e-mail: dethe{at}chu-stlouis.fr; or Ali Bazarbachi, Department of Internal Medicine, Faculty of Medicine, American University of Beirut, PO Box 113-6044, Beirut, Lebanon; e-mail: bazarbac{at}aub.edu.lb.
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B activation
Top
Abstract
Introduction
CD4+ T-cell lines CEM and MOLT-4 were
used as controls. Cells were grown in RPMI 1640 medium containing 10%
heat-inactivated fetal calf serum (FCS) and antibiotics (Gibco-BRL,
Gaithersburg, MD). Cell growth was assessed by the incorporation of
3H-thymidine, cell count (hemocytometer), and trypan blue
dye exclusion protocols. Cell concentration of 1 × 105
cells/mL was chosen for seeding for all experiments.
-32P adenosine
triphosphate using T4 polynucleotide kinase. Hybridization reaction was
performed using 10 to 20 µg of nuclear extract, 1 µg of poly(dIdC),
1 µg of poly(dN6) as nonspecific competitor, and 10 µg of bovine
serum albumin in 20-mmol/L HEPES, 50-mmol/L KCl, 1-mmol/L EDTA, and
5-mmol/L DTT. This reaction was diluted with water before the labeled
probe was added. The mixture was incubated for 30 minutes and then
stopped by adding 6 µL of 15% Ficoll. The reaction mixture (20 µL
of each sample) was electrophoresed on a 5% nondenaturing
polyacrylamide gel, dried at 80°C under vacuum for 2 hours on Whatman
filter paper, and processed for autoradiography at 
