28 research outputs found
New symmetrical quinazoline derivatives selectively induce apoptosis in human cancer cells
In the search of new symmetrical derivatives with anticancer activity, we have looked for novel compounds able to induce a selective proapoptotic mechanism in cancer cells. The potential antitumoral activity of several quinazoline derivatives was evaluated in vitro examining their cytotoxic effects against human breast, colon and bladder cancer cell lines. The IC(50) value of the compounds that showed cytotoxic activity was calculated. These compounds were tested for their ability to induce caspase-3 activation and nuclear chromatin degradation. Non-tumoral human cell lines were used to test the selectivity of the cytotoxic compounds against cancer cells. Several compounds showed no cytotoxicity in these cell lines. Finally, JRF12 (2,4-dibenzylaminoquinazoline) was chosen as the best candidate and its mechanism of action was studied in more detail. A time dependent evaluation of apoptosis was performed in the three cancer cell lines, followed by an evaluation of the cell cycle regulation involvement that showed a decrease of cells in G(1) phase and increase of cells in G(2) phase before cell death. 2,4-dibenzylaminoquinazoline treatment produces few changes in the expression of genes as evaluated by using oligonucleotide microarrays and Q-RT-PCR assays. In conclusion, 2,4-dibenzylaminoquinazoline is a promising anticancer drug showing cytostatic and apoptotic effects mainly in a transcription independent manner
MicroRNA expression profiling in Imatinib-resistant Chronic Myeloid Leukemia patients without clinically significant ABL1-mutations
The development of Imatinib Mesylate (IM), the first specific inhibitor of BCR-ABL1, has had a major impact in patients with Chronic Myeloid Leukemia (CML), establishing IM as the standard therapy for CML. Despite the clinical success obtained with the use of IM, primary resistance to IM and molecular evidence of persistent disease has been observed in 20-25% of IM treated patients. The existence of second generation TK inhibitors, which are effective in patients with IM resistance, makes identification of predictors of resistance to IM an important goal in CML. In this study, we have identified a group of 19 miRNAs that may predict clinical resistance to IM in patients with newly diagnosed CML
Methylation status of Wnt signaling pathway genes affects the clinical outcome of Philadelphia-positive acute lymphoblastic leukemia
The clinical significance of aberrant promoter methylation of the
canonical Wnt pathway antagonist genes (sFRP1, sFRP2, sFRP4,
sFRP5, Wif1, Dkk3, and Hdpr1) and also putative tumor-suppressor
gene Wnt5a, belonging to the non-canonical Wnt signaling pathway,
was investigated in a large series of 75 patients with Philadelphia
chromosome-positive acute lymphoblastic leukemia by methylationspecific
polymerase chain reaction. At least one methylated gene
was observed in cells from 66% (49/75) of patients (methylated
group). Disease-free survival and overall survival at 9 years were 51
and 40%, respectively, for the unmethylated group and 3 and 2%,
respectively, for the methylated group (both P < 0.0001). Multivariate
analysis demonstrated that the Wnt methylation profile was an
independent prognostic factor predicting disease-free survival
(P = 0.007) and overall survival (P = 0.039). Abnormal DNA methylation
of promoter-associated CpG islands in the Wnt signaling pathway is
very common in Philadelphia chromosome-positive acute lymphoblastic
leukemia and potentially defines subgroups with distinct
clinical characteristics
Epigenetic regulation of human cancer/testis antigen gene, HAGE, in chronic myeloid leukemia
Cancer testis antigens (CTA) provide attractive targets for cancer-specific immunotherapy.
Although CTA genes are expressed in some normal tissues, such as the testis,
this immunologically protected site lacks MHC I expression and as such, does not
present self antigens to T cells. To date, CTA genes have been shown to be expressed
in a range of solid tumors via demethylation of their promoter CpG islands, but rarely
in chronic myeloid leukemia (CML) or other hematologic malignancies
Down-Regulation of hsa-miR-10a in Chronic Myeloid Leukemia CD34+ Cells Increases USF2-Mediated Cell Growth
MicroRNAs (miRNA) are small noncoding,
single-stranded RNAs that inhibit gene expression at a
posttranscriptional level, whose abnormal expression
has been described in different tumors. The aim of our
study was to identify miRNAs potentially implicated
in chronic myeloid leukemia (CML). We detected an
abnormal miRNA expression profile in mononuclear and
CD34+ cells from patients with CML compared with
healthy controls. Of 157 miRNAs tested, hsa-miR-10a,
hsa-miR-150, and hsa-miR-151 were down-regulated,
whereas hsa-miR-96 was up-regulated in CML cells.
Down-regulation of hsa-miR-10a was not dependent
on BCR-ABL1 activity and contributed to the increased
cell growth of CML cells. We identified the upstream
stimulatory factor 2 (USF2) as a potential target of
hsa-miR-10a and showed that overexpression of USF2
also increases cell growth. The clinical relevance of
these findings was shown in a group of 85 newly
diagnosed patients with CML in which expression of
hsa-miR-10a was down-regulated in 71% of the patients,
whereas expression of USF2 was up-regulated in 60% of
the CML patients, with overexpression of USF2 being
significantly associated with decreased expression of
hsa-miR-10a (P = 0.004). Our results indicate that
down-regulation of hsa-miR-10a may increase USF2 and
contribute to the increase in cell proliferation of CML
implicating a miRNA in the abnormal behavior of CML
BCR-ABL1-induced expression of HSPA8 promotes cell survival in chronic myeloid leukaemia
In order to determine new signal transduction pathways implicated in
chronic myeloid leukaemia (CML), we performed a gene expression profile
comparison between CD34+ cells from CML patients and healthy donors.
Functional studies were performed using the Mo7e and Mo7e-p210 cell lines.
Expression of CCND1 (Cyclin D1), as well as the chaperone HSPA8, which is
important for regulation of CCND1, were significantly upregulated in CD34+
CML cells. Upregulation of HSPA8 was dependent, at least in part, on STAT5
(signal transducer and activator of transcrition 5)-dependent transcriptional
activation, as demonstrated by chromatin immunoprecipitation. The
presence of HSPA8 in the nuclear protein fraction as well as its binding to
CCND1 suggests that it may contribute to stabilization of the CCND1/CDK4
complex, which, in turn, may participate in proliferation of CML
cells. Treatment of CML cells with the specific HSPA8 inhibitor
15-deoxyspergualin induced inhibition of CML cell viability but did not
induce apoptosis. In conclusion, our studies suggest that STAT5-mediated
activation of HSPA8 induces nuclear translocation and activation of the
CCND1/CDK4 complex leading to increased proliferation of CML cells,
deciphering a new pathway implicated in CML and supporting a potential
role of chaperone inhibitors in the treatment of CML
Epigenetic regulation of Wnt-signaling pathway in acute lymphoblastic leukemia
Activation of the Wnt/ -catenin signaling
pathway is a hallmark of a number of
solid tumors. We analyzed the regulation
of the Wnt/ -catenin pathway in acute
lymphoblastic leukemia (ALL) and its role
in the pathogenesis of the disease. We
found that expression of the Wnt inhibitors
sFRP1, sFRP2, sFRP4, sFRP5, WIF1,
Dkk3, and Hdpr1 was down-regulated due
to abnormal promoter methylation in ALL
cell lines and samples from patients with
ALL. Methylation of Wnt inhibitors was
associated with activation of the Wntsignaling
pathway as demonstrated by
the up-regulation of the Wnt target genes
WNT16, FZ3, TCF1, LEF1, and cyclin D1 in
cell lines and samples and the nuclear
localization of -catenin in cell lines. Treatment
of ALL cells with the Wnt inhibitor
quercetin or with the demethylating agent
5-aza-2 -deoxycytidine induced an inactivation
of the Wnt pathway and induced
apoptosis of ALL cells. Finally, in a group
of 261 patients with newly diagnosed
ALL, abnormal methylation of Wnt inhibitors
was associated with decreased 10-
year disease-free survival (25% versus
66% respectively, P < .001) and overall
survival (28% versus 61% respectively,
P .001). Our results indicate a role of
abnormal Wnt signaling in ALL and establish
a group of patients with a significantly
worse prognosis (methylated
group)
Epigenetic regulation of Wnt-signaling pathway in acute lymphoblastic leukemia
Activation of the Wnt/ -catenin signaling
pathway is a hallmark of a number of
solid tumors. We analyzed the regulation
of the Wnt/ -catenin pathway in acute
lymphoblastic leukemia (ALL) and its role
in the pathogenesis of the disease. We
found that expression of the Wnt inhibitors
sFRP1, sFRP2, sFRP4, sFRP5, WIF1,
Dkk3, and Hdpr1 was down-regulated due
to abnormal promoter methylation in ALL
cell lines and samples from patients with
ALL. Methylation of Wnt inhibitors was
associated with activation of the Wntsignaling
pathway as demonstrated by
the up-regulation of the Wnt target genes
WNT16, FZ3, TCF1, LEF1, and cyclin D1 in
cell lines and samples and the nuclear
localization of -catenin in cell lines. Treatment
of ALL cells with the Wnt inhibitor
quercetin or with the demethylating agent
5-aza-2 -deoxycytidine induced an inactivation
of the Wnt pathway and induced
apoptosis of ALL cells. Finally, in a group
of 261 patients with newly diagnosed
ALL, abnormal methylation of Wnt inhibitors
was associated with decreased 10-
year disease-free survival (25% versus
66% respectively, P < .001) and overall
survival (28% versus 61% respectively,
P .001). Our results indicate a role of
abnormal Wnt signaling in ALL and establish
a group of patients with a significantly
worse prognosis (methylated
group)
WNT5A, a putative tumour suppressor of lymphoid malignancies, is inactivated by aberrant methylation in acute lymphoblastic leukaemia
Wnt5a is a member of the Wnt family of proteins that signals through the non-canonical
Wnt/Ca2+ pathway to suppress cyclin D1 expression and negatively regulate B cell proliferation
suggesting that it acts as an tumour suppressor for lymphoid leukemogenesis.
Although canonical Wnt pathway is a âhot spotâ for methylation in acute lymphoblastic leukaemia
(ALL), the role of Wnt5a abnormalities has never been evaluated in this clinical setting.
The methylation status of the WNT5A promoter was analysed by methylation-specific
PCR (MSP) and sequencing in six ALL-derived cell lines (TOM-1, NALM-20, MY, LOUCY, JURKAT
and TANOUE) and in 307 ALL patients. WNT5A and CYCLIN D1 expressions were
assessed by quantitative RT-PCR. We observed WNT5A hypermethylation in all cell lines
and in cells from 43% (132/307) of ALL patients. WNT5A methylation was associated with
decreased WNT5A mRNA expression (P < 0.001) and this expression was restored after
exposure to the demethylating agent 5-Aza-20-deoxycytidine. Moreover, WNT5A hypermethylation
correlated with upregulation of CYCLIN D1 expression (P = 0.002). Disease-free
survival (DFS) and overall survival (OS) at 13 and 14 years, respectively, were 59% and
53% for unmethylated patients and 28% and 31% for hypermethylated patients
(P = 0.0003 and P = 0.003). Multivariate analysis demonstrated that WNT5A methylation
was an independent prognostic factor predicting DFS (P = 0.003) and OS (P = 0.04). We have
demonstrated that WNT5A, a putative tumour suppressor gene in ALL, is silenced by methylation
in this disease and that this epigenetic event is associated with upregulation of
CYCLIN D1 expression and confers poor prognosis in this group of patients