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Synergistic Antileukemic Interactions Between Valproic Acid and Cytarabine: A Potential Means to Improve the Treatment of Pediatric Acute Myeloid Leukemia.

Xie, Chengzhi ; Edwards, Holly ; Polin, Lisa ; [et al.]

American Society of Hematology ; 2009

In: Blood Vol. 114, No. 22 ( 2009-11-20), p. 2084-2084

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In: Blood, American Society of Hematology, Vol. 114, No. 22 ( 2009-11-20), p. 2084-2084

Abstract: Abstract 2084 Poster Board II-61 Acute myeloid leukemia (AML) accounts for one fourth of acute leukemias in children, but it is responsible for more than half of the leukemia deaths in this patient population. In contrast to the tremendous success in the treatment of acute lymphoblastic leukemia over the last three decades, resulting in a 〉 80% cure rate, improvements in AML therapy have been limited. Resistance to cytarabine (ara-C), the most active drug in the treatment of AML, is a major cause of treatment failure in this disease. Therefore, new therapies for children with AML need to be developed to overcome drug resistance, decrease relapse rate, and reduce short- and long-term adverse effects of treatment. Histone deacetylase inhibitors (HDACIs) possess antitumor activity and are currently being tested in clinical trials for the treatment of a variety of different cancers. Valproic acid (VPA), an FDA-licensed drug for treating both children and adults with epilepsy, also acts as an HDACI and can induce apoptosis in leukemic cells but not normal cells. In this study, we hypothesized that VPA synergizes with ara-C in antileukemic activity by inducing apoptosis in AML cells. To model this concept and to provide the basis for future clinical studies, we examined the effects of VPA on sensitivities to ara-C in 8 AML cell lines derived from patients (4 were children) with different subtypes of AML and in AML blasts collected at the time of diagnosis from 10 children with de novo AML treated at Children's Hospital of Michigan. We demonstrated synergistic antileukemic interactions between ara-C and VPA in all of the AML cell lines and additive to synergistic antileukemic interactions between the two drugs in the patient samples by standard isobolograms and calculation of combination indexes. It is interesting to note that MV4-11 [which harbors t(4;11)] and Kasumi-1 [which harbors t(8;21)] cells were substantially more sensitive to VPA than the other AML cell lines. Analogous to the Kasumi-1 cells, diagnostic blasts from t(8;21) AML cases (n=4) were significantly more sensitive to VPA than blasts from non-t(8;21) AML cases (n=6) (mean VPA IC50 0.51 mM vs 1.95 mM, p=0.0095) and showed median 53.9-fold increased ara-C sensitivities when combined with VPA at concentrations of 0.5 mM or lower. By contrast, non-t(8;21) AML blasts only showed median 2.1-fold increased ara-C sensitivities when combined with 0.5 mM VPA (p=0.048). In a pilot experiment, treatment of SCID mice with K562 xenograft tumors with combined Palmo-ara-C and VPA resulted in a 31% T/C and a 0.8 gross log cell kill compared to treatments with Palmo-ara-C (67% T/C) or VPA alone (100% T/C), establishing unambiguous in vivo synergy. Real-time RT-PCR analyses revealed changes in transcript levels for hENT1 and cytidine deaminase in Kasumi-1 cells post VPA and ara-C treatment alone or in combination. However, these changes would antagonize ara-C sensitivity in Kasumi-1 cells, suggesting that the effects of VPA or ara-C alone or in combination on expression of genes related to ara-C transport and metabolism do not contribute to the observed synergistic effects in AML cells. Interestingly, ara-C and VPA co-treatment resulted in synergistic induction of apoptosis and S-phase arrest in Kasumi-1 cells determined by flow cytometry analysis with annexin V and PI staining. The synergy between ara-C and VPA in induction of apoptosis in Kasumi-1 cells was accompanied by synergistic activation of caspase-3, induction of both total and acetylated p53 (ac-p53), and release of the active form of Bax determined by caspase-3 assays, co-immunoprecipitation, and Western blotting. Collectively, these results suggest that VPA enhances ara-C sensitivity in Kasumi-1 cells most likely by modulating levels of total and ac-p53 proteins and then release of the active form of Bax to trigger apoptosis. Based on our laboratory results, VPA has been incorporated into a treatment arm for high risk AML patients enrolled in the St. Jude Children's Research Hospital (SJCRH) clinical trial AML08: “A Randomized Trial of Clofarabine Plus Cytarabine Versus Conventional Induction Therapy and of Natural Killer Cell Transplantation Versus Conventional Consolidation Therapy in Patients with Newly Diagnosed Acute Myeloid Leukemia”. The results of our study provide compelling evidence to support the use of VPA in combination with ara-C in clinical trials for treating different risk groups of pediatric AML. Disclosures: No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V114.22.2084.2084

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2009

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Overexpression of GATA1 Confers Chemotherapy Resistance in Pediatric Acute Megakaryocytic Leukemia.

Edwards, Holly ; Xie, Chengzhi ; Dombkowski, Alan ; [et al.]

American Society of Hematology ; 2009

In: Blood Vol. 114, No. 22 ( 2009-11-20), p. 2039-2039

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In: Blood, American Society of Hematology, Vol. 114, No. 22 ( 2009-11-20), p. 2039-2039

Abstract: Abstract 2039 Poster Board II-16 Acute megakaryocytic leukemia (AMkL; M7) is a biologically heterogeneous form of AML, representing ∼10% of pediatric and 1-2% of adult AML cases. AMkL is the most common AML subtype of children with Down syndrome (DS). DS children with AMkL have an excellent prognosis with EFS rates of 80-100% when treated with ara-C/anthracycline-based protocols, in contrast to the 〈 30% EFS rates of non-DS children with AMkL. This also contrasts to the ∼50% EFS rates of non-DS children with AML overall, indicating that AMkL is an extremely poor risk group amongst non-DS children with AML despite the use of intensive chemotherapy-based protocols. These clinical data make a compelling argument that new therapies are essential to improve the treatment outcome of this aggressive disease. Acquired somatic mutations of the transcription factor gene, GATA1 (localized to Xp11.23), have been detected uniformly in nearly all DS AMkL cases, but not in non-DS AML and non-AMkL DS leukemia cases. The net effect of GATA1 mutations is an introduction of early stop codons and synthesis of a shorter GATA1 protein (designated GATA1s) that has altered transactivation activity, potentially contributing to the uncontrolled proliferation of immature megakaryocytes. It is conceivable that the altered GATA1 function between DS and non-DS AMkL may account for differential expression of GATA1 target genes in these two groups of patients. On the other hand, overexpression of GATA1 in megakaryoblasts from non-DS children with AMkL compared to myeloblasts from non-DS children with other subtypes of AML may contribute to differences in chemotherapy sensitivity via regulation of GATA1 target genes. We previously reported that GATA1 mutations in DS AMkL are associated with decreased expression of cytidine deaminase (encodes an enzyme which can convert ara-C to ara-U, the inactive form of the drug), thus contributing to the enhanced ara-C sensitivity of DS AMkL blasts. Further, when GATA1 was ectopically expressed in a DS AMkL cell line, CMK, it caused significantly increased resistance to ara-C. In the present study, we confirmed overexpression of GATA1 in non-DS AMkL blasts compared to non-DS AML blasts by real-time RT-PCR quantitation of GATA1 transcripts in our cohort of patient samples. shRNA knockdown of GATA1 in a non-DS AMkL cell line, Meg-01, resulted in significantly increased sensitivities to ara-C and daunorubicin, the two main drugs used for AML treatment, and significantly increased basal level apoptosis. This was accompanied by significantly decreased Bcl-xL transcript and protein levels in the GATA1 shRNA knockdown clones compared to a shRNA negative control. Binding of GATA1 to the two GATA elements in Bcl-x promoter and transactivation of Bcl-x promoter activity by GATA1 was demonstrated by ChIP assays and luciferase reporter assays, respectively, in Meg-01 cells. In our cohort of non-DS AMkL and AML patient samples, significant overexpression of Bcl-xL in non-DS AMkL compared to non-DS AML cases and a significant correlation between Bcl-xL and GATA1 transcripts were detected. Besides Bcl-xL, additional GATA1 targets (e.g. TNF) related to apoptosis were also identified by gene expression and ChIP-on-ChIP microarray analyses. Interestingly, our microarray data also suggest that GATA1 may have an impact on PI3-kinase/Akt pathway through modulating directly or indirectly a group of genes within the pathway. Western blotting revealed increased phosphorylation of Akt in the GATA1 knockdown clones compared to the negative control cells. Previous studies reported that histone deacetylase inhibitors (HDACIs) treatment causes hyperacetylation and subsequent degradation of GATA1, suggesting that these agents may be effective in targeting GATA1 in AMkL. Treatment of Meg-01 cells with an HDACI, valproic acid (VPA), resulted in decreased protein levels for GATA1 and Bcl-xL and increased phosphorylation of Akt. Co-treatment of Meg-01 cells with VPA and ara-C resulted in synergistic induction of apoptosis and activation of caspase-3. This drug synergy was amplified when a non-toxic dose of the PI3-kinase inhibitor LY294002 was added. Our results demonstrate that GATA1 causes resistance to chemotherapy in non-DS AMkL by promoting AMkL blast survival through regulating its target genes. Treatment of AMkL may be improved by integrating HDACI and PI3-kinase or Akt inhibitors into the chemotherapy of this disease. Disclosures: No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V114.22.2039.2039

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2009

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Mechanisms of Synergistic Antileukemic Interactions between Valproic Acid and Cytarabine in Pediatric Acute Myeloid Leukemia

Xie, Chengzhi ; Edwards, Holly ; Xu, Xuelian ; [et al.]

American Association for Cancer Research (AACR) ; 2010

In: Clinical Cancer Research Vol. 16, No. 22 ( 2010-11-15), p. 5499-5510

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In: Clinical Cancer Research, American Association for Cancer Research (AACR), Vol. 16, No. 22 ( 2010-11-15), p. 5499-5510

Abstract: Purpose: To determine the possibility of synergistic antileukemic activity and the underlying molecular mechanisms associated with cytarabine combined with valproic acid (VPA; a histone deacetylase inhibitor and a Food and Drug Administration–licensed drug for treating both children and adults with epilepsy) in pediatric acute myeloid leukemia (AML). Experimental Design: The type and extent of antileukemic interactions between cytarabine and VPA in clinically relevant pediatric AML cell lines and diagnostic blasts from children with AML were determined by MTT assays and standard isobologram analyses. The effects of cytarabine and VPA on apoptosis and cell cycle distributions were determined by flow cytometry analysis and caspase enzymatic assays. The effects of the two agents on DNA damage and Bcl-2 family proteins were determined by Western blotting. Results: We showed synergistic antileukemic activities between cytarabine and VPA in four pediatric AML cell lines and nine diagnostic AML blast samples. t(8;21) AML blasts were significantly more sensitive to VPA and showed far greater sensitivities to combined cytarabine and VPA than non-t(8;21) AML cases. Cytarabine and VPA cooperatively induced DNA double-strand breaks, reflected in induction of γH2AX and apoptosis, accompanied by activation of caspase-9 and caspase-3. Further, VPA induced Bim expression and short hairpin RNA knockdown of Bim resulted in significantly decreased apoptosis induced by cytarabine and by cytarabine plus VPA. Conclusions: Our results establish global synergistic antileukemic activity of combined VPA and cytarabine in pediatric AML and provide compelling evidence to support the use of VPA in the treatment of children with this deadly disease. Clin Cancer Res; 16(22); 5499–510. ©2010 AACR.

Type of Medium: Online Resource

ISSN: 1078-0432 , 1557-3265

URL: Article

DOI: 10.1158/1078-0432.CCR-10-1707

RVK:

XA 36791

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2010

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detail.hit.zdb_id: 2036787-9

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Abstract 4351: p53 is a critical determinant of the antileukemic interactions between histone deacetylase inhibitors and chemotherapy drugs in pediatric acute myeloid leukemia cells

Xie, Chengzhi ; Edwards, Holly ; Xu, Xuelian ; [et al.]

American Association for Cancer Research (AACR) ; 2011

In: Cancer Research Vol. 71, No. 8_Supplement ( 2011-04-15), p. 4351-4351

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In: Cancer Research, American Association for Cancer Research (AACR), Vol. 71, No. 8_Supplement ( 2011-04-15), p. 4351-4351

Abstract: Acute myeloid leukemia (AML) accounts for one-fourth of acute leukemias in children, but it is responsible for more than half of the leukemia deaths in this patient population. Resistance to ara-C/anthracycline-based chemotherapy is a major cause of treatment failure in this disease. Among the newer agents that have been investigated in high-risk AML, clofarabine and valproic acid (VPA) are particularly notable. Clofarabine is a new FDA-approved drug for treating pediatric relapsed acute lymphoblastic leukemia and is currently being tested in pediatric AML. VPA is a FDA-licensed drug for treating both children and adults with epilepsy that has been shown to act as a histone deacetylase inhibitor (HDACI). We hypothesized that VPA and clofarabine might exhibit synergistic antileukemic activity in pediatric AML. In this study, we demonstrated highly synergistic antileukemic activities of combined clofarabine and VPA in 9 diagnostic blast samples from children with de novo AML. In contrast, both additive-to-synergistic [in Kasumi-1 which harbors t(8;21) and MV4-11 which harbors t(4;11)] and antagonistic (in THP-1 and CMS) results were obtained in 4 pediatric AML cell lines. AML cells which harbored t(8;21) were substantially more sensitive to VPA and showed greater responses to the drug combination than non-t(8;21) AML cells. Essentially the same results were obtained when clofarabine was combined with SAHA (a FDA-licensed pan-HDACI) in the pediatric AML cell lines. Co-treatment with clofarabine and VPA resulted in synergistic induction of apoptosis in Kasumi-1 cells, accompanied by synergistic activation of caspase-3 and cleavage of PARP. Our mechanistic studies revealed cooperative induction of DNA double-strand breaks (as reflected by induction of gH2AX), phosphorylation and acetylation of p53, and activation of Bax by clofarabine and VPA. Automated DNA sequencing revealed a p53 deficiency in THP-1 and CMS cell lines which may account for the antagonistic cytotoxic interactions between clofarabine and VPA, whereas the rest of the cells harbored either wild-type or mutant p53. Interestingly, treatments of Kasumi-1 cells with ara-C and VPA also resulted in cooperative activation of p53 and Bax, which may explain the differential responses of pediatric AML cells to combined ara-C and VPA observed in our previous study (Xie C et al. Clin Cancer Res 2010). Collectively, our results provide compelling evidence that p53 plays a key role in the synergistic cytotoxic effects of HDACIs combined with chemotherapy drugs in pediatric AML cells. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 102nd Annual Meeting of the American Association for Cancer Research; 2011 Apr 2-6; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2011;71(8 Suppl):Abstract nr 4351. doi:10.1158/1538-7445.AM2011-4351

Type of Medium: Online Resource

ISSN: 0008-5472 , 1538-7445

URL: Article

DOI: 10.1158/1538-7445.AM2011-4351

RVK:

XA 36000

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XA 10000

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2011

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detail.hit.zdb_id: 1432-1

detail.hit.zdb_id: 410466-3

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Histone deacetylases 1 and 2 cooperate in regulating BRCA1, CHK1, and RAD51 expression in acute myeloid leukemia cells

Zhao, Jianyun ; Xie, Chengzhi ; Edwards, Holly ; [et al.]

Impact Journals, LLC ; 2017

In: Oncotarget Vol. 8, No. 4 ( 2017-01-24), p. 6319-6329

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In: Oncotarget, Impact Journals, LLC, Vol. 8, No. 4 ( 2017-01-24), p. 6319-6329

Type of Medium: Online Resource

ISSN: 1949-2553

URL: Issue

URL: Article

DOI: 10.18632/oncotarget.v8i4

DOI: 10.18632/oncotarget.14062

Language: English

Publisher: Impact Journals, LLC

Publication Date: 2017

detail.hit.zdb_id: 2560162-3

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Obatoclax potentiates the cytotoxic effect of cytarabine on acute myeloid leukemia cells by enhancing DNA damage

Xie, Chengzhi ; Edwards, Holly ; Caldwell, J. Timothy ; [et al.]

Wiley ; 2015

In: Molecular Oncology Vol. 9, No. 2 ( 2015-02), p. 409-421

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In: Molecular Oncology, Wiley, Vol. 9, No. 2 ( 2015-02), p. 409-421

Abstract: Obatoclax enhances cytarabine‐induced DNA damage prior to induction of apoptosis. Combined obatoclax and cytarabine treatment decreases Mcl‐1 levels. Cytarabine plus obatoclax induces nuclear localization of Bcl‐2, Bcl‐xL & Mcl‐1. Bcl‐2, Bcl‐xL, and Mcl‐1 modulate cytarabine‐induced DNA damage.

Type of Medium: Online Resource

ISSN: 1574-7891 , 1878-0261

URL: Article

DOI: 10.1016/j.molonc.2014.09.008

Language: English

Publisher: Wiley

Publication Date: 2015

detail.hit.zdb_id: 2322586-5

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RUNX1 regulates phosphoinositide 3-kinase/AKT pathway: role in chemotherapy sensitivity in acute megakaryocytic leukemia

Edwards, Holly ; Xie, Chengzhi ; LaFiura, Katherine M. ; [et al.]

American Society of Hematology ; 2009

In: Blood Vol. 114, No. 13 ( 2009-09-24), p. 2744-2752

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In: Blood, American Society of Hematology, Vol. 114, No. 13 ( 2009-09-24), p. 2744-2752

Abstract: RUNX1 (AML1) encodes the core binding factor α subunit of a heterodimeric transcription factor complex which plays critical roles in normal hematopoiesis. Translocations or down-regulation of RUNX1 have been linked to favorable clinical outcomes in acute leukemias, suggesting that RUNX1 may also play critical roles in chemotherapy responses in acute leukemias; however, the molecular mechanisms remain unclear. The median level of RUNX1b transcripts in Down syndrome (DS) children with acute megakaryocytic leukemia (AMkL) were 4.4-fold (P 〈 .001) lower than that in non-DS AMkL cases. Short hairpin RNA knockdown of RUNX1 in a non-DS AMkL cell line, Meg-01, resulted in significantly increased sensitivity to cytosine arabinoside, accompanied by significantly decreased expression of PIK3CD, which encodes the δ catalytic subunit of the survival kinase, phosphoinositide 3 (PI3)–kinase. Transcriptional regulation of PIK3CD by RUNX1 was further confirmed by chromatin immunoprecipitation and promoter reporter gene assays. Further, a PI3-kinase inhibitor, LY294002, and cytosine arabinoside synergized in antileukemia effects on Meg-01 and primary pediatric AMkL cells. Our results suggest that RUNX1 may play a critical role in chemotherapy response in AMkL by regulating the PI3-kinase/Akt pathway. Thus, the treatment of AMkL may be improved by integrating PI3-kinase or Akt inhibitors into the chemotherapy of this disease.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2008-09-179812

RVK:

XA 33000

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XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2009

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detail.hit.zdb_id: 80069-7

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Binding of Released Bim to Mcl-1 Is Responsible for Resistance to ABT-199 Which Can be Overcome By Combination with Daunorubicin or Cytarabine in Acute Myeloid Leukemia Cells

Niu, Xiaojia ; Zhao, Jianyun ; Ma, Jun ; [et al.]

American Society of Hematology ; 2015

In: Blood Vol. 126, No. 23 ( 2015-12-03), p. 1265-1265

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In: Blood, American Society of Hematology, Vol. 126, No. 23 ( 2015-12-03), p. 1265-1265

Abstract: Acute myeloid leukemia (AML) is a malignant heterogeneous disease characterized by rapid clonal growth of myeloid lineage blood cells. This year there will be an estimated 20,830 new AML cases and an estimated 10,400 deaths from this deadly disease in the United States. Overall survival rates remain low despite advances in treatment with overall survival rates of 25% for adults and 65% for children. Resistance to frontline chemotherapy remains a major cause of treatment failure, highlighting the need for new therapies. Overexpression of the anti-apoptotic Bcl-2 family members is associated with chemoresistance in leukemic cell line models and with poor clinical outcome. Anti-apoptotic Bcl-2 family members, such as Bcl-2, Bcl-xL, and Mcl-1, sequester pro-apoptotic BH3-only proteins, such as Bim, which activate pro-apoptotic proteins Bax and Bak causing mitochondrial outer membrane permeabilization resulting in cytochrome c release and apoptosis. Thus, inhibition of anti-apoptotic Bcl-2 family members represents a promising approach for the treatment of AML. We previously demonstrated preclinical efficacy of a pan-Bcl-2 inhibitor, GX15-070, in combination with cytarabine in AML cell lines and primary patient samples. Another promising inhibitor, ABT-263, has shown preclinical efficacy, but has been associated with thrombocytopenia due to inhibition of Bcl-xL, thus much attention has been focused on inhibition of Bcl-2. ABT-199, a Bcl-2 selective inhibitor, has demonstrated encouraging results in AML, acute lymphoblastic leukemia, chronic lymphocytic leukemia, mantle cell lymphoma, multiple myeloma, and breast cancer. We previously demonstrated that ABT-199 has a wide range of activity in AML cells (Niu X, et al. Leukemia. 2014; 28: 1557-1560.) However, it has limited efficacy in Bcl-xL and Mcl-1 dependent malignancies. Thus, intrinsic drug resistance remains a concern. Understanding the molecular mechanisms of resistance to ABT-199 will allow for rationally designed combination regimens to increase its antileukemic efficacy. In this study, we investigated the molecular mechanism underlying intrinsic resistance to ABT-199 in AML cells. Immunoprecipitation of Bim from ABT-199 treated cells demonstrated decreased association with Bcl-2, but increased association with Mcl-1, without corresponding change in mitochondrial outer membrane potential. ABT-199 treatment resulted in increased levels of Mcl-1 protein and unchanged or decreased Mcl-1 transcript levels. shRNA knockdown of Bim almost completely abolished ABT-199 treatment-induced increase of Mcl-1 protein levels, suggesting that the association with Bim plays an important role in stabilizing Mcl-1 protein. AML cells treated with ABT-199 in the presence of the protein translation inhibitor cycloheximide resulted in significantly longer Mcl-1 half-life and treatment with the proteasome inhibitor MG-132 resulted in increased Mcl-1 protein level and no further enhancement was detected when treated with combined MG-132 and ABT-199, suggesting that ABT-199 affects Mcl-1 protein stability. Combining conventional chemotherapeutic agent cytarabine or daunorubicin with ABT-199 resulted in increased DNA damage, decreased Mcl-1 protein levels, decreased association of Mcl-1 with Bim, and synergistic induction of cell death compared to ABT-199 alone, in both AML cell lines and primary patient samples obtained from AML patients at diagnosis independent of their sensitivities to ABT-199, thus providing evidence that screening for ABT-199 resistance is not necessary. Our results demonstrate that sequestration of Bim by Mcl-1 is a mechanism of intrinsic ABT-199 resistance, and this mechanism of resistance can be overcome by combining ABT-199 with daunorubicin or cytarabine in AML cells. Our findings, though in a limited number of primary patient samples, provide new insights into the mechanism of ABT-199 resistance in AML cells and support the clinical development of the combination of daunorubicin or cytarabine and ABT-199 in the treatment of AML. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V126.23.1265.1265

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XA 33000

RVK:

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Language: English

Publisher: American Society of Hematology

Publication Date: 2015

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Inhibition of Histone Deacetylases 1 and 6 Enhances Cytarabine-Induced Apoptosis in Pediatric Acute Myeloid Leukemia Cells

Xu, Xuelian ; Xie, Chengzhi ; Edwards, Holly ; [et al.]

Public Library of Science (PLoS) ; 2011

In: PLoS ONE Vol. 6, No. 2 ( 2011-2-16), p. e17138-

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In: PLoS ONE, Public Library of Science (PLoS), Vol. 6, No. 2 ( 2011-2-16), p. e17138-

Type of Medium: Online Resource

ISSN: 1932-6203

URL: Article

DOI: 10.1371/journal.pone.0017138

DOI: 10.1371/journal.pone.0017138.g001

DOI: 10.1371/journal.pone.0017138.g002

DOI: 10.1371/journal.pone.0017138.g003

DOI: 10.1371/journal.pone.0017138.g004

DOI: 10.1371/journal.pone.0017138.g005

DOI: 10.1371/journal.pone.0017138.g006

DOI: 10.1371/journal.pone.0017138.s001

Language: English

Publisher: Public Library of Science (PLoS)

Publication Date: 2011

detail.hit.zdb_id: 2267670-3

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A Unique Role of GATA1s in Down Syndrome Acute Megakaryocytic Leukemia Biology and Therapy

Xavier, Ana C. ; Edwards, Holly ; Dombkowski, Alan A. ; [et al.]

Public Library of Science (PLoS) ; 2011

In: PLoS ONE Vol. 6, No. 11 ( 2011-11-16), p. e27486-

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In: PLoS ONE, Public Library of Science (PLoS), Vol. 6, No. 11 ( 2011-11-16), p. e27486-

Type of Medium: Online Resource

ISSN: 1932-6203

URL: Article

DOI: 10.1371/journal.pone.0027486

DOI: 10.1371/journal.pone.0027486.s001

DOI: 10.1371/journal.pone.0027486.s002

DOI: 10.1371/journal.pone.0027486.s003

DOI: 10.1371/journal.pone.0027486.s004

DOI: 10.1371/journal.pone.0027486.s005

DOI: 10.1371/journal.pone.0027486.s006

Language: English

Publisher: Public Library of Science (PLoS)

Publication Date: 2011

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