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Abstract B125: Mutant SF3B1 downregulates proteins involved in differentiation, including ABCB7

Darman, Rachel B. ; Perino, Samantha A. ; Seiler, Michael ; [et al.]

American Association for Cancer Research (AACR) ; 2015

In: Molecular Cancer Therapeutics Vol. 14, No. 12_Supplement_2 ( 2015-12-01), p. B125-B125

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In: Molecular Cancer Therapeutics, American Association for Cancer Research (AACR), Vol. 14, No. 12_Supplement_2 ( 2015-12-01), p. B125-B125

Abstract: Refractory Anemia with Ringed Sideroblasts (RARS), a subtype of Myelodysplatic Syndrome (MDS), occurs with a high frequency of hotspot mutations in HEAT (Huntingtin, Elongation factor 3, protein phosphatase 2A, Targets of rapamycin 1 domains) domains of SF3B1. This protein component of the U2 snRNP complex of the spliceosome is essential in the proper selection and usage of 3' splice sites. RNAseq analysis of MDS and other tumor types in which SF3B1 hotspot mutations have been found show that alternative 3' splice site usage is the predominant cause of RNA transcript aberration. These modifications can result in mRNAs encoding novel peptides, or they can introduce premature termination codons into the pre-mRNA, most likely directing it to the Nonsense Mediated Decay (NMD) pathway for degradation. Using a predictive tool to determine the likelihood of a given aberrant transcript to be targeted for NMD, we determined that nearly 50% of the SF3B1-mutant-associated aberrant transcripts were candidates for degradation. We confirmed this experimentally by treating isogenic Nalm-6 cells (engineered by AAV homology to express SF3B1 K700E or K700K) with or without cycloheximide, an agent known to inhibit translation and RNA degradation by NMD. Investigation of the resulting RNAseq data showed significant rescue of gene expression only for the transcripts predicted to be NMD targets. Ingenuity Pathway Analysis indicated that many of the downregulated genes in SF3B1 mutant samples were involved in differentiation, which has been shown to be dysregulated in MDS. We tested the idea that such modifications in the transcriptome confer selective advantage or impair differentiation in SF3B1 mutant cells. We began by manipulating the expression of ABCB7, one of the genes identified in our RNAseq analysis to be downregulated by aberrant splicing and subsequent NMD. ABCB7 is a mitochondrial transporter important in cellular iron metabolism and, indirectly, in heme production. Additionally, loss of function of ABCB7 is causal in X-linked sideroblastic anemia and has been implicated in RARS MDS. We discovered in our SILAC proteomic analysis that ABCB7 protein was dramatically decreased in K700E SF3B1 Nalm-6 cells relative to K700K Nalm-6, in agreement with our RNAseq analysis. Using doxycycline-inducible shRNA expression, we knocked down ABCB7 mRNA and protein expression in TF-1 erythroblasts. These cells show significant decreases in erythropoeitin (EPO)-induced differentiation when expressing exogenous K700E SF3B1, but not K700R (a very conservative mutation) or WT SF3B1. With direct knock down of ABCB7, we observed a similar phenotype - impairment of EPO-induced differentiation in ABCB7 shRNA-induced cells by Day 7, with no overall decline in cell viability. Interestingly, knock down of SF3B1 expression with shRNA also reduces ABCB7 mRNA. However, it also promotes cell death. This is consistent with the heterozygous nature of SF3B1 hotspot mutations; severe loss of SF3B1 function is deleterious. We propose that hotspot SF3B1 mutants promote aberrant splicing of multiple genes, inducing a general “spliceosomal sickness” in addition to downregulating key genes (e.g. ABCB7) responsible for erythroid differentiation impairment, such as that observed in RARS. Citation Format: Rachel B. Darman, Samantha A. Perino, Michael Seiler, Shouyong Peng, Jacob Feala, Peter Fekkes, Gregg F. Keaney, Kaiko Kunii, Linda Lee, Kian Huat Lim, Yoshiya Oda, Khin Myint, Esther A. Obeng, Ermira Pazolli, Eun Sun Park, John Yuan Wang, Markus Warmuth, Lihua Yu, Ping Zhu, Yoshiharu Mizui, Benjamin L. Ebert, Peter G. Smith, Silvia Buonamici. Mutant SF3B1 downregulates proteins involved in differentiation, including ABCB7. [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference: Molecular Targets and Cancer Therapeutics; 2015 Nov 5-9; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2015;14(12 Suppl 2):Abstract nr B125.

Type of Medium: Online Resource

ISSN: 1535-7163 , 1538-8514

URL: Article

DOI: 10.1158/1535-7163.TARG-15-B125

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2015

detail.hit.zdb_id: 2062135-8

SSG: 12

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Heterozygous Hotspot SF3B1 Mutations Found in Myelodysplastic Syndromes Downregulate Genes Involved in Differentiation of Erythroid Cells

Buonamici, Silvia ; Darman, Rachel ; Perino, Samantha ; [et al.]

American Society of Hematology ; 2015

In: Blood Vol. 126, No. 23 ( 2015-12-03), p. 1643-1643

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In: Blood, American Society of Hematology, Vol. 126, No. 23 ( 2015-12-03), p. 1643-1643

Abstract: Heterozygous mutations in several core members of the spliceosome complex have been reported in Myelodysplastic Syndromes (MDS) and Acute Myeloid Leukemia (AML). In particular high frequency SF3B1 hotspot mutations, a component of the U2 complex involved in the interaction with the branch point (BP) and recognition of the 3' splice sites (ss) during splicing, have been identified in Refractory Anemia with Ringed Sideroblasts (RARS) a subtype of MDS. Using computational analyses of RNAseq from several cancer types including RARS, we identified that SF3B1 hotspot mutations induce aberrant 3'ss selection by recognizing a cryptic AG located between 15 to 24 nucleotides upstream of the canonical AG. Experimental confirmation of these motif features was performed using minigenes in SF3B1 mutant cells. Furthermore, we discovered that SF3B1 mutant utilized a different BP from that used by SF3B1 wild-type providing novel mechanistic insights into changes in function induced by the hotspot mutations. The induction of aberrant splicing can introduce premature termination codons thus targeting mRNA for degradation by Nonsense Mediated Decay (NMD). We predicted that close to 50% of the aberrantly spliced genes would be subject to NMD and showed (using isogenic Nalm-6 cells engineered by AAV homology to express SF3B1K700E or SF3B1K700K) that several of these genes were downregulated at the transcript and protein levels. These downregulated genes/proteins might be involved in the pathogenesis of SF3B1 mutant cancers. Interestingly, pathway analysis of genes differentially expressed or aberrantly spliced in SF3B1 mutant compared to wild-type in RARS samples identified cell differentiation and epigenetics as the primary misregulated pathways. To study the impact of SF3B1 mutations on differentiation, we used the TF-1 differentiation cell model where erythroid differentiation is induced by treatment with erythropoietin (EPO). EPO treatment, as expected, induced erythroid differentiation in TF-1 cells transduced with SF3B1WT, but a block in erythroid differentiation was observed in TF-1 cells transduced with SF3B1K700E (the most common mutation in MDS and chronic lymphocytic leukemia (CLL)). Intriguingly, SF3B1G742D, which is found mutated in CLL but not MDS, did not block differentiation in this myeloid differentiation model, implying that specific SF3B1 mutations and splicing aberrations have important context dependent effects. Pathway analysis comparing SF3B1K700E vs. SF3B1WT or SF3B1G742D identified several genes involved in heme biosynthesis or downstream of GATA1 to be downregulated (such as, AHSP, ALAS2, CCL5, CD36, EPOR, GP1BB, HBB, HBE1, HBG1, PRG2) in SF3B1K700E cells only. This is consistent with the role of SF3B1K700E in RARS. In our analyses, we also identified that ABCB7 is aberrantly spliced and that the aberrant transcript is subject to NMD, causing downregulation of the canonical transcript and protein. ABCB7 is a mitochondrial transporter important in cellular iron metabolism and in heme production; moreover, partial loss of function mutation in ABCB7 has been identified in X-linked sideroblastic anemia and ataxia, demonstrating an iron overload phenotype in cells with defective ABCB7. Interestingly, when ABCB7 was knocked down in TF-1 cells we observed block in differentiation similar to that observed in SF3B1K700E cells suggesting a link between SF3B1 mutation and ABCB7 levels and impaired differentiation. Taken together, these data suggest that SF3B1 mutations induce aberrant splicing and as a consequence downregulation of several genes that contribute to the block in erythroid differentiation, one of the key biological defects observed in MDS. Disclosures Buonamici: H3 Biomedicine: Employment. Darman:H3 Biomedicine: Employment. Perino:H3 Biomedicine: Employment. Agrawal:H3 Biomedicine: Employment. Peng:H3 Biomedicine: Employment. Seiler:H3 Biomedicine: Employment. Feala:H3 Biomedicine: Employment. Bailey:H3 Biomedicine: Employment. Chan:H3 Biomedicine: Employment. Fekkes:H3 Biomedicine: Employment. Keaney:H3 Biomedicine: Employment. Kumar:H3 Biomedicine: Employment. Kunii:H3 Biomedicine: Employment. Lee:H3 Biomedicine: Employment. Mackenzie:Eisai: Employment. Matijevic:Eisai: Employment. Mizui:H3 Biomedicine: Employment. Myint:Eisai: Employment. Park:H3 Biomedicine: Employment. Pazolli:H3 Biomedicine: Employment. Thomas:H3 Biomedicine: Employment. Wang:H3 Biomedicine: Employment. Warmuth:H3 Biomedicine: Employment. Yu:H3 Biomedicine: Employment. Zhu:H3 Biomedicine: Employment. Furman:Acerta Pharma BV: Research Funding; Gilead: Consultancy; Pharmacyclics LLC, an AbbVie Company: Consultancy, Honoraria, Speakers Bureau. Ebert:Celgene: Consultancy; H3 Biomedicine: Consultancy; Genoptix: Consultancy, Patents & Royalties. Smith:H3 Biomedicine: Employment.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V126.23.1643.1643

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2015

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Abstract 2932: SF3B1 mutations induce aberrant mRNA splicing in cancer and confer sensitivity to spliceosome inhibition

Buonamici, Silvia ; Lim, Kian Huat ; Feala, Jacob ; [et al.]

American Association for Cancer Research (AACR) ; 2014

In: Cancer Research Vol. 74, No. 19_Supplement ( 2014-10-01), p. 2932-2932

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In: Cancer Research, American Association for Cancer Research (AACR), Vol. 74, No. 19_Supplement ( 2014-10-01), p. 2932-2932

Abstract: Recurrent heterozygous mutations of the spliceosome protein SF3B1 have been identified in myelodysplastic syndromes, chronic lymphocytic leukemia (CLL), breast, pancreatic and skin cancers. SF3B1 is a component of the U2 snRNP complex which binds to the pre-mRNA branch point site and is involved in recognition and stabilization of the spliceosome at the 3′ splice site. To understand the impact of SF3B1 mutations, we compared RNAseq profiles from tumor samples with SF3B1 hotspot mutations (SF3B1-MUT) or wild-type SF3B1 (SF3B1-WT) in breast cancer, melanoma and CLL. This analysis revealed significant increases in the usage of novel alternative splice junctions in SF3B1-MUT samples including selection of alternative 3′ splice sites and less frequently exon skipping. These events induce expression of alternative mRNAs that are translated into novel proteins or aberrant mRNAs that are decayed by cells. A common alternative splicing profile was shared across different hotspot mutations and lineages (e.g. ZDHHC16 and COASY); however, unique alternative splicing profiles were also observed suggesting lineage specific effects. RNAseq analysis of several cell lines with endogenous SF3B1 hotspot mutations confirmed the presence of the same spliced isoforms as observed in tumor samples. To prove that SF3B1-MUT were inducing alternative splicing, transient transfection of several SF3B1 hotspot mutations in 293FT cells induced the expression of the common alternatively spliced genes suggesting functional similarity. Selective shRNA depletion of mutant SF3B1 allele in SF3B1-MUT cells resulted in downregulation of the same splice isoforms. Furthermore, isogenic B-cell lines (NALM-6) expressing the most frequent SF3B1 mutation (K700E) were generated and profiled by RNAseq. As expected, similar alternatively spliced genes were observed in NALM-6 SF3B1-K700E cells exclusively. To investigate the role of nonsense-mediated mRNA decay (NMD) in eliminating aberrant mRNAs induced by SF3B1-MUT, we treated NALM-6 SF3B1-K700E cells with cycloheximide, a translation inhibitor known to inhibit NMD. In the treated samples, expression of several aberrant mRNAs was revealed and some of these transcripts were shown to be downregulated in patient samples. Taken together, these results confirm the association between different SF3B1 hotspot mutations and the presence of novel splice isoforms. We demonstrated that E7107, a potent and selective inhibitor of wild-type SF3B1, also binds and inhibits SF3B1-MUT protein. In addition, E7107 represses the expression of several common aberrant splice mRNA products in SF3B1-MUT cells in vitro and in vivo. When tested in a NALM-6 mouse model, E7107 induced tumor regression and increased the overall survival of animals implanted with NALM-6 SF3B1-K700E cells. These data suggest splicing inhibitors as a promising therapeutic approach for cancer patients carrying SF3B1 mutations. Citation Format: Silvia Buonamici, Kian Huat Lim, Jacob Feala, Eunice Park, Laura Corson, Michelle Aicher, Daniel Aird, Betty Chan, Erik Corcoran, Rachel Darman, Peter Fekkes, Gregg Keaney, Pavan Kumar, Kaiko Kunii, Linda Lee, Xiaoling Puyang, Jose Rodrigues, Anand Selvaraj, Michael Thomas, John Wang, Markus Warmuth, Lihua Yu, Ping Zhu, Peter Smith, Yoshiharu Mizui. SF3B1 mutations induce aberrant mRNA splicing in cancer and confer sensitivity to spliceosome inhibition. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 2932. doi:10.1158/1538-7445.AM2014-2932

Type of Medium: Online Resource

ISSN: 0008-5472 , 1538-7445

URL: Article

DOI: 10.1158/1538-7445.AM2014-2932

RVK:

XA 36000

RVK:

XA 10000

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2014

detail.hit.zdb_id: 2036785-5

detail.hit.zdb_id: 1432-1

detail.hit.zdb_id: 410466-3

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Abstract C8: Targeting MCL1-dependent cancers with SF3B splicing modulators

Aird, Daniel ; Pazolli, Ermira ; Furman, Craig ; [et al.]

American Association for Cancer Research (AACR) ; 2015

In: Molecular Cancer Therapeutics Vol. 14, No. 12_Supplement_2 ( 2015-12-01), p. C8-C8

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In: Molecular Cancer Therapeutics, American Association for Cancer Research (AACR), Vol. 14, No. 12_Supplement_2 ( 2015-12-01), p. C8-C8

Abstract: Myeloid cell leukemia 1 (MCL1) is a member of the BCL2 family of proteins governing the apoptosis pathway and is one of the most frequently amplified genes in cancer. MCL1 overexpression often results in dependence on MCL1 for survival and is linked to resistance to anticancer therapies. However, the development of direct MCL1 inhibitors has proven challenging and new modalities for targeting MCL1 are required. Alternative splicing of MCL1 converts the anti-apoptotic MCL1 long (MCL1L) isoform to the BH3-only MCL1 short (MCL1S) isoform, which has been reported to be pro-apoptotic. Thus, changing MCL1 isoform levels through modulation of RNA splicing may represent an attractive approach to targeting MCL1-amplified cancers. To this end, we tested a collection of small molecule SF3B modulators that impact RNA splicing on MCL1-dependent and MCL1-independent NSCLC cell lines. SF3B modulators induced rapid downregulation of the long form and upregulation of the short- and intron-containing form of MCL1 across models; however, apoptosis was only observed in MCL1-dependent cells. Importantly, SF3B modulators preferentially killed MCL1-dependent cell lines and sensitivity correlated with MCL1 amplification. To dissect the mechanism of SF3B modulator-induced cytotoxicity, we overexpressed either the cDNA for the BH3-only short isoform or the full length isoform of MCL1. Surprisingly, overexpression of MCL1S cDNA had no significant effect on cells by itself and did not sensitize cells to SF3B modulator cytotoxicity. Conversely, MCL1L-specific shRNA knockdown was sufficient to kill MCL1-dependent cells and SF3B modulator cytotoxicity was rescued by expression of MCL1L cDNA. Together, these results argue that MCL1L modulation and not MCL1S upregulation is the effector of SF3B modulator cytotoxicity. In immunocompromised mice bearing MCL1-dependent xenograft models, SF3B1 modulator treatment resulted in significant downregulation of MCL1 levels accompanied by induction of apoptosis and robust efficacy at well-tolerated doses. Moreover, MCL1L cDNA expression in MCL1-dependent models rescued apoptosis induced by SF3B1 modulator treatment. These studies provide proof-of-concept that splicing modulation is an effective strategy for targeting cancers dependent on MCL1. Citation Format: Daniel Aird, Ermira Pazolli, Craig Furman, Linda Lee, Kaiko Kunii, Eun Sun Park, Craig Karr, Betty Chan, Michelle Aicher, Silvia Buonamici, John Yuan Wang, Jacob Feala, Lihua Yu, Markus Warmuth, Peter Smith, Peter Fekkes, Ping Zhu, Baudouin Gerard, Yoshiharu Mizui, Laura Corson. Targeting MCL1-dependent cancers with SF3B splicing modulators. [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference: Molecular Targets and Cancer Therapeutics; 2015 Nov 5-9; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2015;14(12 Suppl 2):Abstract nr C8.

Type of Medium: Online Resource

ISSN: 1535-7163 , 1538-8514

URL: Article

DOI: 10.1158/1535-7163.TARG-15-C8

Language: English

Publisher: American Association for Cancer Research (AACR)

Publication Date: 2015

detail.hit.zdb_id: 2062135-8

SSG: 12

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Cancer-Associated SF3B1 Hotspot Mutations Induce Cryptic 3′ Splice Site Selection through Use of a Different Branch Point

Darman, Rachel B. ; Seiler, Michael ; Agrawal, Anant A. ; [et al.]

Elsevier BV ; 2015

In: Cell Reports Vol. 13, No. 5 ( 2015-11), p. 1033-1045

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In: Cell Reports, Elsevier BV, Vol. 13, No. 5 ( 2015-11), p. 1033-1045

Type of Medium: Online Resource

ISSN: 2211-1247

URL: Article

DOI: 10.1016/j.celrep.2015.09.053

Language: English

Publisher: Elsevier BV

Publication Date: 2015

detail.hit.zdb_id: 2649101-1

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Cancer-Associated Mutations in SF3B1 Exhibit Neomorphic Splicing Activity and Block Erythroid Differentiation

Buonamici, Silvia ; Perino, Samantha ; Lim, Kian Huat ; [et al.]

American Society of Hematology ; 2014

In: Blood Vol. 124, No. 21 ( 2014-12-06), p. 4615-4615

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In: Blood, American Society of Hematology, Vol. 124, No. 21 ( 2014-12-06), p. 4615-4615

Abstract: Recently, heterozygous mutations in several spliceosome genes have been observed in hematological and solid cancers, but their functional role in these diseases is not well understood. Among these, SF3B1 is the most commonly mutated spliceosome gene in myelodysplastic syndromes (MDS) and chronic lymphocytic leukemia (CLL). SF3B1 is part of the U2 complex involved in the recognition of the 3’ splice sites (3’ss) during early spliceosome assembly. To determine the impact of SF3B1 mutations, we compared RNAseq profiles from tumor samples with SF3B1 hotspot mutations (SF3B1MUT) or wild-type SF3B1 (SF3B1WT) in breast cancer, melanoma, CLL and MDS. This analysis revealed significantly increased usage of aberrant 3’ss in SF3B1MUT samples. In addition, the aberrantly spliced exons carry a proximal splice acceptor (SA) 15 to 21 nucleotides upstream of the canonical SA with a weak and short polypyrimidine tract. Using ectopic expression and allele-specific RNAi, we confirmed that mutations in SF3B1 are sufficient and required for these aberrant splicing events which suggests a neomorphic splicing activity of SF3B1MUT. Furthermore, a common aberrant splicing profile was shared across different hotspot mutations and diseases; however, unique aberrant splicing profiles were also observed in each disease suggesting lineage and disease specific effects. In particular, gene-set enrichment analysis of aberrantly spliced and differentially expressed genes in mutant vs. wild type samples identified genes that regulate cell differentiation and epigenetics in MDS, pathways/processes known to be dysregulated in myeloid malignancies. To study the impact of SF3B1MUT on differentiation processes, we used the well-established TF-1 model of erythroid differentiation. SF3B1K700E (the most common mutation in MDS and CLL), SF3B1G742D (a mutation found in CLL but not MDS patients), SF3B1K700R (a mutation unable to induce aberrant splicing) and SF3B1WT were overexpressed in TF-1 to study erythoid differentiation post erythropoietin (EPO) exposure. EPO treatment, as expected, induced differentiation in TF-1 cells transduced with SF3B1WT and SF3B1K700R. Consistent with a possible mechanism in MDS, SF3B1K700E transduction blocked differentiation of TF-1 cells. Intriguingly, SF3B1G742D, which is found mutated in CLL but not MDS, did not block differentiation in this myeloid differentiation model, implying that specific SF3B1 mutations and splicing aberrations have important context dependent effects. Ongoing studies comparing splicing aberrations induced by SF3B1K700E and SF3B1G742D in TF-1 cell differentiation will be described. Finally, we evaluated a potent and selective modulator of SF3B1 that inhibits both canonical and neomorphic splicing activities in vitro and in vivo. The SF3B1 modulator induced tumor regression in SF3B1MUT xenografts and increased the overall survival of animals bearing SF3B1MUT xenografts at well tolerated doses. Taken together, our data suggest that SF3B1 mutations impair cell differentiation and that splicing modulators hold promise for the treatment of cancers with SF3B1 mutations, including CLL and MDS. Disclosures Buonamici: H3 Biomedicine: Employment. Perino:H3 Biomedicine: Employment. Lim:H3 Biomedicine: Employment. Feala:H3 Biomedicine: Employment. Aicher:H3 Biomedicine: Employment. Aird:H3 Biomedicine: Employment. Bailey:H3 Biomedicine: Employment. Berkenblit:H3 Biomedicine: Employment. Chan:H3 Biomedicine: Employment. Erik:H3 Biomedicine: Employment. Corson:H3 Biomedicine: Employment. Darman:H3 Biomedicine: Employment. Fekkes:H3 Biomedicine: Employment. Furman:Pharmacyclics: Consultancy, Speakers Bureau. Keaney:H3 Biomedicine: Employment. Kumar:Eisai: Employment. Kunii:H3 Biomedicine: Employment. Lee:H3 Biomedicine: Employment. Mackenzie:Eisai: Employment. Park:H3 Biomedicine: Employment. Puyang:H3 Biomedicine: Employment. Selvaraj:H3 Biomedicine: Employment. Thomas:H3 Biomedicine: Employment. Wang:H3 Biomedicine: Employment. Warmuth:H3 Biomedicine: Employment. Yu:H3 Biomedicine: Employment. Zhu:H3 Biomedicine: Employment. Mizui:H3 Biomedicine: Employment. Smith:H3 Biomedicine: Employment.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V124.21.4615.4615

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2014

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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