Your search keyword '"Ghoda, Lucy"' showing total 236 results

1. State-transition modeling of blood transcriptome predicts disease evolution and treatment response in chronic myeloid leukemia

Author

Frankhouser, David E, Rockne, Russell C, Uechi, Lisa, Zhao, Dandan, Branciamore, Sergio, O’Meally, Denis, Irizarry, Jihyun, Ghoda, Lucy, Ali, Haris, Trent, Jeffery M, Forman, Stephen, Fu, Yu-Hsuan, Kuo, Ya-Huei, Zhang, Bin, and Marcucci, Guido

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Genetics, Rare Diseases, Clinical Research, Cancer, Hematology, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Mice, Animals, Transcriptome, Fusion Proteins, bcr-abl, Protein Kinase Inhibitors, Leukemia, Myelogenous, Chronic, BCR-ABL Positive, Tetracyclines, Drug Resistance, Neoplasm, Clinical Sciences, Immunology, Cardiovascular medicine and haematology, Clinical sciences, Oncology and carcinogenesis

Abstract

Chronic myeloid leukemia (CML) is initiated and maintained by BCR::ABL which is clinically targeted using tyrosine kinase inhibitors (TKIs). TKIs can induce long-term remission but are also not curative. Thus, CML is an ideal system to test our hypothesis that transcriptome-based state-transition models accurately predict cancer evolution and treatment response. We collected time-sequential blood samples from tetracycline-off (Tet-Off) BCR::ABL-inducible transgenic mice and wild-type controls. From the transcriptome, we constructed a CML state-space and a three-well leukemogenic potential landscape. The potential's stable critical points defined observable disease states. Early states were characterized by anti-CML genes opposing leukemia; late states were characterized by pro-CML genes. Genes with expression patterns shaped similarly to the potential landscape were identified as drivers of disease transition. Re-introduction of tetracycline to silence the BCR::ABL gene returned diseased mice transcriptomes to a near healthy state, without reaching it, suggesting parts of the transition are irreversible. TKI only reverted the transcriptome to an intermediate disease state, without approaching a state of health; disease relapse occurred soon after treatment. Using only the earliest time-point as initial conditions, our state-transition models accurately predicted both disease progression and treatment response, supporting this as a potentially valuable approach to time clinical intervention, before phenotypic changes become detectable.

Published

2024

2. IL1RAP-specific T cell engager depletes acute myeloid leukemia stem cells

Author

Zhang, Yi, Park, Miso, Ghoda, Lucy Y., Zhao, Dandan, Valerio, Melissa, Nafie, Ebtesam, Gonzalez, Asaul, Ly, Kevin, Parcutela, Bea, Choi, Hyeran, Gong, Xubo, Chen, Fang, Harada, Kaito, Chen, Zhenhua, Nguyen, Le Xuan Truong, Pichiorri, Flavia, Chen, Jianjun, Song, Joo, Forman, Stephen J., Amanam, Idoroenyi, Zhang, Bin, Jin, Jie, Williams, John C., and Marcucci, Guido

Published

2024

3. Targeting PRMT9-mediated arginine methylation suppresses cancer stem cell maintenance and elicits cGAS-mediated anticancer immunity

Author

Dong, Haojie, He, Xin, Zhang, Lei, Chen, Wei, Lin, Yi-Chun, Liu, Song-Bai, Wang, Huafeng, Nguyen, Le Xuan Truong, Li, Min, Zhu, Yinghui, Zhao, Dandan, Ghoda, Lucy, Serody, Jonathan, Vincent, Benjamin, Luznik, Leo, Gojo, Ivana, Zeidner, Joshua, Su, Rui, Chen, Jianjun, Sharma, Ritin, Pirrotte, Patrick, Wu, Xiwei, Hu, Weidong, Han, Weidong, Shen, Binghui, Kuo, Ya-Huei, Jin, Jie, Salhotra, Amandeep, Wang, Jeffrey, Marcucci, Guido, Luo, Yun Lyna, and Li, Ling

Published

2024

4. METTL3-Mediated m6A Modification Controls Splicing Factor Abundance and Contributes to Aggressive CLL

Author

Wu, Yiming, Jin, Meiling, Fernandez, Mike, Hart, Kevyn L, Liao, Aijun, Ge, Xinzhou, Fernandes, Stacey M, McDonald, Tinisha, Chen, Zhenhua, Röth, Daniel, Ghoda, Lucy Y, Marcucci, Guido, Kalkum, Markus, Pillai, Raju K, Danilov, Alexey V, Li, Jingyi Jessica, Chen, Jianjun, Brown, Jennifer R, Rosen, Steven T, Siddiqi, Tanya, and Wang, Lili

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Biomedical and Clinical Sciences, Cancer, Genetics, Hematology, Rare Diseases, Lymphoma, Aetiology, 2.1 Biological and endogenous factors, Humans, Alternative Splicing, Leukemia, Lymphocytic, Chronic, B-Cell, Proteomics, Methyltransferases, RNA Splicing Factors, RNA, Messenger

Abstract

RNA splicing dysregulation underlies the onset and progression of cancers. In chronic lymphocytic leukemia (CLL), spliceosome mutations leading to aberrant splicing occur in ∼20% of patients. However, the mechanism for splicing defects in spliceosome-unmutated CLL cases remains elusive. Through an integrative transcriptomic and proteomic analysis, we discover that proteins involved in RNA splicing are posttranscriptionally upregulated in CLL cells, resulting in splicing dysregulation. The abundance of splicing complexes is an independent risk factor for poor prognosis. Moreover, increased splicing factor expression is highly correlated with the abundance of METTL3, an RNA methyltransferase that deposits N6-methyladenosine (m6A) on mRNA. METTL3 is essential for cell growth in vitro and in vivo and controls splicing factor protein expression in a methyltransferase-dependent manner through m6A modification-mediated ribosome recycling and decoding. Our results uncover METTL3-mediated m6A modification as a novel regulatory axis in driving splicing dysregulation and contributing to aggressive CLL.SignificanceMETTL3 controls widespread splicing factor abundance via translational control of m6A-modified mRNA, contributes to RNA splicing dysregulation and disease progression in CLL, and serves as a potential therapeutic target in aggressive CLL. See related commentary by Janin and Esteller, p. 176. This article is highlighted in the In This Issue feature, p. 171.

Published

2023

5. Acquired miR-142 deficit in leukemic stem cells suffices to drive chronic myeloid leukemia into blast crisis

Author

Zhang, Bin, Zhao, Dandan, Chen, Fang, Frankhouser, David, Wang, Huafeng, Pathak, Khyatiben V, Dong, Lei, Torres, Anakaren, Garcia-Mansfield, Krystine, Zhang, Yi, Hoang, Dinh Hoa, Chen, Min-Hsuan, Tao, Shu, Cho, Hyejin, Liang, Yong, Perrotti, Danilo, Branciamore, Sergio, Rockne, Russell, Wu, Xiwei, Ghoda, Lucy, Li, Ling, Jin, Jie, Chen, Jianjun, Yu, Jianhua, Caligiuri, Michael A, Kuo, Ya-Huei, Boldin, Mark, Su, Rui, Swiderski, Piotr, Kortylewski, Marcin, Pirrotte, Patrick, Nguyen, Le Xuan Truong, and Marcucci, Guido

Subjects

Biomedical and Clinical Sciences, Medicinal and Biomolecular Chemistry, Chemical Sciences, Stem Cell Research - Nonembryonic - Human, Rare Diseases, Stem Cell Research, Cancer, Prevention, Genetics, Hematology, Biotechnology, Aetiology, 2.1 Biological and endogenous factors, Animals, Humans, Mice, Blast Crisis, Leukemia, Myelogenous, Chronic, BCR-ABL Positive, Leukemia, Myeloid, Leukemia, Myeloid, Chronic-Phase, MicroRNAs, Stem Cells

Abstract

The mechanisms underlying the transformation of chronic myeloid leukemia (CML) from chronic phase (CP) to blast crisis (BC) are not fully elucidated. Here, we show lower levels of miR-142 in CD34+CD38- blasts from BC CML patients than in those from CP CML patients, suggesting that miR-142 deficit is implicated in BC evolution. Thus, we create miR-142 knockout CML (i.e., miR-142-/-BCR-ABL) mice, which develop BC and die sooner than miR-142 wt CML (i.e., miR-142+/+BCR-ABL) mice, which instead remain in CP CML. Leukemic stem cells (LSCs) from miR-142-/-BCR-ABL mice recapitulate the BC phenotype in congenic recipients, supporting LSC transformation by miR-142 deficit. State-transition and mutual information analyses of "bulk" and single cell RNA-seq data, metabolomic profiling and functional metabolic assays identify enhanced fatty acid β-oxidation, oxidative phosphorylation and mitochondrial fusion in LSCs as key steps in miR-142-driven BC evolution. A synthetic CpG-miR-142 mimic oligodeoxynucleotide rescues the BC phenotype in miR-142-/-BCR-ABL mice and patient-derived xenografts.

Published

2023

6. Targeting miR-126 in Ph+ acute lymphoblastic leukemia

Author

Qiao, Junjing, Zhao, Dandan, Nguyen, Le Xuan Truong, Chen, Fang, Liang, Chen, Estrella, Katrina, Ghoda, Lucy Y., Heisterkamp, Nora, Marcucci, Emanuela C., Kuo, Ya-Huei, Marcucci, Guido, and Zhang, Bin

Published

2023

7. A CD38-directed, single-chain T-cell engager targets leukemia stem cells through IFN-γ–induced CD38 expression

Author

Murtadha, Mariam, Park, Miso, Zhu, Yinghui, Caserta, Enrico, Napolitano, Ottavio, Tandoh, Theophilus, Moloudizargari, Milad, Pozhitkov, Alex, Singer, Mahmoud, Dona, Ada Alice, Vahed, Hawa, Gonzalez, Asaul, Ly, Kevin, Ouyang, Ching, Sanchez, James F., Nigam, Lokesh, Duplan, Amanda, Chowdhury, Arnab, Ghoda, Lucy, Li, Ling, Zhang, Bin, Krishnan, Amrita, Marcucci, Guido, Williams, John C., and Pichiorri, Flavia

Published

2024

8. Treatment-induced arteriolar revascularization and miR-126 enhancement in bone marrow niche protect leukemic stem cells in AML

Author

Zhang, Bin, Nguyen, Le Xuan Truong, Zhao, Dandan, Frankhouser, David E, Wang, Huafeng, Hoang, Dinh Hoa, Qiao, Junjing, Abundis, Christina, Brehove, Matthew, Su, Yu-Lin, Feng, Yuxin, Stein, Anthony, Ghoda, Lucy, Dorrance, Adrianne, Perrotti, Danilo, Chen, Zhen, Han, Anjia, Pichiorri, Flavia, Jin, Jie, Jovanovic-Talisman, Tijana, Caligiuri, Michael A, Kuo, Calvin J, Yoshimura, Akihiko, Li, Ling, Rockne, Russell C, Kortylewski, Marcin, Zheng, Yi, Carlesso, Nadia, Kuo, Ya-Huei, and Marcucci, Guido

Subjects

Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Oncology and Carcinogenesis, Pediatric, Rare Diseases, Hematology, Pediatric Cancer, Stem Cell Research, Cancer, Stem Cell Research - Nonembryonic - Non-Human, Childhood Leukemia, Aetiology, 2.1 Biological and endogenous factors, Animals, Bone Marrow, Gene Expression Regulation, Leukemic, Humans, Leukemia, Myeloid, Acute, Mice, Mice, Inbred C57BL, MicroRNAs, Neoplastic Stem Cells, Up-Regulation, fms-Like Tyrosine Kinase 3, Acute myeloid leukemia, BM vascular niche, TNF alpha, miR-126, Leukemic stem cell, Treatment resistance, TNFα, Cardiorespiratory Medicine and Haematology, Cardiovascular medicine and haematology, Oncology and carcinogenesis

Abstract

BackgroundDuring acute myeloid leukemia (AML) growth, the bone marrow (BM) niche acquires significant vascular changes that can be offset by therapeutic blast cytoreduction. The molecular mechanisms of this vascular plasticity remain to be fully elucidated. Herein, we report on the changes that occur in the vascular compartment of the FLT3-ITD+ AML BM niche pre and post treatment and their impact on leukemic stem cells (LSCs).MethodsBM vasculature was evaluated in FLT3-ITD+ AML models (MllPTD/WT/Flt3ITD/ITD mouse and patient-derived xenograft) by 3D confocal imaging of long bones, calvarium vascular permeability assays, and flow cytometry analysis. Cytokine levels were measured by Luminex assay and miR-126 levels evaluated by Q-RT-PCR and miRNA staining. Wild-type (wt) and MllPTD/WT/Flt3ITD/ITD mice with endothelial cell (EC) miR-126 knockout or overexpression served as controls. The impact of treatment-induced BM vascular changes on LSC activity was evaluated by secondary transplantation of BM cells after administration of tyrosine kinase inhibitors (TKIs) to MllPTD/WT/Flt3ITD/ITD mice with/without either EC miR-126 KO or co-treatment with tumor necrosis factor alpha (TNFα) or anti-miR-126 miRisten.ResultsIn the normal BM niche, CD31+Sca-1high ECs lining arterioles have miR-126 levels higher than CD31+Sca-1low ECs lining sinusoids. We noted that during FLT3-ITD+ AML growth, the BM niche lost arterioles and gained sinusoids. These changes were mediated by TNFα, a cytokine produced by AML blasts, which induced EC miR-126 downregulation and caused depletion of CD31+Sca-1high ECs and gain in CD31+Sca-1low ECs. Loss of miR-126high ECs led to a decreased EC miR-126 supply to LSCs, which then entered the cell cycle and promoted leukemia growth. Accordingly, antileukemic treatment with TKI decreased the BM blast-produced TNFα and increased miR-126high ECs and the EC miR-126 supply to LSCs. High miR-126 levels safeguarded LSCs, as shown by more severe disease in secondary transplanted mice. Conversely, EC miR-126 deprivation via genetic or pharmacological EC miR-126 knock-down prevented treatment-induced BM miR-126high EC expansion and in turn LSC protection.ConclusionsTreatment-induced CD31+Sca-1high EC re-vascularization of the leukemic BM niche may represent a LSC extrinsic mechanism of treatment resistance that can be overcome with therapeutic EC miR-126 deprivation.

Published

2021

9. Cytoplasmic DROSHA and non-canonical mechanisms of MiR-155 biogenesis in FLT3-ITD acute myeloid leukemia

Author

Nguyen, Le Xuan Truong, Zhang, Bin, Hoang, Dinh Hoa, Zhao, Dandan, Wang, Huafeng, Wu, Herman, Su, Yu-Lin, Dong, Haojie, Rodriguez-Rodriguez, Sonia, Armstrong, Brian, Ghoda, Lucy Y, Perrotti, Danilo, Pichiorri, Flavia, Chen, Jianjun, Li, Ling, Kortylewski, Marcin, Rockne, Russell C, Kuo, Ya-Huei, Khaled, Samer, Carlesso, Nadia, and Marcucci, Guido

Subjects

Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Clinical Sciences, Oncology and Carcinogenesis, Pediatric, Genetics, Rare Diseases, Hematology, Pediatric Cancer, Biotechnology, Cancer, Childhood Leukemia, Animals, Cytoplasm, Disease Models, Animal, Humans, Leukemia, Myeloid, Acute, Mice, MicroRNAs, Ribonuclease III, Tandem Repeat Sequences, Tumor Cells, Cultured, fms-Like Tyrosine Kinase 3, Immunology, Cardiovascular medicine and haematology, Clinical sciences, Oncology and carcinogenesis

Abstract

We report here on a novel pro-leukemogenic role of FMS-like tyrosine kinase 3-internal tandem duplication (FLT3-ITD) that interferes with microRNAs (miRNAs) biogenesis in acute myeloid leukemia (AML) blasts. We showed that FLT3-ITD interferes with the canonical biogenesis of intron-hosted miRNAs such as miR-126, by phosphorylating SPRED1 protein and inhibiting the "gatekeeper" Exportin 5 (XPO5)/RAN-GTP complex that regulates the nucleus-to-cytoplasm transport of pre-miRNAs for completion of maturation into mature miRNAs. Of note, despite the blockage of "canonical" miRNA biogenesis, miR-155 remains upregulated in FLT3-ITD+ AML blasts, suggesting activation of alternative mechanisms of miRNA biogenesis that circumvent the XPO5/RAN-GTP blockage. MiR-155, a BIC-155 long noncoding (lnc) RNA-hosted oncogenic miRNA, has previously been implicated in FLT3-ITD+ AML blast hyperproliferation. We showed that FLT3-ITD upregulates miR-155 by inhibiting DDX3X, a protein implicated in the splicing of lncRNAs, via p-AKT. Inhibition of DDX3X increases unspliced BIC-155 that is then shuttled by NXF1 from the nucleus to the cytoplasm, where it is processed into mature miR-155 by cytoplasmic DROSHA, thereby bypassing the XPO5/RAN-GTP blockage via "non-canonical" mechanisms of miRNA biogenesis.

Published

2021

10. Spred1 deficit promotes treatment resistance and transformation of chronic phase CML

Author

Qiao, Junjing, Liang, Chen, Zhao, Dandan, Nguyen, Le Xuan Truong, Chen, Fang, Suo, Shanshan, Hoang, Dinh Hoa, Pellicano, Francesca, Rodriguez, Ivan Rodriguez, Elhajmoussa, Yasmin, Ghoda, Lucy, Yoshimura, Akihiko, Stein, Anthony S., Ali, Haris, Koller, Paul, Perrotti, Danilo, Copland, Mhairi, Han, Anjia, Zhang, Bin (Amber), and Marcucci, Guido

Published

2022

11. Flotetuzumab as a salvage immunotherapy in advanced CD123-positive hematological malignancies, a phase 1 pilot study

Author

Aldoss, Ibrahim, primary, Zhang, Jianying, additional, Robbins, Marjorie, additional, Song, Joo, additional, Al Malki, Monzr M., additional, Otoukesh, Salman, additional, Sandhu, Karamjeet, additional, Agrawal, Vaibhav, additional, Herrera, Alex F., additional, Popplewell, Leslie L., additional, Ghoda, Lucy, additional, Stein, Anthony, additional, Marcucci, Guido, additional, Forman, Stephen, additional, and Pullarkat, Vinod, additional

Published

2024

12. Glofitamab stimulates immune cell infiltration of CNS tumors and induces clinical responses in secondary CNS lymphoma

Author

Godfrey, James K., primary, Gao, Lei, additional, Shouse, Geoffrey, additional, Song, Joo Y., additional, Pak, Stacy, additional, Lee, Brian, additional, Chen, Bihong T., additional, Kallam, Avyakta, additional, Baird, John H., additional, Marcucci, Guido, additional, Ghoda, Lucy Y., additional, Vauleon, Stephanie, additional, Danilov, Alexey V, additional, Herrera, Alex F., additional, Kwak, Larry W, additional, and Budde, Lihua E, additional

Published

2024

13. Human Neural Stem Cell Biodistribution and Predicted Tumor Coverage by a Diffusible Therapeutic in a Mouse Glioma Model

Author

Barish, Michael E, Herrmann, Kelsey, Tang, Yang, Herculian, Siranush Argalian, Metz, Marianne, Aramburo, Soraya, Tirughana, Revathiswari, Gutova, Margarita, Annala, Alexander, Moats, Rex A, Goldstein, Leanne, Rockne, Russell C, Gutierrez, Jennifer, Brown, Christine E, Ghoda, Lucy, and Aboody, Karen S

Subjects

Medical Biotechnology, Biomedical and Clinical Sciences, Stem Cell Research - Nonembryonic - Human, Neurosciences, Brain Disorders, Rare Diseases, Brain Cancer, Cancer, Stem Cell Research, Stem Cell Research - Nonembryonic - Non-Human, Biotechnology, Orphan Drug, 5.2 Cellular and gene therapies, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Animals, Brain Neoplasms, Cell Line, Tumor, Cell Movement, Glioma, Humans, Mice, Mice, SCID, Neural Stem Cells, Stem Cell Transplantation, Neural stem cells, Biodistribution, Mouse model, Anticancer therapy, Diffusible therapeutic, Glioblastoma, Biochemistry and Cell Biology, Clinical Sciences, Medical biotechnology, Biomedical engineering

Abstract

Engineered neural stem cells (NSCs) intrinsically migrating to brain tumors offer a promising mechanism for local therapeutic delivery. However, difficulties in quantitative assessments of NSC migration and in estimates of tumor coverage by diffusible therapeutics have impeded development and refinement of NSC-based therapies. To address this need, we developed techniques by which conventional serial-sectioned formalin-fixed paraffin-embedded (FFPE) brains can be analyzed in their entirety across multiple test animals. We considered a conventional human glioblastoma model: U251 glioma cells orthotopically engrafted in immunodeficient mice receiving intracerebral (i.c.) or intravenous (i.v.) administrations of NSCs expressing a diffusible enzyme to locally catalyze chemotherapeutic formation. NSC migration to tumor sites was dose-dependent, reaching 50%-60% of total administered NSCs for the i.c route and 1.5% for the i.v. route. Curiously, the most efficient NSC homing was seen with smaller NSC doses, implying existence of rate-limiting process active during administration and/or migration. Predicted tumor exposure to a diffusing therapeutic (assuming a 50 µm radius of action) could reach greater than 50% of the entire tumor volume for i.c. and 25% for i.v. administration. Within individual sections, coverage of tumor area could be as high as 100% for i.c. and 70% for i.v. routes. Greater estimated therapeutic coverage was observed for larger tumors and for larger tumor regions in individual sections. Overall, we have demonstrated a framework within which investigators may rationally evaluate NSC migration to, and integration into, brain tumors, and therefore enhance understanding of mechanisms that both promote and limit this therapeutic modality. Stem Cells Translational Medicine 2017;6:1522-1532.

Published

2017

14. Homoharringtonine inhibits the NOTCH/MYC pathway and exhibits antitumor effects in T-cell acute lymphoblastic leukemia

Author

Suo, Shanshan, Zhao, Dandan, Li, Fenglin, Zhang, Yi, Rodriguez-Rodriguez, Sonia, Nguyen, Le Xuan Truong, Ghoda, Lucy, Carlesso, Nadia, Marcucci, Guido, Zhang, Bin, and Jin, Jie

Abstract

We report on the antileukemic activity of homoharringtonine (HHT) in T-cell acute lymphoblastic leukemia (T-ALL). We showed that HHT inhibited the NOTCH/MYC pathway and induced significantly longer survival in mouse and patient-derived T-ALL xenograft models, supporting HHT as a promising agent for T-ALL.

Published

2024

15. Daratumumab induces mechanisms of immune activation through CD38+ NK cell targeting

Author

Viola, Domenico, Dona, Ada, Caserta, Enrico, Troadec, Estelle, Besi, Francesca, McDonald, Tinisha, Ghoda, Lucy, Gunes, Emine Gulsen, Sanchez, James F., Khalife, Jihane, Martella, Marianna, Karanes, Chatchada, Htut, Myo, Wang, Xiuli, Rosenzweig, Michael, Chowdhury, Arnab, Sborov, Douglas, Miles, Rodney R., Yazaki, Paul J., Ebner, Todd, Hofmeister, Craig C., Forman, Stephen J., Rosen, Steven T., Marcucci, Guido, Shively, John, Keats, Jonathan J., Krishnan, Amrita, and Pichiorri, Flavia

Published

2021

16. Targeting cell membrane HDM2: A novel therapeutic approach for acute myeloid leukemia

Author

Wang, Huafeng, Zhao, Dandan, Nguyen, Le Xuan, Wu, Herman, Li, Ling, Dong, Dan, Troadec, Estelle, Zhu, Yinghui, Hoang, Dinh Hoa, Stein, Anthony S., Al Malki, Monzr, Aldoss, Ibrahim, Lin, Allen, Ghoda, Lucy Y., McDonald, Tinisha, Pichiorri, Flavia, Carlesso, Nadia, Kuo, Ya-Huei, Zhang, Bin, Jin, Jie, and Marcucci, Guido

Published

2020

17. State-transition Modeling of Blood Transcriptome Predicts Disease Evolution and Treatment Response in Chronic Myeloid Leukemia

Author

Frankhouser, David E., primary, Rockne, Russell C., additional, Uechi, Lisa, additional, Zhao, Dandan, additional, Branciamore, Sergio, additional, O’Meally, Denis, additional, Irizarry, Jihyun, additional, Ghoda, Lucy, additional, Ali, Haris, additional, Trent, Jeffery M., additional, Forman, Stephen, additional, Fu, Yu-Hsuan, additional, Kuo, Ya-Huei, additional, Zhang, Bin, additional, and Marcucci, Guido, additional

Published

2023

18. The changing investment in translational science by academic medical centers: HOPE in the Valley of Death

Author

Ghoda, Lucy Y., Rosen, Steven T., and Kwak, Larry W.

Subjects

Medical schools, Health care industry

Abstract

Historically, academic medical centers (AMCs) have been pioneers in medicine with a mission to advance promising discovery research to clinical application. Moreover, an institution's prestige has been based on the [...]

Published

2020

19. Data from METTL3-Mediated m6A Modification Controls Splicing Factor Abundance and Contributes to Aggressive CLL

Author

Wu, Yiming, primary, Jin, Meiling, primary, Fernandez, Mike, primary, Hart, Kevyn L., primary, Liao, Aijun, primary, Ge, Xinzhou, primary, Fernandes, Stacey M., primary, McDonald, Tinisha, primary, Chen, Zhenhua, primary, Röth, Daniel, primary, Ghoda, Lucy Y., primary, Marcucci, Guido, primary, Kalkum, Markus, primary, Pillai, Raju K., primary, Danilov, Alexey V., primary, Li, Jingyi Jessica, primary, Chen, Jianjun, primary, Brown, Jennifer R., primary, Rosen, Steven T., primary, Siddiqi, Tanya, primary, and Wang, Lili, primary

Published

2023

20. Supplementary Tables S1-5 from METTL3-Mediated m6A Modification Controls Splicing Factor Abundance and Contributes to Aggressive CLL

Author

Wu, Yiming, primary, Jin, Meiling, primary, Fernandez, Mike, primary, Hart, Kevyn L., primary, Liao, Aijun, primary, Ge, Xinzhou, primary, Fernandes, Stacey M., primary, McDonald, Tinisha, primary, Chen, Zhenhua, primary, Röth, Daniel, primary, Ghoda, Lucy Y., primary, Marcucci, Guido, primary, Kalkum, Markus, primary, Pillai, Raju K., primary, Danilov, Alexey V., primary, Li, Jingyi Jessica, primary, Chen, Jianjun, primary, Brown, Jennifer R., primary, Rosen, Steven T., primary, Siddiqi, Tanya, primary, and Wang, Lili, primary

Published

2023

21. Supplementary Figures S1-8 from METTL3-Mediated m6A Modification Controls Splicing Factor Abundance and Contributes to Aggressive CLL

Author

Wu, Yiming, primary, Jin, Meiling, primary, Fernandez, Mike, primary, Hart, Kevyn L., primary, Liao, Aijun, primary, Ge, Xinzhou, primary, Fernandes, Stacey M., primary, McDonald, Tinisha, primary, Chen, Zhenhua, primary, Röth, Daniel, primary, Ghoda, Lucy Y., primary, Marcucci, Guido, primary, Kalkum, Markus, primary, Pillai, Raju K., primary, Danilov, Alexey V., primary, Li, Jingyi Jessica, primary, Chen, Jianjun, primary, Brown, Jennifer R., primary, Rosen, Steven T., primary, Siddiqi, Tanya, primary, and Wang, Lili, primary

Published

2023

22. Intrinsic suppression of type I interferon production underlies the therapeutic efficacy of IL-15-producing natural killer cells in B-cell acute lymphoblastic leukemia

Author

Kumar, Anil, primary, Taghi Khani, Adeleh, additional, Duault, Caroline, additional, Aramburo, Soraya, additional, Sanchez Ortiz, Ashly, additional, Lee, Sung June, additional, Chan, Anthony, additional, McDonald, Tinisha, additional, Huang, Min, additional, Lacayo, Norman J., additional, Sakamoto, Kathleen M., additional, Yu, Jianhua, additional, Hurtz, Christian, additional, Carroll, Martin, additional, Tasian, Sarah K., additional, Ghoda, Lucy, additional, Marcucci, Guido, additional, Gu, Zhaohui, additional, Rosen, Steven T., additional, Armenian, Saro, additional, Izraeli, Shai, additional, Chen, Chun-Wei, additional, Caligiuri, Michael A., additional, Forman, Stephen J., additional, Maecker, Holden T., additional, and Swaminathan, Srividya, additional

Published

2023

23. Abstract 3482: METTL3-mediated m6A modification controls splicing factor abundance and contributes to CLL progression

Author

Wu, Yiming, primary, Jin, Meiling, additional, Fernandez, Mike, additional, Hart, Kevyn, additional, Liao, Aijun, additional, Fernandes, Stacey M., additional, McDonald, Tinisha, additional, Chen, Zhenhua, additional, Röth, Daniel, additional, Ghoda, Lucy, additional, Marcucci, Guido, additional, Kalkum, Markus, additional, Pillai, Raju K., additional, Danilov, Alexey V., additional, Chen, Jianjun, additional, Brown, Jennifer R., additional, Rosen, Steven T., additional, Siddiqi, Tanya, additional, and Wang, Lili, additional

Published

2023

24. Leveraging IFNγ/CD38 regulation to unmask and target leukemia stem cells in acute myelogenous leukemia

Author

Murtadha, Mariam, primary, Park, Miso, additional, Zhu, Yinghui, additional, Caserta, Enrico, additional, Dona, Ada Alice, additional, Singer, Mahmoud, additional, Vahed, Hawa, additional, Tasndoh, Theophilus, additional, Gonzalez, Asaul, additional, Ly, Kevin, additional, Sanchez, James F, additional, Chowdhury, Arnab, additional, Pozhitkov, Alex, additional, Ghoda, Lucy, additional, Li, Ling, additional, Zhang, Bin, additional, Krishnan, Amrita, additional, Marcucci, Guido, additional, Williams, John, additional, and Pichiorri, Flavia, additional

Published

2023

25. Targeting Leukemic Stem Cells in Acute Myeloid Leukemia Using a CpG-Linked Anti-Mir-126 Oligonucleotide

Author

Ghoda, Lucy Y, primary, Nafie, Ebtesam, additional, Bloom-Saldana, Elizabeth, additional, Fueger, Patrick T., additional, Synold, Timothy, additional, Simpson, James, additional, Swiderski, Piotr, additional, Muthaiyah, Kokilah, additional, Zhang, Bin, additional, Kortylewski, Marcin, additional, Vonderfecht, Steven, additional, Nguyen, Le Xuan Truong, additional, Zhang, Jianying, additional, Palmer, Joycelynne, additional, and Marcucci, Guido, additional

Published

2022

26. Homoharringtonine Synergizes Strongly with Venetoclax Against the Early T-Cell Progenitor Acute Lymphoblastic Leukemia：from Bench to Bed

Author

Suo, Shanshan, primary, SUN, Shu, additional, Qian, Jiejing, additional, Zhao, Dandan, additional, Yu, Wenjuan, additional, Lou, Yinjun, additional, Zhu, Honghu, additional, Tong, Hongyan, additional, Yang, Min, additional, Huang, Xin, additional, Zhao, Shuqi, additional, Qiao, Junjing, additional, Liang, Chen, additional, Li, Fenglin, additional, Wang, Huafeng, additional, Zhang, Yi, additional, Nguyen, Le Xuan Truong, additional, Hoang, Dinh Hoa, additional, Chen, Fang, additional, Sun, Jie, additional, Rodriguez, Ivan, additional, Ghoda, Lucy, additional, Li, Ling, additional, Zhang, Bin, additional, Marcucci, Guido, additional, and Jin, Jie, additional

Published

2022

27. Homoharringtonine Exhibits Anti-Tumor Effect in T-Cell Acute Lymphoblastic Leukemia By Targeting Notch1/Myc Pathway

Author

Suo, Shanshan, primary, Zhao, Dandan, additional, Li, Fenglin, additional, Rodriguez, Sonia, additional, Qiao, Junjing, additional, Liang, Chen, additional, Nguyen, Le Xuan Truong, additional, Hoang, Dinh Hoa, additional, Chen, Fang, additional, Rodriguez, Ivan, additional, Ghoda, Lucy, additional, McDonald, Tinisha, additional, Li, Ling, additional, Carlesso, Nadia, additional, Zhang, Bin, additional, Marcucci, Guido, additional, and Jin, Jie, additional

Published

2022

28. Targeting PRMT9 Elicits Cgas-Mediated Anti-Leukemia Immunity

Author

Dong, Haojie, primary, He, Xin, additional, Zhang, Lei, additional, Chen, Wei, additional, Lin, Yichun, additional, Liu, Songbai, additional, Wang, Huafeng, additional, Huang, Wenfeng, additional, Li, Sierra Min, additional, Zhu, Yinghui, additional, Zhao, Dandan, additional, Ghoda, Lucy, additional, Su, Rui, additional, Chen, Jianjun, additional, Sharma, Ritin, additional, Pirrotte, Patrick, additional, Wu, Xiwei, additional, Hu, Weidong, additional, Han, Weidong, additional, Shen, Binghui, additional, Kuo, Ya-Huei, additional, Jin, Jie, additional, Salhotra, Amandeep, additional, Wang, Jeffrey, additional, Marcucci, Guido, additional, Luo, Yun, additional, and Li, Ling, additional

Published

2022

29. Arsenic Trioxide and Venetoclax Synergize against AML Progenitors by ROS Induction and Inhibition of Nrf2 Activation

Author

Hoang, Dinh Hoa, primary, Buettner, Ralf, additional, Valerio, Melissa, additional, Ghoda, Lucy, additional, Zhang, Bin, additional, Kuo, Ya-Huei, additional, Rosen, Steven T., additional, Burnett, John, additional, Marcucci, Guido, additional, Pullarkat, Vinod, additional, and Nguyen, Le Xuan Truong, additional

Published

2022

30. Phase 1/2 Study of Nexi-001 Donor-Derived Multi-Antigen Specific CD8+ T Cells for the Treatment of Relapsed Acute Myeloid Leukemia (AML) after Allogeneic Hematopoietic Transplantation

Author

Al Malki, Monzr M., primary, Vasu, Sumithira, additional, Modi, Dipenkumar, additional, Perales, Miguel-Angel, additional, Ghoda, Lucy Y, additional, Bui, Donna, additional, Edavana, Vineetha, additional, Lu, Emily, additional, Kim, Sojung, additional, Suarez, Lauren, additional, Oelke, Mathias, additional, Bednarik, Daniel, additional, Knight, Robert D, additional, and Varela, Juan C., additional

Published

2021

31. METTL3 Dysregulates RNA Splicing by Translational Control of Splicing Factors via m 6A Modification in CLL

Author

Wu, Yiming, primary, Jin, Meiling, additional, Fernandez, Mike, additional, Hart, Kevyn, additional, Liao, Aijun, additional, Fernandes, Stacey M., additional, McDonald, Tinisha, additional, Ghoda, Lucy, additional, Roeth, Daniel, additional, Kalkum, Markus, additional, Pillai, Raju, additional, Chen, Jianjun, additional, Brown, Jennifer R, additional, Danilov, Alexey V., additional, Rosen, Steven T., additional, Siddiqi, Tanya, additional, and Wang, Lili, additional

Published

2021

32. The Impact of Hypomethylating Agents and BCL-2 Inhibitor on HLA Expression on THP-1 Cells

Author

Peton, Benjamin, primary, Valerio, Melissa, additional, Taniguchi, Michiko, additional, Rodriguez, Ivan, additional, Nafie, Ebtsesam, additional, Marcucci, Guido, additional, Al Malki, Monzr M., additional, Ghoda, Lucy, additional, and Gendzekhadze, Ketevan, additional

Published

2021

33. A Randomized Open Label Pilot Study of Clostridium Butyricum Miyairi 588 (CBM588) in Recipients of Allogeneic Hematopoietic Cell Transplantation

Author

Sandhu, Karamjeet S., primary, Yang, Dongyun, additional, Mokhtari, Sally, additional, Dadwal, Sanjeet S, additional, Pullarkat, Vinod A., additional, Al Malki, Monzr M., additional, Cao, Thai, additional, Spielberger, Ricardo, additional, Salhotra, Amandeep, additional, Ali, Haris, additional, Artz, Andrew S., additional, Stein, Anthony S., additional, Htut, Myo, additional, Budde, Elizabeth, additional, Popplewell, Leslie L., additional, Xu, Harry, additional, Reining, Lauren, additional, Ghoda, Lucy Y, additional, Aldoss, Ibrahim, additional, Marcucci, Guido, additional, Forman, Stephen J, additional, Highlander, Sarah, additional, and Nakamura, Ryotaro, additional

Published

2021

34. Acute Myeloid Leukemia Cell-Intrinsic PD-1 Functions Promoting Leukemia Development By Recruiting SHP2

Author

Suo, Shanshan, primary, Nguyen, Le Xuan Truong, additional, Li, Fenglin, additional, Zhao, Dandan, additional, Qiao, Junjing, additional, Liang, Chen, additional, Hoang, Dinh Hoa, additional, Chen, Fang, additional, Rodriguez, Ivan, additional, Ghoda, Lucy, additional, McDonald, Tinisha, additional, Li, Ling, additional, Zhang, Bin Amber, additional, Jin, Jie, additional, and Marcucci, Guido, additional

Published

2021

35. Multi-Antigen Primed T Cells Promote Apoptosis of Acute Myeloid Leukemia (AML)

Author

Nafie, Ebtesam, primary, Oelke, Mathias, additional, Valerio, Melissa, additional, Kim, Sojung, additional, Rodriguez, Ivan, additional, Peton, Benjamin, additional, Gendzekhadze, Ketevan, additional, Taniguchi, Michiko, additional, Marcucci, Guido, additional, Al Malki, Monzr M., additional, and Ghoda, Lucy Y, additional

Published

2021

36. Activated natural killer cells predict poor clinical prognosis in high-risk B- and T-cell acute lymphoblastic leukemia

Author

Duault, Caroline, primary, Kumar, Anil, additional, Taghi Khani, Adeleh, additional, Lee, Sung June, additional, Yang, Lu, additional, Huang, Min, additional, Hurtz, Christian, additional, Manning, Bryan, additional, Ghoda, Lucy, additional, McDonald, Tinisha, additional, Lacayo, Norman J., additional, Sakamoto, Kathleen M., additional, Carroll, Martin, additional, Tasian, Sarah K., additional, Marcucci, Guido, additional, Yu, Jianhua, additional, Caligiuri, Michael A., additional, Maecker, Holden T., additional, and Swaminathan, Srividya, additional

Published

2021

37. Spred1 deficit promotes treatment resistance and transformation of chronic phase CML

Author

Qiao, Junjing, primary, Liang, Chen, additional, Zhao, Dandan, additional, Nguyen, Le Xuan Truong, additional, Chen, Fang, additional, Suo, Shanshan, additional, Hoang, Dinh Hoa, additional, Pellicano, Francesca, additional, Rodriguez, Ivan Rodriguez, additional, Elhajmoussa, Yasmin, additional, Ghoda, Lucy, additional, Yoshimura, Akihiko, additional, Stein, Anthony S., additional, Ali, Haris, additional, Koller, Paul, additional, Perrotti, Danilo, additional, Copland, Mhairi, additional, Han, Anjia, additional, Zhang, Bin, additional, and Marcucci, Guido, additional

Published

2021

38. Additional file 1 of Treatment-induced arteriolar revascularization and miR-126 enhancement in bone marrow niche protect leukemic stem cells in AML

Author

Zhang, Bin, Nguyen, Le Xuan Truong, Zhao, Dandan, Frankhouser, David E., Wang, Huafeng, Hoang, Dinh Hoa, Qiao, Junjing, Abundis, Christina, Brehove, Matthew, Su, Yu-Lin, Feng, Yuxin, Stein, Anthony, Ghoda, Lucy, Dorrance, Adrianne, Perrotti, Danilo, Chen, Zhen, Han, Anjia, Pichiorri, Flavia, Jin, Jie, Jovanovic-Talisman, Tijana, Caligiuri, Michael A., Kuo, Calvin J., Yoshimura, Akihiko, Li, Ling, Rockne, Russell C., Kortylewski, Marcin, Zheng, Yi, Carlesso, Nadia, Kuo, Ya-Huei, and Marcucci, Guido

Abstract

Additional file 1. Treatment-induced Arteriolar Revascularization and miR-126 Enhancement in Bone Marrow Niche Protect Leukemic Stem Cells in AML.

Published

2021

39. Cytoplasmic DROSHA and non-canonical mechanisms of MiR-155 biogenesis in FLT3-ITD acute myeloid leukemia.

Author

Nguyen, Le, Nguyen, Le, Zhang, Bin, Hoang, Dinh, Zhao, Dandan, Wang, Huafeng, Wu, Herman, Su, Yu-Lin, Dong, Haojie, Rodriguez-Rodriguez, Sonia, Armstrong, Brian, Ghoda, Lucy, Perrotti, Danilo, Pichiorri, Flavia, Chen, Jianjun, Li, Ling, Kortylewski, Marcin, Rockne, Russell, Kuo, Ya-Huei, Khaled, Samer, Carlesso, Nadia, Marcucci, Guido, Nguyen, Le, Nguyen, Le, Zhang, Bin, Hoang, Dinh, Zhao, Dandan, Wang, Huafeng, Wu, Herman, Su, Yu-Lin, Dong, Haojie, Rodriguez-Rodriguez, Sonia, Armstrong, Brian, Ghoda, Lucy, Perrotti, Danilo, Pichiorri, Flavia, Chen, Jianjun, Li, Ling, Kortylewski, Marcin, Rockne, Russell, Kuo, Ya-Huei, Khaled, Samer, Carlesso, Nadia, and Marcucci, Guido

Abstract

We report here on a novel pro-leukemogenic role of FMS-like tyrosine kinase 3-internal tandem duplication (FLT3-ITD) that interferes with microRNAs (miRNAs) biogenesis in acute myeloid leukemia (AML) blasts. We showed that FLT3-ITD interferes with the canonical biogenesis of intron-hosted miRNAs such as miR-126, by phosphorylating SPRED1 protein and inhibiting the gatekeeper Exportin 5 (XPO5)/RAN-GTP complex that regulates the nucleus-to-cytoplasm transport of pre-miRNAs for completion of maturation into mature miRNAs. Of note, despite the blockage of canonical miRNA biogenesis, miR-155 remains upregulated in FLT3-ITD+ AML blasts, suggesting activation of alternative mechanisms of miRNA biogenesis that circumvent the XPO5/RAN-GTP blockage. MiR-155, a BIC-155 long noncoding (lnc) RNA-hosted oncogenic miRNA, has previously been implicated in FLT3-ITD+ AML blast hyperproliferation. We showed that FLT3-ITD upregulates miR-155 by inhibiting DDX3X, a protein implicated in the splicing of lncRNAs, via p-AKT. Inhibition of DDX3X increases unspliced BIC-155 that is then shuttled by NXF1 from the nucleus to the cytoplasm, where it is processed into mature miR-155 by cytoplasmic DROSHA, thereby bypassing the XPO5/RAN-GTP blockage via non-canonical mechanisms of miRNA biogenesis.

Published

2021

40. Herpesvirus Entry Mediator As a Novel Therapeutic Target in Multiple Myeloma

Author

Moloudizargari, Milad, Dona, Ada Alice, Park, Miso, Tandoh, Theophilus, Murtadha, Mariam, Caserta, Enrico, Pozhitkov, Alexander, Zhu, Yinghui, Napolitano, Ottavio, Sanchez, James, Nigam, Lokesh, Duplan, Amanda, Chowdhury, Arnab, Ghoda, Lucy Y., Keats, Jonathan, Goldsmith, Scott R., Rosenzweig, Michael, Krishnan, Amrita, Williams, John C., and Pichiorri, Flavia

Published

2023

41. Acquired microRNA-142 Deficit Drives Escape Mechanisms of Anti-Leukemic Surveillance during Blast Crisis Transformation of Chronic Myeloid Leukemia (CML)

Author

Chen, Fang, Zhao, Dandan, Zhang, Yi, Xu, Yongfang, Chen, Min-Hsuan, Pathak, Khyatiben V., Liang, Yong, Wang, Wei-Le, Estrella, Katrina, Wu, Xiwei, Ghoda, Lucy Y., Kuo, Ya-Huei, Ali, Haris, Yu, Jianhua, Caligiuri, Michael A, Boldin, Mark, Swiderski, Piotr, Kortylewski, Marcin, Pirrotte, Patrick, Nguyen, Le Xuan Truong, Marcucci, Guido, and Zhang, Bin

Published

2023

42. CD38-Directed, Single-Chain T Cell-Engager Targets Leukemia Stem Cells through IFNγ-Induced CD38 Expression

Author

Murtadha, Mariam, Park, Miso, Zhu, Yinghui, Caserta, Enrico, Napolitano, Ottavio, Tandoh, Theophilus, Moloudizargari, Milad, Pozhitkov, Alexander, Singer, Mahmoud, Dona, Ada Alice, Vahed, Hawa, Gonzalez, Asaul, Ly, Kevin, Ouyang, Ching, Sanchez, James, Nigam, Lokesh, Chowdhury, Arnab, Ghoda, Lucy Y., Li, Ling, Zhang, Bin, Krishnan, Amrita, Marcucci, Guido, Williams, John C., and Pichiorri, Flavia

Published

2023

43. Pharmacology of a CpG-Linked Anti-Mir-126 Oligonucleotide Targeting Acute Myeloid Leukemia (AML) in Rats and Non-Human Primates (NHP)

Author

Ghoda, Lucy, Muthaiyah, Kokilah, Zhang, Bin Amber, Kortylewski, Marcin, Simpson, James, Nguyen, Le Xuan Truong, Robbins, Marjorie, Marcucci, Guido, and Synold, Tim

Published

2023

44. IL1RAP-Specific T Cell Engager (TCE) Antibody Efficiently Depletes Acute Myeloid Leukemia (AML) Leukemic Stem Cells (LSCs)

Author

Zhang, Yi, Park, Miso, Zhang, Bin, Ghoda, Lucy Y., Zhao, Dandan, Valerio, Melissa, Nafie, Ebtesam, Gong, Xubo, Chen, Fang, Xu, Yongfang, Estrella, Katrina, Harada, Kaito, Sharkas, Shawn, Kang, Hyunjun, Hoang, Dinh Hoa, Nguyen, Le Xuan Truong, Forman, Stephen J., Amanam, Idoroenyi, Pichiorri, Flavia, Jin, Jie, Williams, John C., and Marcucci, Guido

Published

2023

45. Synergistic Activity of Adefovir Dipivoxil and Venetoclax to Target the Bioenergetic Metabolism of Acute Myeloid Leukemia

Author

Gong, Xubo, Zhang, Yi, Chen, Ying-Chieh, Zhao, Dandan, Xu, Yongfang, He, Xin, Chen, Fang, Zhang, Lei, Zhang, Lianjun, Estrella, Katrina, Valerio, Melissa, Ghoda, Lucy Y., Nguyen, Le Xuan Truong, Kuo, Ya-Huei, Liu, Weiwei, Tao, Zhihua, Marcucci, Guido, and Zhang, Bin

Published

2023

46. Cell-Based Therapy for Canavan Disease Using Human iPSC-Derived NPCs and OPCs

Author

Feng, Lizhao, Chao, Jianfei, Tian, E., Li, Li, Ye, Peng, Zhang, Mi, Chen, Xianwei, Cui, Qi, Sun, Guihua, Zhou, Tao, Felix, Gerardo, Qin, Yue, Li, Wendong, Meza, Edward David, Klein, Jeremy, Ghoda, Lucy, Hu, Weidong, Luo, Yonglun, Dang, Wei, Hsu, David, Gold, Joseph, Goldman, Steven A., Matalon, Reuben, Shi, Yanhong, Feng, Lizhao, Chao, Jianfei, Tian, E., Li, Li, Ye, Peng, Zhang, Mi, Chen, Xianwei, Cui, Qi, Sun, Guihua, Zhou, Tao, Felix, Gerardo, Qin, Yue, Li, Wendong, Meza, Edward David, Klein, Jeremy, Ghoda, Lucy, Hu, Weidong, Luo, Yonglun, Dang, Wei, Hsu, David, Gold, Joseph, Goldman, Steven A., Matalon, Reuben, and Shi, Yanhong

Abstract

Canavan disease (CD) is a fatal leukodystrophy caused by mutation of the aspartoacylase (ASPA) gene, which leads to deficiency in ASPA activity, accumulation of the substrate N-acetyl-L-aspartate (NAA), demyelination, and spongy degeneration of the brain. There is neither a cure nor a standard treatment for this disease. In this study, human induced pluripotent stem cell (iPSC)-based cell therapy is developed for CD. A functional ASPA gene is introduced into patient iPSC-derived neural progenitor cells (iNPCs) or oligodendrocyte progenitor cells (iOPCs) via lentiviral transduction or TALEN-mediated genetic engineering to generate ASPA iNPC or ASPA iOPC. After stereotactic transplantation into a CD (Nur7) mouse model, the engrafted cells are able to rescue major pathological features of CD, including deficient ASPA activity, elevated NAA levels, extensive vacuolation, defective myelination, and motor function deficits, in a robust and sustainable manner. Moreover, the transplanted mice exhibit much prolonged survival. These genetically engineered patient iPSC-derived cellular products are promising cell therapies for CD. This study has the potential to bring effective cell therapies, for the first time, to Canavan disease children who have no treatment options. The approach established in this study can also benefit many other children who have deadly genetic diseases that have no cure.

Published

2020

47. Stem Cell Therapy: Cell‐Based Therapy for Canavan Disease Using Human iPSC‐Derived NPCs and OPCs (Adv. Sci. 23/2020)

Author

Feng, Lizhao, primary, Chao, Jianfei, additional, Tian, E, additional, Li, Li, additional, Ye, Peng, additional, Zhang, Mi, additional, Chen, Xianwei, additional, Cui, Qi, additional, Sun, Guihua, additional, Zhou, Tao, additional, Felix, Gerardo, additional, Qin, Yue, additional, Li, Wendong, additional, Meza, Edward David, additional, Klein, Jeremy, additional, Ghoda, Lucy, additional, Hu, Weidong, additional, Luo, Yonglun, additional, Dang, Wei, additional, Hsu, David, additional, Gold, Joseph, additional, Goldman, Steven A., additional, Matalon, Reuben, additional, and Shi, Yanhong, additional

Published

2020

48. Microrna-142 Deficiency Promotes Chronic Myeloid Leukemia (CML) Transformation from Chronic Phase (CP) to Blast Crisis (BC)

Author

Zhang, Bin Amber, primary, Zhao, Dandan, additional, Wang, Huafeng, additional, Liang, Chen, additional, Nguyen, Le Xuan Truong, additional, Qiao, Junjing, additional, Suo, Shanshan, additional, Elhajmoussa, Yasmin, additional, Ghoda, Lucy, additional, Frankhouser, David, additional, Rockne, Russell, additional, Li, Ling, additional, Kuo, Ya-Huei, additional, Boldin, Mark, additional, and Marcucci, Guido, additional

Published

2020

49. Activated Natural Killer Cells Are Associated with Poor Clinical Prognosis in High-Risk B- and T- Cell Acute Lymphoblastic Leukemia

Author

Duault, Caroline, primary, Kumar, Anil, additional, Taghi Khani, Adeleh, additional, Lee, Sung June, additional, Yang, Lu, additional, Huang, Min, additional, Hurtz, Christian, additional, Manning, Bryan, additional, Ghoda, Lucy, additional, McDonald, Tinisha, additional, Lacayo, Norman J., additional, Sakamoto, Kathleen M., additional, Carroll, Martin P., additional, Marcucci, Guido, additional, Yu, Jianhua, additional, Caligiuri, Michael A., additional, Maecker, Holden T., additional, and Swaminathan, Srividya, additional

Published

2020

50. Venetoclax Synergizes with the RNA-Directed Nucleoside Analog 8-Chloro-Adenosine in Acute Myeloid Leukemia in Vitro and In Vivo

Author

Buettner, Ralf, primary, Nguyen, Le Xuan Truong, additional, Morales, Corey James, additional, Chen, Lisa S, additional, Synold, Timothy, additional, Hoang, Dinh Hoa, additional, Zhang, Bin Amber, additional, Ghoda, Lucy, additional, Gandhi, Varsha, additional, Pullarkat, Vinod A., additional, Marcucci, Guido, additional, and Rosen, Steven T., additional

Published

2020