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1,656 results on '"W. Clay"'

1. A peptide mimic of SOCS1 modulates equine peripheral immune cells in vitro and ocular effector functions in vivo: implications for recurrent uveitis

Author

Lauren Stewart Stafford, Caryn E. Plummer, W. Clay Smith, Daniel J. Gibson, Jatin Sharma, Valeria Vicuna, Sisse Diakite, and Joseph Larkin

Subjects
suppressor of cytokine signaling 1 (SOCS1), recurrent uveitis, equine (horse), spontaneous model, ocular immunity, PBMC (peripheral blood mononucleated cells), Immunologic diseases. Allergy, RC581-607
Abstract

IntroductionRecurrent uveitis (RU), an autoimmune disease, is a leading cause of ocular detriment in humans and horses. Equine and human RU share many similarities including spontaneous disease and aberrant cytokine signaling. Reduced levels of SOCS1, a critical regulator of cytokine signaling, is associated with several autoimmune diseases. Topical administration of SOCS1-KIR, a peptide mimic of SOCS1, was previously correlated to reduced ocular pathologies within ERU patients.MethodsTo further assess the translational potential of a SOCS1 mimetic to treat RU, we assessed peptide-mediated modulation of immune functions in vitro, using equine peripheral blood mononuclear cells (PBMC), and in vivo through topical administration of SOCS1-KIR into the eyes of experimental (non-uveitic) horses. Equine PBMCs from non-uveitic control and ERU horses were cultured with or without SOCS1-KIR pretreatment, followed by 72 hours of mitogen stimulation. Proliferation was assessed using MTT, and cytokine production within cell supernatants was assessed by Luminex. SOCS1-KIR or carrier eye-drops were topically applied to experimental horse eyes twice daily for 21 days, followed by enucleation and isolation of ocular aqueous and vitreous humor. Histology was used to assess peptide treatment safety and localization within treated equine eyes. Cytokine secretion within aqueous humor and vitreous, isolated from experimental equine eyes, was measured by Luminex.ResultsFollowing SOCS1-KIR pretreatment, cell proliferation significantly decreased in control, but not ERU-derived PBMCs. Despite differential regulation of cellular proliferation, SOCS1-KIR significantly reduced TNFα and IL-10 secretion in PHA-stimulated control and ERU equine PBMC. SOCS1-KIR increased PBMC secretion of IL-8. Topically administered SOCS1-KIR was well tolerated. Although SOCS1-KIR was undetectable within the eye, topically treated equine eyes had significant reductions in TNFα and IL-10. Interestingly, we found that while SOCS1-KIR treatment reduced TNFα and IL-10 production in healthy and ERU PBMC, SOCS1-KIR differentially modulated proliferation, IP-10 production, and RANTES within these two groups suggesting possible differences in cell types or activation status.DiscussionTopical administration of a SOCS1 peptide mimic is safe to the equine eye and reduces ERU associated cytokines IL-10 and TNFα serving as potential biomarkers of drug efficacy in a future clinical trial.

Published
2025
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2. ALK upregulates POSTN and WNT signaling to drive neuroblastoma

Author

Miller Huang, Wanqi Fang, Alvin Farrel, Linwei Li, Antonios Chronopoulos, Nicole Nasholm, Bo Cheng, Tina Zheng, Hiroyuki Yoda, Megumi J. Barata, Tania Porras, Matthew L. Miller, Qiqi Zhen, Lisa Ghiglieri, Lauren McHenry, Linyu Wang, Shahab Asgharzadeh, JinSeok Park, W. Clay Gustafson, Katherine K. Matthay, John M. Maris, and William A. Weiss

Subjects
CP: Cancer, Biology (General), QH301-705.5
Abstract

Summary: Neuroblastoma is the most common extracranial solid tumor of childhood. While MYCN and mutant anaplastic lymphoma kinase (ALKF1174L) cooperate in tumorigenesis, how ALK contributes to tumor formation remains unclear. Here, we used a human stem cell-based model of neuroblastoma. Mis-expression of ALKF1174L and MYCN resulted in shorter latency compared to MYCN alone. MYCN tumors resembled adrenergic, while ALK/MYCN tumors resembled mesenchymal, neuroblastoma. Transcriptomic analysis revealed enrichment in focal adhesion signaling, particularly the extracellular matrix genes POSTN and FN1 in ALK/MYCN tumors. Patients with ALK-mutant tumors similarly demonstrated elevated levels of POSTN and FN1. Knockdown of POSTN, but not FN1, delayed adhesion and suppressed proliferation of ALK/MYCN tumors. Furthermore, loss of POSTN reduced ALK-dependent activation of WNT signaling. Reciprocally, inhibition of the WNT pathway reduced expression of POSTN and growth of ALK/MYCN tumor cells. Thus, ALK drives neuroblastoma in part through a feedforward loop between POSTN and WNT signaling.

Published
2024
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3. Open label safety and efficacy pilot to study mitigation of equine recurrent uveitis through topical suppressor of cytokine signaling-1 mimetic peptide

Author

Caryn E. Plummer, Timothy Polk, Jatin Sharma, Sanghyo Sarah Bae, Olivia Barr, Amari Jones, Holly Kitchen, Michelle Wilhelmy, K. Devin, W. Clay Smith, Bryan D. Kolaczkowski, and Joseph Larkin

Subjects
Medicine, Science
Abstract

Abstract Equine recurrent uveitis (ERU) is a painful and debilitating autoimmune disease and represents the only spontaneous model of human recurrent uveitis (RU). Despite the efficacy of existing treatments, RU remains a leading cause of visual handicap in horses and humans. Cytokines, which utilize Janus kinase 2 (Jak2) for signaling, drive the inflammatory processes in ERU that promote blindness. Notably, suppressor of cytokine signaling 1 (SOCS1), which naturally limits the activation of Jak2 through binding interactions, is often deficient in autoimmune disease patients. Significantly, we previously showed that topical administration of a SOCS1 peptide mimic (SOCS1-KIR) mitigated induced rodent uveitis. In this pilot study, we test the potential to translate the therapeutic efficacy observed in experimental rodent uveitis to equine patient disease. Through bioinformatics and peptide binding assays we demonstrate putative binding of the SOCS1-KIR peptide to equine Jak2. We also show that topical, or intravitreal injection of SOCS1-KIR was well tolerated within the equine eye through physical and ophthalmic examinations. Finally, we show that topical SOCS1-KIR administration was associated with significant clinical ERU improvement. Together, these results provide a scientific rationale, and supporting experimental evidence for the therapeutic use of a SOCS1 mimetic peptide in RU.

Published
2022
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4. GATOR2-dependent mTORC1 activity is a therapeutic vulnerability in FOXO1 fusion–positive rhabdomyosarcoma

Author

Jacqueline Morales, David V. Allegakoen, José A. Garcia, Kristen Kwong, Pushpendra K. Sahu, Drew A. Fajardo, Yue Pan, Max A. Horlbeck, Jonathan S. Weissman, W. Clay Gustafson, Trever G. Bivona, and Amit J. Sabnis

Subjects
Genetics, Oncology, Medicine
Abstract

Oncogenic FOXO1 gene fusions drive a subset of rhabdomyosarcoma (RMS) with poor survival; to date, these cancer drivers are therapeutically intractable. To identify new therapies for this disease, we undertook an isogenic CRISPR-interference screen to define PAX3-FOXO1–specific genetic dependencies and identified genes in the GATOR2 complex. GATOR2 loss in RMS abrogated aa-induced lysosomal localization of mTORC1 and consequent downstream signaling, slowing G1-S cell cycle transition. In vivo suppression of GATOR2 impaired the growth of tumor xenografts and favored the outgrowth of cells lacking PAX3-FOXO1. Loss of a subset of GATOR2 members can be compensated by direct genetic activation of mTORC1. RAS mutations are also sufficient to decouple mTORC1 activation from GATOR2, and indeed, fusion-negative RMS harboring such mutations exhibit aa-independent mTORC1 activity. A bisteric, mTORC1-selective small molecule induced tumor regressions in fusion-positive patient-derived tumor xenografts. These findings highlight a vulnerability in FOXO1 fusion–positive RMS and provide rationale for the clinical evaluation of bisteric mTORC1 inhibitors, currently in phase I testing, to treat this disease. Isogenic genetic screens can, thus, identify potentially exploitable vulnerabilities in fusion-driven pediatric cancers that otherwise remain mostly undruggable.

Published
2022
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5. The synergy of BET inhibitors with aurora A kinase inhibitors in MYCN-amplified neuroblastoma is heightened with functional TP53

Author

Joanna S. Yi, Oscar Sias-Garcia, Nicole Nasholm, Xiaoyu Hu, Amanda Balboni Iniguez, Matthew D. Hall, Mindy Davis, Rajarshi Guha, Myrthala Moreno-Smith, Eveline Barbieri, Kevin Duong, Jessica Koach, Jun Qi, James E. Bradner, Kimberly Stegmaier, William A. Weiss, and W. Clay Gustafson

Subjects
Neuroblastoma, MYCN, TP53, Synergy, Apoptosis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Amplification of MYCN is a poor prognostic feature in neuroblastoma (NBL) indicating aggressive disease. We and others have shown BET bromodomain inhibitors (BETi) target MYCN indirectly by downregulating its transcription. Here we sought to identify agents that synergize with BETi and to identify biomarkers of resistance. We previously performed a viability screen of ∼1,900 oncology-focused compounds combined with BET bromodomain inhibitors against MYCN-amplified NBL cell lines. Reanalysis of our screening results prominently identified inhibitors of aurora kinase A (AURKAi) to be highly synergistic with BETi. We confirmed the anti-proliferative effects of several BETi+AURKAi combinations in MYCN-amplified NBL cell lines. Compared to single agents, these combinations cooperated to decrease levels of N-myc. We treated both TP53-wild type and mutant, MYCN-amplified cell lines with the BETi JQ1 and the AURKAi Alisertib. The combination had improved efficacy in the TP53-WT context, notably driving apoptosis in both genetic backgrounds. JQ1+Alisertib combination treatment of a MYCN-amplified, TP53-null or TP53-restored genetically engineered mouse model of NBL prolonged survival better than either single agent. This was most profound with TP53 restored, with marked tumor shrinkage and apoptosis induction in response to combination JQ1+Alisertib. BETi+AURKAi in MYCN-amplified NBL, particularly in the context of functional TP53, provided anti-tumor benefits in preclinical models. This combination should be studied more closely in a pediatric clinical trial.

Published
2021
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6. Transgene expression of Stanniocalcin-1 provides sustained intraocular pressure reduction by increasing outflow facility

Author

Gavin W. Roddy, Uttio Roy Chowdhury, Kjersten J. Anderson, Tommy A. Rinkoski, Cheryl R. Hann, Vince A. Chiodo, W. Clay Smith, and Michael P. Fautsch

Subjects
Medicine, Science
Abstract

Glaucoma is the leading cause of irreversible blindness worldwide. Therapies for glaucoma are directed toward reducing intraocular pressure (IOP), the leading risk factor and only reliable therapeutic target via topical medications or with procedural intervention including laser or surgery. Though topical therapeutics are typically first line, less than 50% of patients take drops as prescribed. Sustained release technologies that decrease IOP for extended periods of time are being examined for clinical use. We recently identified Stanniocalcin-1, a naturally occurring hormone, as an IOP-lowering agent. Here, we show that a single injection into the anterior chamber of mice with an adeno-associated viral vector containing the transgene of stanniocalcin-1 results in diffuse and sustained expression of the protein and produces IOP reduction for up to 6 months. As the treatment effect begins to wane, IOP-lowering can be rescued with a repeat injection. Aqueous humor dynamic studies revealed an increase in outflow facility as the mechanism of action. This first-in-class therapeutic approach has the potential to improve care and reduce the rates of vision loss in the 80 million people worldwide currently affected by glaucoma.

Published
2022

7. HIV-1 Tat interactions with cellular 7SK and viral TAR RNAs identifies dual structural mimicry

Author

Vincent V. Pham, Carolina Salguero, Shamsun Nahar Khan, Jennifer L. Meagher, W. Clay Brown, Nicolas Humbert, Hugues de Rocquigny, Janet L. Smith, and Victoria M. D’Souza

Subjects
Science
Abstract

The HIV Tat protein recruits a host elongation factor from the cellular 7SK complex to the viral TAR RNA to ensure transcriptional elongation. Here, Pham et al. solve the structures of both 7SK and TAR RNAs in complex with Tat’s RNA binding domain and gain mechanistic insights into the process.

Published
2018
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8. APOBEC3H structure reveals an unusual mechanism of interaction with duplex RNA

Author

Jennifer A. Bohn, Keyur Thummar, Ashley York, Alice Raymond, W. Clay Brown, Paul D. Bieniasz, Theodora Hatziioannou, and Janet L. Smith

Subjects
Science
Abstract

The APOBEC3 family cytidine deaminases with antiviral activity are proteins that catalyze the deamination of newly reverse-transcribed viral DNA. Here the authors present the crystal structure of full-length pig-tailed macaque APOBEC3H with bound RNA, which reveals how the APOBEC3H dimer binds around a short RNA duplex.

Published
2017
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9. ALK upregulates POSTN and WNT signaling to drive neuroblastoma

Author

Huang, Miller, Fang, Wanqi, Farrel, Alvin, Li, Linwei, Chronopoulos, Antonios, Nasholm, Nicole, Cheng, Bo, Zheng, Tina, Yoda, Hiroyuki, Barata, Megumi J, Porras, Tania, Miller, Matthew L, Zhen, Qiqi, Ghiglieri, Lisa, McHenry, Lauren, Wang, Linyu, Asgharzadeh, Shahab, Park, JinSeok, Gustafson, W Clay, Matthay, Katherine K, Maris, John M, and Weiss, William A

Subjects
Biological Sciences, Genetics, Cancer, Pediatric, Rare Diseases, Neuroblastoma, Stem Cell Research, Neurosciences, Pediatric Cancer, 5.1 Pharmaceuticals, Humans, Anaplastic Lymphoma Kinase, Cell Adhesion Molecules, Cell Line, Tumor, N-Myc Proto-Oncogene Protein, Receptor Protein-Tyrosine Kinases, Wnt Signaling Pathway, ALK, CP: Cancer, MYCN, POSTN, WNT, human pluripotent stem cells, neuroblastoma, Biochemistry and Cell Biology, Medical Physiology, Biological sciences
Abstract

Neuroblastoma is the most common extracranial solid tumor of childhood. While MYCN and mutant anaplastic lymphoma kinase (ALKF1174L) cooperate in tumorigenesis, how ALK contributes to tumor formation remains unclear. Here, we used a human stem cell-based model of neuroblastoma. Mis-expression of ALKF1174L and MYCN resulted in shorter latency compared to MYCN alone. MYCN tumors resembled adrenergic, while ALK/MYCN tumors resembled mesenchymal, neuroblastoma. Transcriptomic analysis revealed enrichment in focal adhesion signaling, particularly the extracellular matrix genes POSTN and FN1 in ALK/MYCN tumors. Patients with ALK-mutant tumors similarly demonstrated elevated levels of POSTN and FN1. Knockdown of POSTN, but not FN1, delayed adhesion and suppressed proliferation of ALK/MYCN tumors. Furthermore, loss of POSTN reduced ALK-dependent activation of WNT signaling. Reciprocally, inhibition of the WNT pathway reduced expression of POSTN and growth of ALK/MYCN tumor cells. Thus, ALK drives neuroblastoma in part through a feedforward loop between POSTN and WNT signaling.

Published
2024

10. Multiplatform metabolomic interlaboratory study of a whole human stool candidate reference material from omnivore and vegan donors

Author

Cruz, Abraham Kuri, Alves, Marina Amaral, Andresson, Thorkell, Bayless, Amanda L., Bloodsworth, Kent J., Bowden, John A., Bullock, Kevin, Burnet, Meagan C., Neto, Fausto Carnevale, Choy, Angelina, Clish, Clary B., Couvillion, Sneha P., Cumeras, Raquel, Dailey, Lucas, Dallmann, Guido, Davis, W. Clay, Deik, Amy A., Dickens, Alex M., Djukovic, Danijel, Dorrestein, Pieter C., Eder, Josie G., Fiehn, Oliver, Flores, Roberto, Gika, Helen, Hagiwara, Kehau A., Pham, Tuan Hai, Harynuk, James J., Aristizabal-Henao, Juan J., Hoyt, David W., Jean-François, Focant, Kråkström, Matilda, Kumar, Amit, Kyle, Jennifer E., Lamichhane, Santosh, Li, Yuan, Nam, Seo Lin, Mandal, Rupasri, de la Mata, A. Paulina, Meehan, Michael J., Meikopoulos, Thomas, Metz, Thomas O., Mouskeftara, Thomai, Munoz, Nathalie, Gowda, G. A. Nagana, Orešic, Matej, Panitchpakdi, Morgan, Pierre-Hugues, Stefanuto, Raftery, Daniel, Rushing, Blake, Schock, Tracey, Seifried, Harold, Servetas, Stephanie, Shen, Tong, Sumner, Susan, Carrillo, Kieran S. Tarazona, Thibaut, Dejong, Trejo, Jesse B., Van Meulebroek, Lieven, Vanhaecke, Lynn, Virgiliou, Christina, Weldon, Kelly C., Wishart, David S., Zhang, Lu, Zheng, Jiamin, and Da Silva, Sandra

Published
2024
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12. Expression Quantitative Trait Loci and Receptor Pharmacology Implicate Arg1 and the GABA-A Receptor as Therapeutic Targets in Neuroblastoma

Author

Christopher S. Hackett, David A. Quigley, Robyn A. Wong, Justin Chen, Christine Cheng, Young K. Song, Jun S. Wei, Ludmila Pawlikowska, Yun Bao, David D. Goldenberg, Kim Nguyen, W. Clay Gustafson, Sundari K. Rallapalli, Yoon-Jae Cho, James M. Cook, Serguei Kozlov, Jian-Hua Mao, Terry Van Dyke, Pui-Yan Kwok, Javed Khan, Allan Balmain, QiWen Fan, and William A. Weiss

Subjects
Biology (General), QH301-705.5
Abstract

The development of targeted therapeutics for neuroblastoma, the third most common tumor in children, has been limited by a poor understanding of growth signaling mechanisms unique to the peripheral nerve precursors from which tumors arise. In this study, we combined genetics with gene-expression analysis in the peripheral sympathetic nervous system to implicate arginase 1 and GABA signaling in tumor formation in vivo. In human neuroblastoma cells, either blockade of ARG1 or benzodiazepine-mediated activation of GABA-A receptors induced apoptosis and inhibited mitogenic signaling through AKT and MAPK. These results suggest that ARG1 and GABA influence both neural development and neuroblastoma and that benzodiazepines in clinical use may have potential applications for neuroblastoma therapy.

Published
2014
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14. Downregulation of MYCN through PI3K inhibition in mouse models of pediatric neural cancer

Author

Tene Aneka Cage, Yvan eChanthery, Louis eChesler, Matthew eGrimmer, Zachary eKnight, Kevan eShokat, William A Weiss, and W. Clay Gustafson

Subjects
Medulloblastoma, Neuroblastoma, Cancer, Cell signaling, pediatric, mTOR, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

The MYCN proto-oncogene is associated with poor outcome across a broad range of pediatric tumors. While amplification of MYCN drives subsets of high risk neuroblastoma and medulloblastoma, dysregulation of MYCN in medulloblastoma (in the absence of amplification) also contributes to pathogenesis. Since PI3K stabilizes MYCN, we have used inhibitors of PI3K to drive degradation. In this study, we show PI3K inhibitors by themselves induce cell cycle arrest, with modest induction of apoptosis. In screening inhibitors of PI3K against MYCN, we identified PIK-75 and its derivative, PW-12, inhibitors of both PI3K and of protein kinases, to be highly effective in destabilizing MYCN. To determine the effects of PW-12 treatment in-vivo, we analyzed a genetically engineered mouse model for MYCN-driven neuroblastoma and a model of MYCN-driven medulloblastoma. PW-12 showed significant activity in both models, inducing vascular collapse and regression of medulloblastoma with prominent apoptosis in both models. These results demonstrate that inhibitors of lipid and protein kinases can drive apoptosis in MYCN-driven cancers and support the importance of MYCN as a therapeutic target.

Published
2015
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16. GATOR2-dependent mTORC1 activity is a therapeutic vulnerability in FOXO1 fusion positive rhabdomyosarcoma

Author

Morales, Jacqueline, Allegakoen, David V, Garcia, José A, Kwong, Kristen, Sahu, Pushpendra K, Fajardo, Drew A, Pan, Yue, Horlbeck, Max A, Weissman, Jonathan S, Gustafson, W Clay, Bivona, Trever G, and Sabnis, Amit J

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Pediatric Cancer, Genetics, Cancer, Rare Diseases, Pediatric, 2.1 Biological and endogenous factors, Child, Humans, Mechanistic Target of Rapamycin Complex 1, Neoplasms, Forkhead Box Protein O1, Drug therapy, Oncology, Signal transduction, Biomedical and clinical sciences, Health sciences
Abstract

Oncogenic FOXO1 gene fusions drive a subset of rhabdomyosarcoma (RMS) with poor survival; to date, these cancer drivers are therapeutically intractable. To identify new therapies for this disease, we undertook an isogenic CRISPR-interference screen to define PAX3-FOXO1-specific genetic dependencies and identified genes in the GATOR2 complex. GATOR2 loss in RMS abrogated aa-induced lysosomal localization of mTORC1 and consequent downstream signaling, slowing G1-S cell cycle transition. In vivo suppression of GATOR2 impaired the growth of tumor xenografts and favored the outgrowth of cells lacking PAX3-FOXO1. Loss of a subset of GATOR2 members can be compensated by direct genetic activation of mTORC1. RAS mutations are also sufficient to decouple mTORC1 activation from GATOR2, and indeed, fusion-negative RMS harboring such mutations exhibit aa-independent mTORC1 activity. A bisteric, mTORC1-selective small molecule induced tumor regressions in fusion-positive patient-derived tumor xenografts. These findings highlight a vulnerability in FOXO1 fusion-positive RMS and provide rationale for the clinical evaluation of bisteric mTORC1 inhibitors, currently in phase I testing, to treat this disease. Isogenic genetic screens can, thus, identify potentially exploitable vulnerabilities in fusion-driven pediatric cancers that otherwise remain mostly undruggable.

Published
2022

29. The synergy of BET inhibitors with aurora A kinase inhibitors in MYCN-amplified neuroblastoma is heightened with functional TP53.

Author

Yi, Joanna S, Sias-Garcia, Oscar, Nasholm, Nicole, Hu, Xiaoyu, Iniguez, Amanda Balboni, Hall, Matthew D, Davis, Mindy, Guha, Rajarshi, Moreno-Smith, Myrthala, Barbieri, Eveline, Duong, Kevin, Koach, Jessica, Qi, Jun, Bradner, James E, Stegmaier, Kimberly, Weiss, William A, and Gustafson, W Clay

Subjects
Apoptosis, MYCN, Neuroblastoma, Synergy, TP53, Oncology & Carcinogenesis, Clinical Sciences
Abstract

Amplification of MYCN is a poor prognostic feature in neuroblastoma (NBL) indicating aggressive disease. We and others have shown BET bromodomain inhibitors (BETi) target MYCN indirectly by downregulating its transcription. Here we sought to identify agents that synergize with BETi and to identify biomarkers of resistance. We previously performed a viability screen of ∼1,900 oncology-focused compounds combined with BET bromodomain inhibitors against MYCN-amplified NBL cell lines. Reanalysis of our screening results prominently identified inhibitors of aurora kinase A (AURKAi) to be highly synergistic with BETi. We confirmed the anti-proliferative effects of several BETi+AURKAi combinations in MYCN-amplified NBL cell lines. Compared to single agents, these combinations cooperated to decrease levels of N-myc. We treated both TP53-wild type and mutant, MYCN-amplified cell lines with the BETi JQ1 and the AURKAi Alisertib. The combination had improved efficacy in the TP53-WT context, notably driving apoptosis in both genetic backgrounds. JQ1+Alisertib combination treatment of a MYCN-amplified, TP53-null or TP53-restored genetically engineered mouse model of NBL prolonged survival better than either single agent. This was most profound with TP53 restored, with marked tumor shrinkage and apoptosis induction in response to combination JQ1+Alisertib. BETi+AURKAi in MYCN-amplified NBL, particularly in the context of functional TP53, provided anti-tumor benefits in preclinical models. This combination should be studied more closely in a pediatric clinical trial.

Published
2021

30. Drugging the “Undruggable” MYCN Oncogenic Transcription Factor: Overcoming Previous Obstacles to Impact Childhood Cancers

Author

Wolpaw, Adam J, Bayliss, Richard, Büchel, Gabriele, Dang, Chi V, Eilers, Martin, Gustafson, W Clay, Hansen, Gwenn H, Jura, Natalia, Knapp, Stefan, Lemmon, Mark A, Levens, David, Maris, John M, Marmorstein, Ronen, Metallo, Steven J, Park, Julie R, Penn, Linda Z, Rape, Michael, Roussel, Martine F, Shokat, Kevan M, Tansey, William P, Verba, Kliment A, Vos, Seychelle M, Weiss, William A, Wolf, Elmar, and Mossé, Yaël P

Subjects
Biochemistry and Cell Biology, Biological Sciences, Neuroblastoma, Cancer, Rare Diseases, Genetics, Neurosciences, Pediatric Cancer, Pediatric, 5.1 Pharmaceuticals, Age of Onset, Antineoplastic Agents, Child, Drug Discovery, Drug Resistance, Neoplasm, Drug Screening Assays, Antitumor, Gene Expression Regulation, Neoplastic, History, 20th Century, History, 21st Century, Humans, N-Myc Proto-Oncogene Protein, Neoplasms, Therapies, Investigational, Oncology and Carcinogenesis, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

Effective treatment of pediatric solid tumors has been hampered by the predominance of currently "undruggable" driver transcription factors. Improving outcomes while decreasing the toxicity of treatment necessitates the development of novel agents that can directly inhibit or degrade these elusive targets. MYCN in pediatric neural-derived tumors, including neuroblastoma and medulloblastoma, is a paradigmatic example of this problem. Attempts to directly and specifically target MYCN have failed due to its similarity to MYC, the unstructured nature of MYC family proteins in their monomeric form, the lack of an understanding of MYCN-interacting proteins and ability to test their relevance in vivo, the inability to obtain structural information on MYCN protein complexes, and the challenges of using traditional small molecules to inhibit protein-protein or protein-DNA interactions. However, there is now promise for directly targeting MYCN based on scientific and technological advances on all of these fronts. Here, we discuss prior challenges and the reasons for renewed optimism in directly targeting this "undruggable" transcription factor, which we hope will lead to improved outcomes for patients with pediatric cancer and create a framework for targeting driver oncoproteins regulating gene transcription.

Published
2021

32. Structural basis for antibody inhibition of flavivirus NS1–triggered endothelial dysfunction

Author

Biering, Scott B, Akey, David L, Wong, Marcus P, Brown, W Clay, Lo, Nicholas TN, Puerta-Guardo, Henry, Tramontini Gomes de Sousa, Francielle, Wang, Chunling, Konwerski, Jamie R, Espinosa, Diego A, Bockhaus, Nicholas J, Glasner, Dustin R, Li, Jeffrey, Blanc, Sophie F, Juan, Evan Y, Elledge, Stephen J, Mina, Michael J, Beatty, P Robert, Smith, Janet L, and Harris, Eva

Subjects
Vaccine Related, Prevention, Immunization, Vector-Borne Diseases, Rare Diseases, Emerging Infectious Diseases, Biodefense, Infectious Diseases, West Nile Virus, Aetiology, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, Animals, Antibodies, Monoclonal, Antibodies, Neutralizing, Antibodies, Viral, Cross Reactions, Crystallography, X-Ray, Dengue, Dengue Virus, Endothelium, Glycocalyx, Humans, Mice, Protein Conformation, beta-Strand, Protein Domains, Viral Nonstructural Proteins, West Nile Fever, West Nile virus, Zika Virus, Zika Virus Infection, General Science & Technology
Abstract

Medically important flaviviruses cause diverse disease pathologies and collectively are responsible for a major global disease burden. A contributing factor to pathogenesis is secreted flavivirus nonstructural protein 1 (NS1). Despite demonstrated protection by NS1-specific antibodies against lethal flavivirus challenge, the structural and mechanistic basis remains unknown. Here, we present three crystal structures of full-length dengue virus NS1 complexed with a flavivirus-cross-reactive, NS1-specific monoclonal antibody, 2B7, at resolutions between 2.89 and 3.96 angstroms. These structures reveal a protective mechanism by which two domains of NS1 are antagonized simultaneously. The NS1 wing domain mediates cell binding, whereas the β-ladder triggers downstream events, both of which are required for dengue, Zika, and West Nile virus NS1-mediated endothelial dysfunction. These observations provide a mechanistic explanation for 2B7 protection against NS1-induced pathology and demonstrate the potential of one antibody to treat infections by multiple flaviviruses.

Published
2021

33. 124I-MIBG PET/CT to Monitor Metastatic Disease in Children with Relapsed Neuroblastoma

Author

Aboian, Mariam S, Huang, Shih-Ying, Hernandez-Pampaloni, Miguel, Hawkins, Randall A, VanBrocklin, Henry F, Huh, Yoonsuk, Vo, Kieuhoa T, Gustafson, W Clay, Matthay, Katherine K, and Seo, Youngho

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Cancer, Pediatric, Rare Diseases, Bioengineering, Neurosciences, Biomedical Imaging, Clinical Research, 4.2 Evaluation of markers and technologies, 4.1 Discovery and preclinical testing of markers and technologies, 3-Iodobenzylguanidine, Child, Preschool, Female, Humans, Iodine Radioisotopes, Male, Neoplasm Metastasis, Neuroblastoma, Positron Emission Tomography Computed Tomography, Recurrence, Single Photon Emission Computed Tomography Computed Tomography, neuroblastoma, I-124, I-124-MIBG, metaiodobenzylguanidine, PET/CT, 124I, 124I-MIBG, Nuclear Medicine & Medical Imaging, Clinical sciences
Abstract

The metaiodobenzylguanidine (MIBG) scan is one of the most sensitive noninvasive lesion detection modalities for neuroblastoma. Unlike 123I-MIBG, 124I-MIBG allows high-resolution PET. We evaluated 124I-MIBG PET/CT for its diagnostic performance as directly compared with paired 123I-MIBG scans. Methods: Before 131I-MIBG therapy, standard 123I-MIBG imaging (5.2 MBq/kg) was performed on 7 patients, including whole-body (anterior-posterior) planar imaging, focused-field-of-view SPECT/CT, and whole-body 124I-MIBG PET/CT (1.05 MBq/kg). After therapy, 2 of 7 patients also completed 124I-MIBG PET/CT as well as paired 123I-MIBG planar imaging and SPECT/CT. One patient underwent 124I-MIBG PET/CT only after therapy. We evaluated all 8 patients who showed at least 1 123I-MIBG-positive lesion with a total of 10 scans. In 8 pairs, 123I-MIBG and 124I-MIBG were performed within 1 mo of each other. The locations of identified lesions, the number of total lesions, and the curie scores were recorded for the 123I-MIBG and 124I-MIBG scans. Finally, for 5 patients who completed at least 3 PET/CT scans after administration of 124I-MIBG, we estimated the effective dose of 124I-MIBG. Results:123I-MIBG whole-body planar scans, focused-field-of-view SPECT/CT scans, and whole-body 124I-MIBG PET scans found 25, 32, and 87 total lesions, respectively. There was a statistically significant difference in lesion detection for 124I-MIBG PET/CT versus 123I-MIBG planar imaging (P < 0.0001) and 123I-MIBG SPECT/CT (P < 0.0001). The curie scores were also higher for 124I-MIBG PET/CT than for 123I-MIBG planar imaging and SPECT/CT in 6 of 10 patients. 124I-MIBG PET/CT demonstrated better detection of lesions throughout the body, including the chest, spine, head and neck, and extremities. The effective dose estimated for patient-specific 124I-MIBG was approximately 10 times that of 123I-MIBG; however, given that we administered a very low activity of 124I-MIBG (1.05 MBq/kg), the effective dose was only approximately twice that of 123I-MIBG despite the large difference in half-lives (100 vs. 13.2 h). Conclusion: The first-in-humans use of low-dose 124I-MIBG PET for monitoring disease burden demonstrated tumor detection capability superior to that of 123I-MIBG planar imaging and SPECT/CT.

Published
2021

35. Fungal indole alkaloid biogenesis through evolution of a bifunctional reductase/Diels–Alderase

Author

Dan, Qingyun, Newmister, Sean A, Klas, Kimberly R, Fraley, Amy E, McAfoos, Timothy J, Somoza, Amber D, Sunderhaus, James D, Ye, Ying, Shende, Vikram V, Yu, Fengan, Sanders, Jacob N, Brown, W Clay, Zhao, Le, Paton, Robert S, Houk, KN, Smith, Janet L, Sherman, David H, and Williams, Robert M

Subjects
Biotechnology, Emerging Infectious Diseases, Vaccine Related, Ascomycota, Biocatalysis, Cycloaddition Reaction, Indole Alkaloids, Models, Molecular, Molecular Structure, Oxidoreductases, Chemical Sciences, Organic Chemistry
Abstract

Prenylated indole alkaloids such as the calmodulin-inhibitory malbrancheamides and anthelmintic paraherquamides possess great structural diversity and pharmaceutical utility. Here, we report complete elucidation of the malbrancheamide biosynthetic pathway accomplished through complementary approaches. These include a biomimetic total synthesis to access the natural alkaloid and biosynthetic intermediates in racemic form and in vitro enzymatic reconstitution to provide access to the natural antipode (+)-malbrancheamide. Reductive cleavage of an L-Pro-L-Trp dipeptide from the MalG non-ribosomal peptide synthetase (NRPS) followed by reverse prenylation and a cascade of post-NRPS reactions culminates in an intramolecular [4+2] hetero-Diels-Alder (IMDA) cyclization to furnish the bicyclo[2.2.2]diazaoctane scaffold. Enzymatic assembly of optically pure (+)-premalbrancheamide involves an unexpected zwitterionic intermediate where MalC catalyses enantioselective cycloaddition as a bifunctional NADPH-dependent reductase/Diels-Alderase. The crystal structures of substrate and product complexes together with site-directed mutagenesis and molecular dynamics simulations demonstrate how MalC and PhqE (its homologue from the paraherquamide pathway) catalyse diastereo- and enantioselective cyclization in the construction of this important class of secondary metabolites.

Published
2019

36. Single-Cell Transcriptomics in Medulloblastoma Reveals Tumor-Initiating Progenitors and Oncogenic Cascades during Tumorigenesis and Relapse

Author

Zhang, Liguo, He, Xuelian, Liu, Xuezhao, Zhang, Feng, Huang, L Frank, Potter, Andrew S, Xu, Lingli, Zhou, Wenhao, Zheng, Tao, Luo, Zaili, Berry, Kalen P, Pribnow, Allison, Smith, Stephanie M, Fuller, Christine, Jones, Blaise V, Fouladi, Maryam, Drissi, Rachid, Yang, Zeng-Jie, Gustafson, W Clay, Remke, Marc, Pomeroy, Scott L, Girard, Emily J, Olson, James M, Morrissy, A Sorana, Vladoiu, Maria C, Zhang, Jiao, Tian, Weidong, Xin, Mei, Taylor, Michael D, Potter, S Steven, Roussel, Martine F, Weiss, William A, and Lu, Q Richard

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Genetics, Cancer, Stem Cell Research, Rare Diseases, Brain Cancer, Stem Cell Research - Nonembryonic - Non-Human, Stem Cell Research - Nonembryonic - Human, Human Genome, Biotechnology, Neurosciences, Pediatric, Brain Disorders, 2.1 Biological and endogenous factors, Aetiology, Animals, Brain Neoplasms, Cell Line, Tumor, Cell Proliferation, Cell Transformation, Neoplastic, Child, Preschool, Datasets as Topic, Disease Models, Animal, Female, Gene Expression Regulation, Neoplastic, Gene Knockdown Techniques, Gene Regulatory Networks, Hedgehog Proteins, Humans, Male, Medulloblastoma, Mice, Transgenic, Neoplasm Recurrence, Local, Neoplastic Stem Cells, Neuroglia, Oligodendrocyte Transcription Factor 2, Prognosis, RNA-Seq, Signal Transduction, Single-Cell Analysis, Survival Analysis, Transcriptome, AURORA-A/MYCN, HIPPO-YAP/TAZ, OLIG2, OPC-like, glial progenitors, medulloblastomas, progenitor heterogeneity, recurrent tumors, single-cell transcriptomics, sonic hedgehog (SHH) signaling, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

Progenitor heterogeneity and identities underlying tumor initiation and relapse in medulloblastomas remain elusive. Utilizing single-cell transcriptomic analysis, we demonstrated a developmental hierarchy of progenitor pools in Sonic Hedgehog (SHH) medulloblastomas, and identified OLIG2-expressing glial progenitors as transit-amplifying cells at the tumorigenic onset. Although OLIG2+ progenitors become quiescent stem-like cells in full-blown tumors, they are highly enriched in therapy-resistant and recurrent medulloblastomas. Depletion of mitotic Olig2+ progenitors or Olig2 ablation impeded tumor initiation. Genomic profiling revealed that OLIG2 modulates chromatin landscapes and activates oncogenic networks including HIPPO-YAP/TAZ and AURORA-A/MYCN pathways. Co-targeting these oncogenic pathways induced tumor growth arrest. Together, our results indicate that glial lineage-associated OLIG2+ progenitors are tumor-initiating cells during medulloblastoma tumorigenesis and relapse, suggesting OLIG2-driven oncogenic networks as potential therapeutic targets.

Published
2019

37. Technical Note: Simplified and practical pretherapy tumor dosimetry — A feasibility study for 131I‐MIBG therapy of neuroblastoma using 124I‐MIBG PET/CT

Author

Seo, Youngho, Huh, Yoonsuk, Huang, Shih‐ying, Hernandez‐Pampaloni, J Miguel, Hawkins, Randall A, Gustafson, W Clay, Vo, Kieuhoa T, and Matthay, Katherine K

Subjects
Medical and Biological Physics, Physical Sciences, Radiation Oncology, Pediatric, Neurosciences, Cancer, Biomedical Imaging, Rare Diseases, Neuroblastoma, Pediatric Cancer, Orphan Drug, Bioengineering, 3-Iodobenzylguanidine, Adolescent, Adult, Child, Feasibility Studies, Female, Humans, Iodine Radioisotopes, Male, Positron Emission Tomography Computed Tomography, Radiometry, Radiotherapy Dosage, Safety, Young Adult, dosimetry, MIBG, neuroblastoma, radionuclide therapy, tumor dosimetry, Other Physical Sciences, Biomedical Engineering, Oncology and Carcinogenesis, Nuclear Medicine & Medical Imaging, Biomedical engineering, Medical and biological physics
Abstract

PurposeRadiation dose calculated on tumors for radiopharmaceutical therapy varies significantly from tumor to tumor and from patient to patient. Accurate estimation of radiation dose requires multiple time point measurements using radionuclide imaging modalities such as SPECT or PET. In this report, we show our technical development of reducing the number of scans needed for reasonable estimation of tumor and normal organ dose in our pretherapy imaging and dosimetry platform of 124 I-metaiodobenzylguanidine (MIBG) positron emission tomography/computed tomography (PET/CT) for 131 I-MIBG therapy of neuroblastoma.MethodsWe analyzed the simplest kinetic data, areas of two-time point data for five patients with neuroblastoma who underwent 3 or 4 times of 124 I-MIBG PET/CT scan prior to 131 I-MIBG therapy. The data for which we derived areas were percent of injected activity (%IA) and standardized uptake value of tumors. These areas were correlated with time-integrated activity coefficients (TIACs) from full data (3 or 4 time points). TIACs are direct correlates with radiation dose as long as the volume and the radionuclide are known.ResultsThe areas of %IAs between data obtained from all the two-time points with time points 1 and 2 (day 0 and day 1), time points 2 and 3 (day 1 and day 2), and time points 1 and 3 (day 0 and day 2) showed reasonable correlation (Pearson's correlation coefficient |r| > 0.5) with not only tumor and organ TIACs but also tumor and organ absorbed doses. The tumor and organ doses calculated using %IA areas of time point 1 and time point 2 were our best fits at about 20% individual percent difference compared to doses calculated using 3 or 4 time points.ConclusionsWe could achieve reasonable accuracy of estimating tumor doses for subsequent radiopharmaceutical therapy using only the two-time point imaging sessions. Images obtained from these time points (within the 48-h after administration of radiopharmaceutical) were also viewed as useful for diagnostic reading. Although our analysis was specific to 124 I-MIBG PET/CT pretherapy imaging data for 131 I-MIBG therapy of neuroblastoma and the number of imaging datasets was not large, this feasible methodology would generally be applicable to other imaging and therapeutic radionuclides with an appropriate data analysis similar to our analysis to other imaging and therapeutic radiopharmaceuticals.

Published
2019

38. A peptide mimic of SOCS1 modulates equine peripheral immune cells in vitro and ocular effector functions in vivo : implications for recurrent uveitis.

Author

Stafford, Lauren Stewart, Plummer, Caryn E., Smith, W. Clay, Gibson, Daniel J., Sharma, Jatin, Vicuna, Valeria, Diakite, Sisse, and Larkin III, Joseph

Subjects
MONONUCLEAR leukocytes, SUPPRESSORS of cytokine signaling, IMMUNE response, VITREOUS humor, TOPICAL drug administration
Abstract

Introduction: Recurrent uveitis (RU), an autoimmune disease, is a leading cause of ocular detriment in humans and horses. Equine and human RU share many similarities including spontaneous disease and aberrant cytokine signaling. Reduced levels of SOCS1, a critical regulator of cytokine signaling, is associated with several autoimmune diseases. Topical administration of SOCS1-KIR, a peptide mimic of SOCS1, was previously correlated to reduced ocular pathologies within ERU patients. Methods: To further assess the translational potential of a SOCS1 mimetic to treat RU, we assessed peptide-mediated modulation of immune functions in vitro , using equine peripheral blood mononuclear cells (PBMC), and in vivo through topical administration of SOCS1-KIR into the eyes of experimental (non-uveitic) horses. Equine PBMCs from non-uveitic control and ERU horses were cultured with or without SOCS1-KIR pretreatment, followed by 72 hours of mitogen stimulation. Proliferation was assessed using MTT, and cytokine production within cell supernatants was assessed by Luminex. SOCS1-KIR or carrier eye-drops were topically applied to experimental horse eyes twice daily for 21 days, followed by enucleation and isolation of ocular aqueous and vitreous humor. Histology was used to assess peptide treatment safety and localization within treated equine eyes. Cytokine secretion within aqueous humor and vitreous, isolated from experimental equine eyes, was measured by Luminex. Results: Following SOCS1-KIR pretreatment, cell proliferation significantly decreased in control, but not ERU-derived PBMCs. Despite differential regulation of cellular proliferation, SOCS1-KIR significantly reduced TNFα and IL-10 secretion in PHA-stimulated control and ERU equine PBMC. SOCS1-KIR increased PBMC secretion of IL-8. Topically administered SOCS1-KIR was well tolerated. Although SOCS1-KIR was undetectable within the eye, topically treated equine eyes had significant reductions in TNFα and IL-10. Interestingly, we found that while SOCS1-KIR treatment reduced TNFα and IL-10 production in healthy and ERU PBMC, SOCS1-KIR differentially modulated proliferation, IP-10 production, and RANTES within these two groups suggesting possible differences in cell types or activation status. Discussion: Topical administration of a SOCS1 peptide mimic is safe to the equine eye and reduces ERU associated cytokines IL-10 and TNFα serving as potential biomarkers of drug efficacy in a future clinical trial. [ABSTRACT FROM AUTHOR]

Published
2025
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41. Supplementary Table S8 from Translational and Therapeutic Evaluation of RAS-GTP Inhibition by RMC-6236 in RAS-Driven Cancers

Author

Jiang, Jingjing, primary, Jiang, Lingyan, primary, Maldonato, Benjamin J., primary, Wang, Yingyun, primary, Holderfield, Matthew, primary, Aronchik, Ida, primary, Winters, Ian P., primary, Salman, Zeena, primary, Blaj, Cristina, primary, Menard, Marie, primary, Brodbeck, Jens, primary, Chen, Zhe, primary, Wei, Xing, primary, Rosen, Michael J., primary, Gindin, Yevgeniy, primary, Lee, Bianca J., primary, Evans, James W., primary, Chang, Stephanie, primary, Wang, Zhican, primary, Seamon, Kyle J., primary, Parsons, Dylan, primary, Cregg, James, primary, Marquez, Abby, primary, Tomlinson, Aidan C.A., primary, Yano, Jason K., primary, Knox, John E., primary, Quintana, Elsa, primary, Aguirre, Andrew J., primary, Arbour, Kathryn C., primary, Reed, Abby, primary, Gustafson, W. Clay, primary, Gill, Adrian L., primary, Koltun, Elena S., primary, Wildes, David, primary, Smith, Jacqueline A.M., primary, Wang, Zhengping, primary, and Singh, Mallika, primary

Published
2024
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42. Supplementary Figure S1-S6 from Translational and Therapeutic Evaluation of RAS-GTP Inhibition by RMC-6236 in RAS-Driven Cancers

Author

Jiang, Jingjing, primary, Jiang, Lingyan, primary, Maldonato, Benjamin J., primary, Wang, Yingyun, primary, Holderfield, Matthew, primary, Aronchik, Ida, primary, Winters, Ian P., primary, Salman, Zeena, primary, Blaj, Cristina, primary, Menard, Marie, primary, Brodbeck, Jens, primary, Chen, Zhe, primary, Wei, Xing, primary, Rosen, Michael J., primary, Gindin, Yevgeniy, primary, Lee, Bianca J., primary, Evans, James W., primary, Chang, Stephanie, primary, Wang, Zhican, primary, Seamon, Kyle J., primary, Parsons, Dylan, primary, Cregg, James, primary, Marquez, Abby, primary, Tomlinson, Aidan C.A., primary, Yano, Jason K., primary, Knox, John E., primary, Quintana, Elsa, primary, Aguirre, Andrew J., primary, Arbour, Kathryn C., primary, Reed, Abby, primary, Gustafson, W. Clay, primary, Gill, Adrian L., primary, Koltun, Elena S., primary, Wildes, David, primary, Smith, Jacqueline A.M., primary, Wang, Zhengping, primary, and Singh, Mallika, primary

Published
2024
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43. Supplementary Method from Translational and Therapeutic Evaluation of RAS-GTP Inhibition by RMC-6236 in RAS-Driven Cancers

Author

Jiang, Jingjing, primary, Jiang, Lingyan, primary, Maldonato, Benjamin J., primary, Wang, Yingyun, primary, Holderfield, Matthew, primary, Aronchik, Ida, primary, Winters, Ian P., primary, Salman, Zeena, primary, Blaj, Cristina, primary, Menard, Marie, primary, Brodbeck, Jens, primary, Chen, Zhe, primary, Wei, Xing, primary, Rosen, Michael J., primary, Gindin, Yevgeniy, primary, Lee, Bianca J., primary, Evans, James W., primary, Chang, Stephanie, primary, Wang, Zhican, primary, Seamon, Kyle J., primary, Parsons, Dylan, primary, Cregg, James, primary, Marquez, Abby, primary, Tomlinson, Aidan C.A., primary, Yano, Jason K., primary, Knox, John E., primary, Quintana, Elsa, primary, Aguirre, Andrew J., primary, Arbour, Kathryn C., primary, Reed, Abby, primary, Gustafson, W. Clay, primary, Gill, Adrian L., primary, Koltun, Elena S., primary, Wildes, David, primary, Smith, Jacqueline A.M., primary, Wang, Zhengping, primary, and Singh, Mallika, primary

Published
2024
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44. Data from Translational and Therapeutic Evaluation of RAS-GTP Inhibition by RMC-6236 in RAS-Driven Cancers

Author

Jiang, Jingjing, primary, Jiang, Lingyan, primary, Maldonato, Benjamin J., primary, Wang, Yingyun, primary, Holderfield, Matthew, primary, Aronchik, Ida, primary, Winters, Ian P., primary, Salman, Zeena, primary, Blaj, Cristina, primary, Menard, Marie, primary, Brodbeck, Jens, primary, Chen, Zhe, primary, Wei, Xing, primary, Rosen, Michael J., primary, Gindin, Yevgeniy, primary, Lee, Bianca J., primary, Evans, James W., primary, Chang, Stephanie, primary, Wang, Zhican, primary, Seamon, Kyle J., primary, Parsons, Dylan, primary, Cregg, James, primary, Marquez, Abby, primary, Tomlinson, Aidan C.A., primary, Yano, Jason K., primary, Knox, John E., primary, Quintana, Elsa, primary, Aguirre, Andrew J., primary, Arbour, Kathryn C., primary, Reed, Abby, primary, Gustafson, W. Clay, primary, Gill, Adrian L., primary, Koltun, Elena S., primary, Wildes, David, primary, Smith, Jacqueline A.M., primary, Wang, Zhengping, primary, and Singh, Mallika, primary

Published
2024
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45. CRISPR-Cas9 screen reveals a MYCN-amplified neuroblastoma dependency on EZH2

Author

Chen, Liying, Alexe, Gabriela, Dharia, Neekesh V, Ross, Linda, Iniguez, Amanda Balboni, Conway, Amy Saur, Wang, Emily Jue, Veschi, Veronica, Lam, Norris, Qi, Jun, Gustafson, W Clay, Nasholm, Nicole, Vazquez, Francisca, Weir, Barbara A, Cowley, Glenn S, Ali, Levi D, Pantel, Sasha, Jiang, Guozhi, Harrington, William F, Lee, Yenarae, Goodale, Amy, Lubonja, Rakela, Krill-Burger, John M, Meyers, Robin M, Tsherniak, Aviad, Root, David E, Bradner, James E, Golub, Todd R, Roberts, Charles WM, Hahn, William C, Weiss, William A, Thiele, Carol J, and Stegmaier, Kimberly

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Neuroblastoma, Cancer, Cancer Genomics, Human Genome, Orphan Drug, Pediatric Cancer, Neurosciences, Pediatric, Rare Diseases, Genetics, 5.1 Pharmaceuticals, CRISPR-Cas Systems, Cell Differentiation, Cell Line, Tumor, Enhancer of Zeste Homolog 2 Protein, Gene Amplification, Gene Expression Regulation, Neoplastic, Humans, N-Myc Proto-Oncogene Protein, Neurons, Up-Regulation, Epigenetics, Oncology, Medical and Health Sciences, Immunology, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

Pharmacologically difficult targets, such as MYC transcription factors, represent a major challenge in cancer therapy. For the childhood cancer neuroblastoma, amplification of the oncogene MYCN is associated with high-risk disease and poor prognosis. Here, we deployed genome-scale CRISPR-Cas9 screening of MYCN-amplified neuroblastoma and found a preferential dependency on genes encoding the polycomb repressive complex 2 (PRC2) components EZH2, EED, and SUZ12. Genetic and pharmacological suppression of EZH2 inhibited neuroblastoma growth in vitro and in vivo. Moreover, compared with neuroblastomas without MYCN amplification, MYCN-amplified neuroblastomas expressed higher levels of EZH2. ChIP analysis showed that MYCN binds at the EZH2 promoter, thereby directly driving expression. Transcriptomic and epigenetic analysis, as well as genetic rescue experiments, revealed that EZH2 represses neuronal differentiation in neuroblastoma in a PRC2-dependent manner. Moreover, MYCN-amplified and high-risk primary tumors from patients with neuroblastoma exhibited strong repression of EZH2-regulated genes. Additionally, overexpression of IGFBP3, a direct EZH2 target, suppressed neuroblastoma growth in vitro and in vivo. We further observed strong synergy between histone deacetylase inhibitors and EZH2 inhibitors. Together, these observations demonstrate that MYCN upregulates EZH2, leading to inactivation of a tumor suppressor program in neuroblastoma, and support testing EZH2 inhibitors in patients with MYCN-amplified neuroblastoma.

Published
2018

46. Phase 1 study of sirolimus in combination with oral cyclophosphamide and topotecan in children and young adults with relapsed and refractory solid tumors

Author

Vo, Kieuhoa T, Karski, Erin E, Nasholm, Nicole M, Allen, Shelly, Hollinger, Fabienne, Gustafson, W Clay, Long-Boyle, Janel R, Shiboski, Stephen, Matthay, Katherine K, and DuBois, Steven G

Subjects
Clinical Research, Pediatric, Cancer, 6.1 Pharmaceuticals, Evaluation of treatments and therapeutic interventions, Adolescent, Adult, Antibiotics, Antineoplastic, Antineoplastic Combined Chemotherapy Protocols, Child, Cyclophosphamide, Female, Humans, Male, Neoplasm Recurrence, Local, Neoplasms, Sirolimus, Topotecan, Young Adult, phase 1, mTOR, sirolimus, topotecan, cyclophosphamide, Oncology and Carcinogenesis
Abstract

PurposeTo determine the maximum tolerated dose (MTD), toxicities, and pharmacodynamics effects of sirolimus combined with oral metronomic topotecan and cyclophosphamide in a pediatric population.Materials and methodsPatients who were 1 to 30 years of age with relapsed/refractory solid tumors (including CNS) were eligible. Patients received daily oral sirolimus and cyclophosphamide (25-50 mg/m2/dose) on days 1-21 and oral topotecan (0.8 mg/m2/dose) on days 1-14 in 28-day cycles. Sirolimus steady-state plasma trough concentrations of 3-7.9 ng/mL and 8-12.0 ng/mL were evaluated, with dose escalation based on a 3+3 phase 1 design. Biomarkers of angiogenesis were also evaluated.ResultsTwenty-one patients were treated (median age 18 years; range 9-30). Dose-limiting toxicities included myelosuppression, ALT elevation, stomatitis, and hypertriglyceridemia. The MTD was sirolimus with trough goal of 8-12.0 ng/mL; cyclophosphamide 25 mg/m2/dose; and topotecan 0.8 mg/m2/dose. No objective responses were observed. Four patients had prolonged stable disease > 4 cycles (range 4-12). Correlative biomarker analyses demonstrated reductions in thrombospondin-1 (p=0.043) and soluble vascular endothelial growth factor receptor-2 plasma concentrations at 21 days compared to baseline.ConclusionsThe combination of oral sirolimus, topotecan, and cyclophosphamide was well tolerated and biomarker studies demonstrated modulation of angiogenic pathways with this regimen.

Published
2017

48. The Effects of Waiving WIC Physical Presence Requirements on Program Caseloads.

Author

Fannin, W. Clay, Heflin, Colleen, and Lopoo, Leonard M.

Subjects
*COVID-19 pandemic, *OFFICES, *PUBLIC health, *FEDERAL government, *NUTRITION services
Abstract

The Special Supplemental Nutrition Program for Women, Infants, and Children (WIC) requires applicants to visit local offices for in-person appointments. The face-to-face nature of WIC has been praised for fostering personal engagement between workers and participants, but some scholars argue that in-person requirements contribute to WIC's low take-up rate (51 percent in 2017). Because of public health concerns during COVID-19, the federal government allowed local WIC agencies to waive in-person requirements. Using linked primary waiver data and administrative WIC data, we implement a difference-in-differences design, comparing WIC caseloads in waiver and nonwaiver counties. We estimate that waivers increased WIC caseloads by about 11 percent, although we fail to detect effects for counties that did not offer modernized document submission options and did not allow applicants to self-attest eligibility or that only offered curbside—rather than fully remote—certification options. Results suggest that relaxing in-person requirements can improve WIC take-up. [ABSTRACT FROM AUTHOR]

Published
2024
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