Your search keyword '"Michael V. Ortiz"' showing total 60 results

1. A Transcriptome-Based Precision Oncology Platform for Patient–Therapy Alignment in a Diverse Set of Treatment-Resistant Malignancies

Author

Prabhjot S. Mundi, Filemon S. Dela Cruz, Adina Grunn, Daniel Diolaiti, Audrey Mauguen, Allison R. Rainey, Kristina Guillan, Armaan Siddiquee, Daoqi You, Ronald Realubit, Charles Karan, Michael V. Ortiz, Eugene F. Douglass, Melissa Accordino, Suzanne Mistretta, Frances Brogan, Jeffrey N. Bruce, Cristina I. Caescu, Richard D. Carvajal, Katherine D. Crew, Guarionex Decastro, Mark Heaney, Brian S. Henick, Dawn L. Hershman, June Y. Hou, Fabio M. Iwamoto, Joseph G. Jurcic, Ravi P. Kiran, Michael D. Kluger, Teri Kreisl, Nicole Lamanna, Andrew B. Lassman, Emerson A. Lim, Gulam A. Manji, Guy M. McKhann, James M. McKiernan, Alfred I. Neugut, Kenneth P. Olive, Todd Rosenblat, Gary K. Schwartz, Catherine A. Shu, Michael B. Sisti, Ana Tergas, Reena M. Vattakalam, Mary Welch, Sven Wenske, Jason D. Wright, Peter Canoll, Hanina Hibshoosh, Kevin Kalinsky, Mahalaxmi Aburi, Peter A. Sims, Mariano J. Alvarez, Andrew L. Kung, and Andrea Califano

Subjects

Oncology

Abstract

Predicting in vivo response to antineoplastics remains an elusive challenge. We performed a first-of-kind evaluation of two transcriptome-based precision cancer medicine methodologies to predict tumor sensitivity to a comprehensive repertoire of clinically relevant oncology drugs, whose mechanism of action we experimentally assessed in cognate cell lines. We enrolled patients with histologically distinct, poor-prognosis malignancies who had progressed on multiple therapies, and developed low-passage, patient-derived xenograft models that were used to validate 35 patient-specific drug predictions. Both OncoTarget, which identifies high-affinity inhibitors of individual master regulator (MR) proteins, and OncoTreat, which identifies drugs that invert the transcriptional activity of hyperconnected MR modules, produced highly significant 30-day disease control rates (68% and 91%, respectively). Moreover, of 18 OncoTreat-predicted drugs, 15 induced the predicted MR-module activity inversion in vivo. Predicted drugs significantly outperformed antineoplastic drugs selected as unpredicted controls, suggesting these methods may substantively complement existing precision cancer medicine approaches, as also illustrated by a case study. Significance: Complementary precision cancer medicine paradigms are needed to broaden the clinical benefit realized through genetic profiling and immunotherapy. In this first-in-class application, we introduce two transcriptome-based tumor-agnostic systems biology tools to predict drug response in vivo. OncoTarget and OncoTreat are scalable for the design of basket and umbrella clinical trials.

Published

2023

2. Advances in the clinical management of high‐risk Wilms tumors

Author

Michael V. Ortiz, Christa Koenig, Amy E. Armstrong, Jesper Brok, Beatriz de Camargo, Annelies M. C. Mavinkurve‐Groothuis, Thelma B. Velasquez Herrera, Rajkumar Venkatramani, Andrew D. Woods, Jeffrey S. Dome, and Filippo Spreafico

Subjects

Oncology, Pediatrics, Perinatology and Child Health, Hematology

Published

2023

3. Pediatric DDR inhibitor combinations: Are WEE1 there yet?

Author

Emily K. Slotkin, Michael V. Ortiz, and Julia L. Glade Bender

Subjects

Cancer Research, Oncology

Published

2023

4. Data from Identification of Novel Therapeutic Targets for Fibrolamellar Carcinoma Using Patient-Derived Xenografts and Direct-from-Patient Screening

Author

Sanford M. Simon, Michael V. Ortiz, Michael S. Torbenson, Philip Coffino, Anthony Letai, Charles M. Rice, Michael P. LaQuaglia, Hans-Guido Wendel, Tomoaki Kato, Faith Tierney, Rory L. Smoot, Mark J. Truty, Jennifer L. Leiting, Martin Hertl, Erik Schadde, Jessica Ellison, Barbara A. Lyons, J. Fraser Glickman, Ethan M. Weinberg, James A. Saltsman, William J. Hammond, Benjamin A. Farber, Arlene M. Hurley, Koen O.A. Vercauteren, Mohammad Kabbani, Eleftherios Michailidis, Solomon Levin, Bassem Shebl, Nicole J.C. Narayan, Ruisi Wang, Ype P. de Jong, Patrick D. Bhola, Denise Ng, Lavoisier Ramos-Espiritu, David Requena, and Gadi Lalazar

Abstract

To repurpose therapeutics for fibrolamellar carcinoma (FLC), we developed and validated patient-derived xenografts (PDX) from surgical resections. Most agents used clinically and inhibitors of oncogenes overexpressed in FLC showed little efficacy on PDX. A high-throughput functional drug screen found primary and metastatic FLC were vulnerable to clinically available inhibitors of TOPO1 and HDAC and to napabucasin. Napabucasin's efficacy was mediated through reactive oxygen species and inhibition of translation initiation, and specific inhibition of eIF4A was effective. The sensitivity of each PDX line inversely correlated with expression of the antiapoptotic protein Bcl-xL, and inhibition of Bcl-xL synergized with other drugs. Screening directly on cells dissociated from patient resections validated these results. This demonstrates that a direct functional screen on patient tumors provides therapeutically informative data within a clinically useful time frame. Identifying these novel therapeutic targets and combination therapies is an urgent need, as effective therapeutics for FLC are currently unavailable.Significance:Therapeutics informed by genomics have not yielded effective therapies for FLC. A functional screen identified TOPO1, HDAC inhibitors, and napabucasin as efficacious and synergistic with inhibition of Bcl-xL. Validation on cells dissociated directly from patient tumors demonstrates the ability for functional precision medicine in a solid tumor.This article is highlighted in the In This Issue feature, p. 2355

Published

2023

5. Supplementary Figures and Data from Identification of Novel Therapeutic Targets for Fibrolamellar Carcinoma Using Patient-Derived Xenografts and Direct-from-Patient Screening

Author

Sanford M. Simon, Michael V. Ortiz, Michael S. Torbenson, Philip Coffino, Anthony Letai, Charles M. Rice, Michael P. LaQuaglia, Hans-Guido Wendel, Tomoaki Kato, Faith Tierney, Rory L. Smoot, Mark J. Truty, Jennifer L. Leiting, Martin Hertl, Erik Schadde, Jessica Ellison, Barbara A. Lyons, J. Fraser Glickman, Ethan M. Weinberg, James A. Saltsman, William J. Hammond, Benjamin A. Farber, Arlene M. Hurley, Koen O.A. Vercauteren, Mohammad Kabbani, Eleftherios Michailidis, Solomon Levin, Bassem Shebl, Nicole J.C. Narayan, Ruisi Wang, Ype P. de Jong, Patrick D. Bhola, Denise Ng, Lavoisier Ramos-Espiritu, David Requena, and Gadi Lalazar

Abstract

Supplementary Figure 1 - 6 and Supplementary Tables 1, 2, and 4

Published

2023

6. Supplementary Table 3 from Identification of Novel Therapeutic Targets for Fibrolamellar Carcinoma Using Patient-Derived Xenografts and Direct-from-Patient Screening

Author

Sanford M. Simon, Michael V. Ortiz, Michael S. Torbenson, Philip Coffino, Anthony Letai, Charles M. Rice, Michael P. LaQuaglia, Hans-Guido Wendel, Tomoaki Kato, Faith Tierney, Rory L. Smoot, Mark J. Truty, Jennifer L. Leiting, Martin Hertl, Erik Schadde, Jessica Ellison, Barbara A. Lyons, J. Fraser Glickman, Ethan M. Weinberg, James A. Saltsman, William J. Hammond, Benjamin A. Farber, Arlene M. Hurley, Koen O.A. Vercauteren, Mohammad Kabbani, Eleftherios Michailidis, Solomon Levin, Bassem Shebl, Nicole J.C. Narayan, Ruisi Wang, Ype P. de Jong, Patrick D. Bhola, Denise Ng, Lavoisier Ramos-Espiritu, David Requena, and Gadi Lalazar

Abstract

List of compounds in the primary screen

Published

2023

7. Supplementary Figure from CIC-Mediated Modulation of MAPK Signaling Opposes Receptor Tyrosine Kinase Inhibitor Response in Kinase-Addicted Sarcoma

Author

Romel Somwar, Marc Ladanyi, Julia L. Glade Bender, Elisa de Stanchina, Shinji Kohsaka, Allan J.W. Lui, Marissa S. Mattar, Inna Khodos, Michael V. Ortiz, and Igor Odintsov

Abstract

Supplementary Figure from CIC-Mediated Modulation of MAPK Signaling Opposes Receptor Tyrosine Kinase Inhibitor Response in Kinase-Addicted Sarcoma

Published

2023

8. Table S1 from Comprehensive Genomic Analysis of Translocation Renal Cell Carcinoma Reveals Copy-Number Variations as Drivers of Disease Progression

Author

Ed Reznik, A. Ari Hakimi, Victor Reuter, Paul Russo, Jonathan Coleman, Martin H. Voss, Robert J. Motzer, Timothy A. Chan, Maria I. Carlo, Michael V. Ortiz, Nicole E. Benfante, Daniel E. Nassau, Kyle A. Blum, Andrew W. Silagy, Roy Mano, Amar Sandhu, Vladimir Makarov, Fengshen Kuo, Sounak Gupta, Ritesh R. Kotecha, Alejandro Sanchez, Renzo G. DiNatale, and Julian Marcon

Abstract

Table S1 shows the baseline characteristics of MSK-IMPACT and TCGA cohorts

Published

2023

9. Table S6 from Comprehensive Genomic Analysis of Translocation Renal Cell Carcinoma Reveals Copy-Number Variations as Drivers of Disease Progression

Author

Ed Reznik, A. Ari Hakimi, Victor Reuter, Paul Russo, Jonathan Coleman, Martin H. Voss, Robert J. Motzer, Timothy A. Chan, Maria I. Carlo, Michael V. Ortiz, Nicole E. Benfante, Daniel E. Nassau, Kyle A. Blum, Andrew W. Silagy, Roy Mano, Amar Sandhu, Vladimir Makarov, Fengshen Kuo, Sounak Gupta, Ritesh R. Kotecha, Alejandro Sanchez, Renzo G. DiNatale, and Julian Marcon

Abstract

Table S6 lists molecular features of the multiregional case

Published

2023

10. Data from Comprehensive Genomic Analysis of Translocation Renal Cell Carcinoma Reveals Copy-Number Variations as Drivers of Disease Progression

Author

Ed Reznik, A. Ari Hakimi, Victor Reuter, Paul Russo, Jonathan Coleman, Martin H. Voss, Robert J. Motzer, Timothy A. Chan, Maria I. Carlo, Michael V. Ortiz, Nicole E. Benfante, Daniel E. Nassau, Kyle A. Blum, Andrew W. Silagy, Roy Mano, Amar Sandhu, Vladimir Makarov, Fengshen Kuo, Sounak Gupta, Ritesh R. Kotecha, Alejandro Sanchez, Renzo G. DiNatale, and Julian Marcon

Abstract

Purpose:Translocation renal cell carcinoma (tRCC) is a rare, aggressive renal cell carcinoma (RCC) subtype. There is currently limited understanding on the role of molecular alterations in the pathogenesis and progression of these tumors. We investigated the association between somatic alterations and clinical outcomes in two independent cohorts profiled using DNA sequencing.Experimental Design:Twenty-two tRCCs underwent targeted sequencing [Memorial Sloan Kettering Cancer Center (MSK)-IMPACT]; a subset was profiled using exome-sequencing and combined with exome data from The Cancer Genome Atlas (TCGA) for analysis. The prognostic value of specific somatic aberrations, tumor mutation burden (TMB), and fraction of copy-number–altered genome (FCNAg) was explored. In TCGA cases, neoantigen prediction and immune cell deconvolution were performed using RNA-sequencing and exome data. Overall survival estimates were computed using the Kaplan–Meier method; time-on-treatment was calculated for 14 MSK-IMPACT patients who underwent systemic therapy. Associations between molecular features and outcomes were evaluated using nonparametric testing.Results:Copy-number aberrant tRCCs were associated with poor overall survival (P = 0.03). Pediatric patients had tumors with lower FCNAg (P = 0.01). In one adult case with two chronologically distinct tumor samples sequenced, we confirmed that copy-number events occurred early during evolution. TERT promoter mutations were found exclusively in high-stage tumors. We found that tRCCs displayed distinct angiogenesis and PD-L1 gene expression profiles compared with other RCC subtypes.Conclusions:Tumors molecularly defined by increased copy-number variations were associated with aggressive disease in tRCC. A higher burden of genomic events in adults compared with pediatric cases likely reflects a more aggressive clinical course. The unique immunophenotypic characteristics of tRCC merit further exploration.

Published

2023

11. Figure S1 from Comprehensive Genomic Analysis of Translocation Renal Cell Carcinoma Reveals Copy-Number Variations as Drivers of Disease Progression

Author

Ed Reznik, A. Ari Hakimi, Victor Reuter, Paul Russo, Jonathan Coleman, Martin H. Voss, Robert J. Motzer, Timothy A. Chan, Maria I. Carlo, Michael V. Ortiz, Nicole E. Benfante, Daniel E. Nassau, Kyle A. Blum, Andrew W. Silagy, Roy Mano, Amar Sandhu, Vladimir Makarov, Fengshen Kuo, Sounak Gupta, Ritesh R. Kotecha, Alejandro Sanchez, Renzo G. DiNatale, and Julian Marcon

Abstract

Figure S1 displays the flow chart regarding the patient selection process on the MSK-IMPACT/Exome and TCGA-exome cohorts.

Published

2023

12. Supplementary Table from CIC-Mediated Modulation of MAPK Signaling Opposes Receptor Tyrosine Kinase Inhibitor Response in Kinase-Addicted Sarcoma

Author

Romel Somwar, Marc Ladanyi, Julia L. Glade Bender, Elisa de Stanchina, Shinji Kohsaka, Allan J.W. Lui, Marissa S. Mattar, Inna Khodos, Michael V. Ortiz, and Igor Odintsov

Abstract

Supplementary Table from CIC-Mediated Modulation of MAPK Signaling Opposes Receptor Tyrosine Kinase Inhibitor Response in Kinase-Addicted Sarcoma

Published

2023

13. Supplementary Legends from Comprehensive Genomic Analysis of Translocation Renal Cell Carcinoma Reveals Copy-Number Variations as Drivers of Disease Progression

Author

Ed Reznik, A. Ari Hakimi, Victor Reuter, Paul Russo, Jonathan Coleman, Martin H. Voss, Robert J. Motzer, Timothy A. Chan, Maria I. Carlo, Michael V. Ortiz, Nicole E. Benfante, Daniel E. Nassau, Kyle A. Blum, Andrew W. Silagy, Roy Mano, Amar Sandhu, Vladimir Makarov, Fengshen Kuo, Sounak Gupta, Ritesh R. Kotecha, Alejandro Sanchez, Renzo G. DiNatale, and Julian Marcon

Abstract

Supplementary Legends

Published

2023

14. Table S2 from Comprehensive Genomic Analysis of Translocation Renal Cell Carcinoma Reveals Copy-Number Variations as Drivers of Disease Progression

Author

Ed Reznik, A. Ari Hakimi, Victor Reuter, Paul Russo, Jonathan Coleman, Martin H. Voss, Robert J. Motzer, Timothy A. Chan, Maria I. Carlo, Michael V. Ortiz, Nicole E. Benfante, Daniel E. Nassau, Kyle A. Blum, Andrew W. Silagy, Roy Mano, Amar Sandhu, Vladimir Makarov, Fengshen Kuo, Sounak Gupta, Ritesh R. Kotecha, Alejandro Sanchez, Renzo G. DiNatale, and Julian Marcon

Abstract

Table S2 shows clinical and genomic metadata of MSK-IMPACT and TCGA cohorts

Published

2023

15. Figure S2 from Comprehensive Genomic Analysis of Translocation Renal Cell Carcinoma Reveals Copy-Number Variations as Drivers of Disease Progression

Author

Ed Reznik, A. Ari Hakimi, Victor Reuter, Paul Russo, Jonathan Coleman, Martin H. Voss, Robert J. Motzer, Timothy A. Chan, Maria I. Carlo, Michael V. Ortiz, Nicole E. Benfante, Daniel E. Nassau, Kyle A. Blum, Andrew W. Silagy, Roy Mano, Amar Sandhu, Vladimir Makarov, Fengshen Kuo, Sounak Gupta, Ritesh R. Kotecha, Alejandro Sanchez, Renzo G. DiNatale, and Julian Marcon

Abstract

Figure S2 shows boxplots displaying median values for PD-L1 and angiogenesis gene signatures in KIRP and KIRC cohorts (tRCC vs. non-tRCC)

Published

2023

16. Table S3 from Comprehensive Genomic Analysis of Translocation Renal Cell Carcinoma Reveals Copy-Number Variations as Drivers of Disease Progression

Author

Ed Reznik, A. Ari Hakimi, Victor Reuter, Paul Russo, Jonathan Coleman, Martin H. Voss, Robert J. Motzer, Timothy A. Chan, Maria I. Carlo, Michael V. Ortiz, Nicole E. Benfante, Daniel E. Nassau, Kyle A. Blum, Andrew W. Silagy, Roy Mano, Amar Sandhu, Vladimir Makarov, Fengshen Kuo, Sounak Gupta, Ritesh R. Kotecha, Alejandro Sanchez, Renzo G. DiNatale, and Julian Marcon

Abstract

Table S3 contains the mutation annotation files of the MSK-IMPACT cohort and the exam cohorts

Published

2023

17. Table S5 from Comprehensive Genomic Analysis of Translocation Renal Cell Carcinoma Reveals Copy-Number Variations as Drivers of Disease Progression

Author

Ed Reznik, A. Ari Hakimi, Victor Reuter, Paul Russo, Jonathan Coleman, Martin H. Voss, Robert J. Motzer, Timothy A. Chan, Maria I. Carlo, Michael V. Ortiz, Nicole E. Benfante, Daniel E. Nassau, Kyle A. Blum, Andrew W. Silagy, Roy Mano, Amar Sandhu, Vladimir Makarov, Fengshen Kuo, Sounak Gupta, Ritesh R. Kotecha, Alejandro Sanchez, Renzo G. DiNatale, and Julian Marcon

Abstract

Table S5 contains variables of the univariate survival analysis in MSK-IMPACT and TCGA cohorts

Published

2023

18. Table S4 from Comprehensive Genomic Analysis of Translocation Renal Cell Carcinoma Reveals Copy-Number Variations as Drivers of Disease Progression

Author

Ed Reznik, A. Ari Hakimi, Victor Reuter, Paul Russo, Jonathan Coleman, Martin H. Voss, Robert J. Motzer, Timothy A. Chan, Maria I. Carlo, Michael V. Ortiz, Nicole E. Benfante, Daniel E. Nassau, Kyle A. Blum, Andrew W. Silagy, Roy Mano, Amar Sandhu, Vladimir Makarov, Fengshen Kuo, Sounak Gupta, Ritesh R. Kotecha, Alejandro Sanchez, Renzo G. DiNatale, and Julian Marcon

Abstract

Table S4 contains a list of copy number events on the arm level of MSK-IMPACT and TCGA cohorts

Published

2023

19. Data from CIC-Mediated Modulation of MAPK Signaling Opposes Receptor Tyrosine Kinase Inhibitor Response in Kinase-Addicted Sarcoma

Author

Romel Somwar, Marc Ladanyi, Julia L. Glade Bender, Elisa de Stanchina, Shinji Kohsaka, Allan J.W. Lui, Marissa S. Mattar, Inna Khodos, Michael V. Ortiz, and Igor Odintsov

Abstract

Kinase fusions have been identified in a growing subset of sarcomas, but a lack of preclinical models has impeded their functional analysis as therapeutic targets in the sarcoma setting. In this study, we generated models of sarcomas bearing kinase fusions and assessed their response to molecularly targeted therapy. Immortalized, untransformed human mesenchymal stem cells (HMSC), a putative cell of origin of sarcomas, were modified using CRISPR-Cas9 to harbor a RET chromosomal translocation (HMSC-RET). In parallel, patient-derived models of RET- and NTRK-rearranged sarcomas were generated. Expression of a RET fusion activated common proliferation and survival pathways and transformed HMSC cells. The HMSC-RET models displayed similar behavior and response to therapy as the patient-derived counterparts in vitro and in vivo. Capicua (CIC)-mediated suppression of negative MAPK pathway regulators was identified as a potential mechanism by which these sarcomas compensate for RET or NTRK inhibition. This CIC-mediated feedback reactivation was blocked by coinhibition of the MAPK pathway and RET or NTRK in the respective models. Importantly, the combination of RET and ERK inhibitors was more effective than single agents at blocking tumor growth in vivo. This work offers new tools and insights to improve targeted therapy approaches in kinase-addicted sarcomas and supports upfront combination therapy to prolong responses.Significance:Novel models of kinase-rearranged sarcomas show that MAPK pathway feedback activation dampens responses to tyrosine kinase inhibitors, revealing the potential of combinatorial therapies to combat these tumors.

Published

2023

20. Subclonal somatic copy number alterations emerge and dominate in recurrent osteosarcoma

Author

Michael D. Kinnaman, Simone Zaccaria, Alvin Makohon-Moore, Brian Arnold, Max Levine, Gunes Gundem, Juan E. Arango Ossa, Dominik Glodzik, M. Irene Rodríguez-Sánchez, Nancy Bouvier, Shanita Li, Emily Stockfisch, Marisa Dunigan, Cassidy Cobbs, Umesh Bhanot, Daoqi You, Katelyn Mullen, Jerry Melchor, Michael V. Ortiz, Tara O’Donohue, Emily Slotkin, Leonard H. Wexler, Filemon S. Dela Cruz, Meera Hameed, Julia L. Glade Bender, William D. Tap, Paul A. Meyers, Elli Papaemmanuil, Andrew L. Kung, and Christine A Iacobuzio-Donahue

Subjects

Article

Abstract

Multiple large-scale tumor genomic profiling efforts have been undertaken in osteosarcoma, however, little is known about the spatial and temporal intratumor heterogeneity and how it may drive treatment resistance. We performed whole-genome sequencing of 37 tumor samples from eight patients with relapsed or refractory osteosarcoma. Each patient had at least one sample from a primary site and a metastatic or relapse site. We identified subclonal copy number alterations in all but one patient. We observed that in five patients, a subclonal copy number clone from the primary tumor emerged and dominated at subsequent relapses.MYCgain/amplification was enriched in the treatment-resistant clone in 6 out of 7 patients with more than one clone. Amplifications in other potential driver genes, such asCCNE1,RAD21,VEGFA, andIGF1R, were also observed in the resistant copy number clones. Our study sheds light on intratumor heterogeneity and the potential drivers of treatment resistance in osteosarcoma.SignificanceSubclonal copy number clones emerged and dominated in relapsed osteosarcoma, withMYCgain/amplification being the defining characteristic in our cohort. Selective pressure from neoadjuvant chemotherapy revealed this clone at the time of primary resection, highlighting that genomic profiling at this time may identify clones that are selected for, or determine innate resistance to primary chemotherapy.

Published

2023

21. Identification of a TP53 Deletion in an Undifferentiated Embryonal Sarcoma of the Liver Provides Clinically Relevant Longitudinal Detection of Circulating Tumor DNA

Author

Prachi Kothari, J. Theodore Gerstle, Jinru Shia, Talia Sauerhaft, Anita P. Price, Sejal Morjaria, Neerav Shukla, Michael V. Ortiz, Nancy Bouvier, and M. Irene Rodriguez-Sanchez

Subjects

Cancer Research, Text mining, Oncology, Circulating tumor DNA, business.industry, Cancer research, Undifferentiated (Embryonal) Sarcoma, Medicine, Identification (biology), Case Reports, business

Published

2021

22. Elimusertib outperforms standard of care chemotherapy in preclinical patient-derived pediatric solid tumor models

Author

Fabian Pusch, Heathcliff Dorado García, Robin Xu, Dennis Gürgen, Yi Bei, Lotte Brueckner, Claudia Röefzaad, Jennifer von Stebut, Victor Bardinet, Rocío Chamorro González, Angelika Eggert, Johannes H. Schulte, Patrick Hundsdörfer, Georg Seifert, Kerstin Haase, Beat Schaefer, Marco Wachtel, Anja A. Kühl, Michael V. Ortiz, Antje M. Wengner, Monika Scheer, and Anton G. Henssen

Abstract

The small molecule inhibitor of ataxia telangiectasia and Rad3-related protein (ATR), elimusertib, is currently being tested clinically in various cancer entities in adults and children. Its preclinical anti-tumor activity in pediatric malignancies, however, is largely unknown. We here assessed the preclinical activity of elimusertib in >40 cell lines and >30 patient-derived xenograft (PDX) models derived from common pediatric solid tumor entities. Detailedin vitroandin vivomolecular characterization of the treated models enabled the evaluation of response biomarkers. Pronounced objective response rates were observed for elimusertib monotherapy in PDX, when treated with a regimen currently used in clinical trials. Strikingly, elimusertib outperformed standard of care chemotherapies, particularly in alveolar rhabdomysarcoma PDX. Thus, elimusertib has strong preclinical anti-tumor activity in pediatric solid tumor models, which may translate to clinically meaningful responses in patients.Statement of translational relevanceElimusertib is a small molecule inhibitor of ATR. ATR inhibitors have shown promising results as anticancer agents in adult cancers, but there is limited information on their effectiveness in pediatric solid tumors. Using a cohort of 32 patient-derived xenografts from pediatric solid tumors, we here evaluated the therapeutic potential of elimusertibin vivo. Elimusertib reduced tumor volume growth in all samples. Elimusertib had very limited toxicity and was potent even in tumors with preexisting chemoresistance. Our preclinical data indicates that elimusertib is a safe and potent therapeutic option for pediatric solid tumors. This data may serve as a rationale for the development of pediatric clinical trials for ATR inhibitors.

Published

2022

23. Skin adnexal carcinoma with <scp> BRD3‐NUTM2B </scp> fusion

Author

Michael V. Ortiz, Klaus J. Busam, Dara S. Ross, and Belen Rubio Gonzalez

Subjects

BRD4, Pathology, medicine.medical_specialty, Histology, Invasive carcinoma, business.industry, Poorly differentiated, Sentinel lymph node, Clinical course, Dermatology, medicine.disease, Pathology and Forensic Medicine, Fusion gene, Carcinoma, Medicine, business, Adnexal Carcinoma

Abstract

NUT carcinomas are genetically defined epithelial neoplasms. Most tumors harbor fusions of NUTM1 with BRD4 or BRD3. Their histopathologic features have been predominantly reported as undifferentiated or poorly differentiated squamous cell carcinoma, and clinically they tend to be aggressive cancers. However, recent studies have revealed a broader spectrum of NUTM1-rearranged neoplasms with several new fusion partners and associated variable histopathologic phenotypes and clinical behaviors, including benign and malignant cutaneous poroid tumors. We report herein a primary invasive carcinoma of skin adnexal origin with a previously undescribed fusion between BRD3 and NUTM2B. The tumor occurred on the shoulder of a 7-year-old girl and was excised with negative margins. A sentinel lymph node was positive. After follow-up of 23 months, and without systemic treatment, the child remains free of tumor. This case expands the spectrum of NUT carcinomas by including a skin adnexal variant with follicular infundibular differentiation, a novel genomic aberration, and preliminary evidence of a less aggressive clinical course.

Published

2021

24. Identification of Novel Therapeutic Targets for Fibrolamellar Carcinoma Using Patient-Derived Xenografts and Direct-from-Patient Screening

Author

Ethan M. Weinberg, Michael Torbenson, Nicole J.C. Narayan, William J. Hammond, Gadi Lalazar, Ruisi Wang, Solomon Levin, Denise Ng, Michael P. LaQuaglia, Lavoisier Ramos-Espiritu, David Requena, J. Fraser Glickman, Barbara A. Lyons, Rory L. Smoot, Charles M. Rice, Eleftherios Michailidis, Jessica Ellison, Benjamin A. Farber, Erik Schadde, Hans-Guido Wendel, Koen Vercauteren, Faith Tierney, Arlene Hurley, Patrick Bhola, Mark J. Truty, Tomoaki Kato, Martin Hertl, Philip Coffino, Mohammad Kabbani, Anthony Letai, Jennifer L. Leiting, Ype P. de Jong, Bassem Shebl, Sanford M. Simon, James A. Saltsman, and Michael V. Ortiz

Subjects

Male, Drug, Carcinoma, Hepatocellular, media_common.quotation_subject, Patient screening, Antineoplastic Agents, Article, Mice, medicine, Animals, Humans, Benzofurans, media_common, Sulfonamides, Aniline Compounds, business.industry, Liver Neoplasms, Cancer, medicine.disease, Precision medicine, Xenograft Model Antitumor Assays, Gene Expression Regulation, Neoplastic, On cells, Oncology, Antiapoptotic protein, eIF4A, Cancer research, Female, business, Fibrolamellar Carcinoma, Naphthoquinones

Abstract

To repurpose therapeutics for fibrolamellar carcinoma (FLC), we developed and validated patient-derived xenografts (PDX) from surgical resections. Most agents used clinically and inhibitors of oncogenes overexpressed in FLC showed little efficacy on PDX. A high-throughput functional drug screen found primary and metastatic FLC were vulnerable to clinically available inhibitors of TOPO1 and HDAC and to napabucasin. Napabucasin's efficacy was mediated through reactive oxygen species and inhibition of translation initiation, and specific inhibition of eIF4A was effective. The sensitivity of each PDX line inversely correlated with expression of the antiapoptotic protein Bcl-xL, and inhibition of Bcl-xL synergized with other drugs. Screening directly on cells dissociated from patient resections validated these results. This demonstrates that a direct functional screen on patient tumors provides therapeutically informative data within a clinically useful time frame. Identifying these novel therapeutic targets and combination therapies is an urgent need, as effective therapeutics for FLC are currently unavailable. Significance: Therapeutics informed by genomics have not yielded effective therapies for FLC. A functional screen identified TOPO1, HDAC inhibitors, and napabucasin as efficacious and synergistic with inhibition of Bcl-xL. Validation on cells dissociated directly from patient tumors demonstrates the ability for functional precision medicine in a solid tumor. This article is highlighted in the In This Issue feature, p. 2355

Published

2021

25. Abstract 849: Evaluation of a transcriptomics-based precision oncology platform for patient-therapy alignment in treatment resistant malignancies

Author

Prabhjot S. Mundi, Filemon S. Dela Cruz, Michael V. Ortiz, Adina Grunn, Daniel Diolaiti, Mariano J. Alvarez, Andrew L. Kung, and Andrea Califano

Subjects

Cancer Research, Oncology

Abstract

Background: Predicting in vivo response to antineoplastics remains an elusive challenge. We evaluated two novel transcriptomic-based, tumor-agnostic systems biology tools, OncoTarget and OncoTreat. Both methodologies predict tumor response to a diverse repertoire of clinically relevant oncology drugs, based on tumor Master Regulator (MR) analysis and de novo, experimentally-assessed drug mechanism-of-action in cognate cell lines. Specifically, OncoTarget identifies high-affinity inhibitors of individual MR proteins, while OncoTreat identifies drugs that invert the transcriptional activity of hyper-connected MR modules. Methods: We enrolled patients with several distinct, poor prognosis malignancies that had progressed on multiple standard therapies, and developed low-passage, patient-derived xenograft (PDX) models. We assessed in vivo tumor response to 35 predicted patient-drug pairings in the first seven successfully engrafted models, including three basal-like breast cancers, a pancreatic ductal carcinoma, a KIT/PDGFR wildtype gastrointestinal stromal tumor, a colon cancer, and a recurrent atypical meningioma. Results: Both OncoTarget and OncoTreat produced highly significant 30-day disease control rates (68% and 91%, respectively) and markedly delayed time to treatment failure versus vehicle control by Kaplan-Meier analysis (p < 10−4, log-rank test). Predicted drugs significantly outperformed randomly selected antineoplastic drugs that were not predicted by either methodology. Importantly, of 18 OncoTreat-predicted drugs, 15 showed MR-module inversion in vivo, demonstrating conservation of drug effect on patient tumor MR modules between carefully selected cognate cell lines and PDXs. Further, extensive benchmarking of OncoTarget and OncoTreat on TCGA tumor cohorts and prospectively profiled tumors demonstrates that candidate drugs can be identified for the vast majority of patients. Conclusions: Complementary precision cancer medicine paradigms are needed to broaden the clinical benefit realized through genetic profiling and immunotherapy. We present extensive preclinical validation of two transcriptomic-based approaches. Our results suggest OncoTarget and OncoTreat may substantively complement existing PCM approaches. Importantly, as RNA-based prediction tools are relatively affordable and allow initial predictions within two weeks of receipt of specimen, OncoTarget and OncoTreat are readily scalable for the design of basket and umbrella clinical trials that would enroll diverse patient populations. Citation Format: Prabhjot S. Mundi, Filemon S. Dela Cruz, Michael V. Ortiz, Adina Grunn, Daniel Diolaiti, Mariano J. Alvarez, Andrew L. Kung, Andrea Califano. Evaluation of a transcriptomics-based precision oncology platform for patient-therapy alignment in treatment resistant malignancies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 849.

Published

2023

26. The genetic landscape of SMARCB1 alterations in SMARCB1-deficient spectrum of mesenchymal neoplasms

Author

Josephine K. Dermawan, Samuel Singer, William D. Tap, Benjamin A. Nacev, Ping Chi, Leonard H. Wexler, Michael V. Ortiz, Mrinal Gounder, and Cristina R. Antonescu

Subjects

DNA-Binding Proteins, Chromosomal Proteins, Non-Histone, Chordoma, Humans, Sarcoma, Soft Tissue Neoplasms, SMARCB1 Protein, Neoplasms, Connective and Soft Tissue, In Situ Hybridization, Fluorescence, Myoepithelioma, Rhabdoid Tumor, Pathology and Forensic Medicine, Transcription Factors

Abstract

SMARCB1 biallelic inactivation resulting in SMARCB1/INI1 deficiency drives a wide range of malignancies, including many mesenchymal tumors. However, the specific types of SMARCB1 alterations and spectrum of cooperating mutations among various types of sarcomas has not been well investigated. We profiled SMARCB1 genetic alterations by targeted DNA sequencing and fluorescence in situ hybridization (FISH) in a large cohort of 118 soft tissue and bone tumors, including SMARCB1-deficient sarcomas (78, 66%): epithelioid sarcomas, epithelioid peripheral nerve sheath tumors, poorly differentiated chordomas, malignant rhabdoid tumors, and soft tissue myoepithelial tumors, as well as non-SMARCB1-deficient sarcomas (40, 34%) with various SMARCB1 genetic alterations (mutations, copy number alterations). SMARCB1 loss by immunohistochemistry was present in 94% SMARCB1 pathogenic cases. By combined sequencing and FISH assays, 80% of SMARCB1-deficient tumors harbored homozygous (biallelic) SMARCB1 loss, while 14% demonstrated heterozygous SMARCB1 loss-of-function (LOF) alterations, and 6% showed no demonstrable SMARCB1 alterations. FISH and sequencing were concordant in the ability to detect SMARCB1 loss in 48% of cases. Epithelioid sarcomas most commonly (75%) harbored homozygous deletions, while a subset showed focal intragenic deletions or LOF mutations (nonsense, frameshift). In contrast, most soft tissue myoepithelial tumors (83%) harbored SMARCB1 nonsense point mutations without copy number losses. Additionally, clinically significant, recurrent co-occurring genetic events were rare regardless of histotype. By sequencing, extended 22q copy number loss in genes flanking the SMARCB1 locus (22q11.23) occurred in one-third of epithelioid sarcomas and the majority of poorly differentiated chordomas. Poorly differentiated chordomas and soft tissue myoepithelial tumors showed significantly worse overall and disease-free survival compared to epithelioid sarcomas. Overall, SMARCB1 LOF alterations predominate and account for SMARCB1 protein loss in most cases: majority being biallelic but a subset were heterozygous. In contrast, SMARCB1 alterations of uncertain significance can be seen in diverse sarcomas types and does not indicate a SMARCB1-deficient entity.

Published

2022

27. Chemotherapy‐induced thrombocytopenia in pediatric oncology: Scope of the problem and opportunities for intervention

Author

Melanie D. Degliuomini, Katherine Armstrong, Audrey Mauguen, Emily K. Slotkin, Stephen S. Roberts, Ira J. Dunkel, Mary Clouser, Michael V. Ortiz, and Gerald A. Soff

Subjects

Adolescent, Infant, Anemia, Antineoplastic Agents, Platelet Transfusion, Hematology, Thrombocytopenia, Young Adult, Oncology, Child, Preschool, Neoplasms, Antineoplastic Combined Chemotherapy Protocols, Pediatrics, Perinatology and Child Health, Humans, Child, Retrospective Studies

Abstract

Chemotherapy-induced thrombocytopenia (CIT) is a known hematologic complication of oncology treatment. This single-institution study examines the degree with which CIT impacts specific pediatric solid tumor cohorts reflected by platelet transfusion burden and treatment modifications.Data regarding clinically relevant CIT were obtained via a retrospective chart review of pediatric solid tumor patients treated at Memorial Sloan Kettering Cancer Center from 2013 to 2020. Patients were stratified based on histologic diagnoses as well as chemotherapy regimen. CIT impact was assessed through platelet transfusion means, chemotherapy dose reductions, and treatment delays.A total of 150 patients were included with mean age 10.3 [0.2-21.0]. Patients receiving therapy for high-risk neuroblastoma and localized Ewing sarcoma, both of which included high-dose cyclophosphamide and doxorubicin, required the most platelet transfusions over the treatment course, with a mean of 13 and 9, respectively. Reduced relative dose intensity (RDI), due in part to CIT, was greatest for the patients receiving therapy for high-risk and intermediate-risk rhabdomyosarcoma. Fifty-six percent of high-risk patients experienced a reduced RDI during the final two cycles of treatment and 69% of intermediate-risk patients experienced one during the final four cycles of treatment.The impact of CIT varied by the administered chemotherapy regimens and dose intensity of chemotherapy agents. This study demonstrated that CIT causes both marked platelet transfusion burden as well as treatment reduction and delay within certain solid tumor cohorts. This can lend to future studies aimed at reducing the burden of CIT and targeting the most at-risk populations.

Published

2022

28. Targeting BCL-XL in fibrolamellar hepatocellular carcinoma

Author

Bassem Shebl, Denise Ng, Gadi Lalazar, Carly Rosemore, Tova M. Finkelstein, Rachael D. Migler, Guangrong Zheng, Peiyi Zhang, Caroline S. Jiang, Adam Qureshi, Roger Vaughan, Mark Yarchoan, Ype P. de Jong, Charles M. Rice, Philip Coffino, Michael V. Ortiz, Daohong Zhou, and Sanford M. Simon

Subjects

Carcinoma, Hepatocellular, Liver Neoplasms, Humans, General Medicine, Thrombocytopenia, Piperazines

Abstract

Fibrolamellar hepatocellular carcinoma (FLC) is a rare and often lethal liver cancer with no proven effective systemic therapy. Inhibition of the antiapoptotic protein BCL-XL was found to synergize with a variety of systemic therapies in vitro using cells dissociated from patient-derived xenografts (PDX) of FLC or cells dissociated directly from surgical patient resections. As BCL-XL is physiologically expressed in platelets, prior efforts to leverage this vulnerability in other cancers have been hampered by severe thrombocytopenia. To overcome this toxicity, we treated FLC models with DT2216, a proteolysis targeting chimera (PROTAC) that directs BCL-XL for degradation via the von Hippel-Lindau (VHL) E3 ligase, which is minimally expressed in platelets. The combination of irinotecan and DT2216 in vitro on cells directly acquired from patients or in vivo using several xenografts derived from patients with FLC demonstrated remarkable synergy and at clinically achievable doses not associated with significant thrombocytopenia.

Published

2022

29. Activity of the Highly Specific RET Inhibitor Selpercatinib (LOXO-292) in Pediatric Patients With Tumors Harboring RET Gene Alterations

Author

Ulrike Gerdemann, Steve Smith, Michael C. Cox, A. Lindsay Frazier, Peter M. Anderson, Sandya Govinda Raju, Julia Glade Bender, S. Michael Rothenberg, Alberto S. Pappo, Michael V. Ortiz, Dahlia Henry, and Stéphanie Proust

Subjects

Cancer Research, Text mining, Ret gene, Oncology, business.industry, Cancer research, Medicine, Case Reports, business

Published

2020

30. Comprehensive Genomic Analysis of Translocation Renal Cell Carcinoma Reveals Copy-Number Variations as Drivers of Disease Progression

Author

Timothy A. Chan, Jonathan A. Coleman, Ritesh Kotecha, Maria I. Carlo, Amar Sandhu, Ed Reznik, A. Ari Hakimi, Daniel Nassau, Renzo G. DiNatale, Robert J. Motzer, Martin H. Voss, Fengshen Kuo, Vladimir Makarov, Alejandro Sanchez, Andrew W. Silagy, Kyle A. Blum, Julian Marcon, Michael V. Ortiz, Victor E. Reuter, Roy Mano, Nicole Benfante, Sounak Gupta, and Paul Russo

Subjects

Adult, Male, 0301 basic medicine, Oncology, Cancer Research, medicine.medical_specialty, DNA Copy Number Variations, Angiogenesis, Somatic cell, Kaplan-Meier Estimate, Genome, Disease-Free Survival, Article, DNA sequencing, Pathogenesis, 03 medical and health sciences, 0302 clinical medicine, Renal cell carcinoma, Internal medicine, Exome Sequencing, Biomarkers, Tumor, medicine, Humans, RNA-Seq, Copy-number variation, Child, Carcinoma, Renal Cell, Exome, Neoplasm Staging, business.industry, Age Factors, Middle Aged, Prognosis, medicine.disease, Kidney Neoplasms, 030104 developmental biology, Child, Preschool, 030220 oncology & carcinogenesis, Mutation, Disease Progression, Female, Neoplasm Recurrence, Local, business, Follow-Up Studies

Abstract

Purpose: Translocation renal cell carcinoma (tRCC) is a rare, aggressive renal cell carcinoma (RCC) subtype. There is currently limited understanding on the role of molecular alterations in the pathogenesis and progression of these tumors. We investigated the association between somatic alterations and clinical outcomes in two independent cohorts profiled using DNA sequencing. Experimental Design: Twenty-two tRCCs underwent targeted sequencing [Memorial Sloan Kettering Cancer Center (MSK)-IMPACT]; a subset was profiled using exome-sequencing and combined with exome data from The Cancer Genome Atlas (TCGA) for analysis. The prognostic value of specific somatic aberrations, tumor mutation burden (TMB), and fraction of copy-number–altered genome (FCNAg) was explored. In TCGA cases, neoantigen prediction and immune cell deconvolution were performed using RNA-sequencing and exome data. Overall survival estimates were computed using the Kaplan–Meier method; time-on-treatment was calculated for 14 MSK-IMPACT patients who underwent systemic therapy. Associations between molecular features and outcomes were evaluated using nonparametric testing. Results: Copy-number aberrant tRCCs were associated with poor overall survival (P = 0.03). Pediatric patients had tumors with lower FCNAg (P = 0.01). In one adult case with two chronologically distinct tumor samples sequenced, we confirmed that copy-number events occurred early during evolution. TERT promoter mutations were found exclusively in high-stage tumors. We found that tRCCs displayed distinct angiogenesis and PD-L1 gene expression profiles compared with other RCC subtypes. Conclusions: Tumors molecularly defined by increased copy-number variations were associated with aggressive disease in tRCC. A higher burden of genomic events in adults compared with pediatric cases likely reflects a more aggressive clinical course. The unique immunophenotypic characteristics of tRCC merit further exploration.

Published

2020

31. 11p15.5 epimutations in children with Wilms tumor and hepatoblastoma detected in peripheral blood

Author

Evan R Hathaway, Kenneth Offit, Jennifer Kennedy, Nicole Ali McNeer, Dominik Glodzik, Michael P. La Quaglia, Yelena Kemel, Peter G. Steinherz, Danielle Novetsky Friedman, Alex Kentsis, Alicia Latham, Arupa Ganguly, Todd Heaton, Karen Cadoo, Kelly A. Duffy, Andrew Kung, Michael V. Ortiz, Elli Papaemmanuil, Kaitlyn Tkachuk, Zsofia K. Stadler, Marianne Dubard Gault, Vijai Joseph, Justin T. Gerstle, Megan Harlan Fleischut, Michael Walsh, Elise Fiala, Jennifer M. Kalish, Nancy Bouvier, Neerav Shukla, and Maria I. Carlo

Subjects

Adult, Hepatoblastoma, Male, Cancer Research, Beckwith-Wiedemann Syndrome, Adolescent, Beckwith–Wiedemann syndrome, Wilms Tumor, Germline, Discipline, Genomic Imprinting, Young Adult, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Genetic Predisposition to Disease, 030212 general & internal medicine, Epigenetics, Imprinting (psychology), Child, Germ-Line Mutation, business.industry, Chromosomes, Human, Pair 11, Infant, Wilms' tumor, Original Articles, Methylation, DNA Methylation, medicine.disease, Pediatric cancer, Neoplasm Proteins, Beckwith‐Wiedemann syndrome, Oncology, Pediatric Oncology, Child, Preschool, 030220 oncology & carcinogenesis, Cancer research, Female, Original Article, methylation, business

Abstract

Background Constitutional or somatic mosaic epimutations are increasingly recognized as a mechanism of gene dysregulation resulting in cancer susceptibility. Beckwith‐Wiedemann syndrome is the cancer predisposition syndrome most commonly associated with epimutation and is extremely variable in its phenotypic presentation, which can include isolated tumors. Because to the authors' knowledge large‐scale germline DNA sequencing studies have not included methylation analysis, the percentage of pediatric cancer predisposition that is due to epimutations is unknown. Methods Germline methylation testing at the 11p15.5 locus was performed in blood for 24 consecutive patients presenting with hepatoblastoma (3 patients) or Wilms tumor (21 patients). Results Six individuals with Wilms tumor and 1 patient with hepatoblastoma were found to have low‐level gain of methylation at imprinting control 1, and a child with hepatoblastoma was found to have loss of methylation at imprinting control 2. The loss of methylation at imprinting control 2 was found to be maternally inherited, despite not being associated with any detectable genomic alteration. Conclusions Overall, 33% of patients (8 of 24 patients) with Wilms tumor or hepatoblastoma were found to have an epigenetic susceptibility that was detectable in the blood. It is interesting to note that low‐level gain of methylation at imprinting control 1 predominantly was detected in females with bilateral Wilms tumors. Further studies in larger cohorts are needed to determine the efficacy of testing all patients with Wilms tumor or hepatoblastoma for 11p15.5 epimutations in the blood as part of DNA analysis because this hallmark of predisposition will not be detected by sequencing‐based approaches and detecting a cancer predisposition may modify treatment., In the current study, all patients presenting with Wilms tumor or hepatoblastoma undergo 11p15.5 methylation analysis. Approximately one‐third are found to have an epimutation at this locus that is detectable in peripheral blood.

Published

2020

32. An RNA-Based Precision Oncology Platform for Patient-Therapy Alignment in a Diverse Set of Treatment Resistant Malignancies

Author

Prabhjot S. Mundi, Filemon S. Dela Cruz, Adina Grunn, Daniel Diolaiti, Audrey Mauguen, Allison R. Rainey, Kristina C. Guillan, Armaan Siddiquee, Daoqi You, Ronald Realubit, Charles Karan, Michael V. Ortiz, Eugene F. Douglass, Melissa Accordino, Suzanne Mistretta, Frances Brogan, Jeffrey N. Bruce, Cristina I. Caescu, Richard Carvajal, Katherine Crew, Guarionex Decastro, Mark Heaney, Brian Henick, Dawn Hershman, June Hou, Fabio Iwamoto, Joseph Jurcic, Ravi P. Kiran, Michael Kluger, Teri Kreisl, Nicole Lamanna, Andrew Lassman, Emerson Lim, Gulam A. Manji, Guy McKhann, James McKiernan, Alfred I. Neugut, Kenneth Olive, Todd Rosenblat, Gary K. Schwartz, Catherine Shu, Michael Sisti, Ana Tergas, Reena Vattakalam, Mary Welch, Sven Wenske, Jason D. Wright, Hanina Hibshoosh, Kevin M. Kalinsky, Mahalaxmi Aburi, Peter A. Sims, Mariano J. Alvarez, Andrew L. Kung, and Andrea Califano

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

33. Pre-clinical validation of an RNA-based precision oncology platform for patient-therapy alignment in a diverse set of human malignancies resistant to standard treatments

Author

Prabhjot S. Mundi, Filemon S. Dela Cruz, Adina Grunn, Daniel Diolaiti, Audrey Mauguen, Allison R. Rainey, Kristina C. Guillan, Armaan Siddiquee, Daoqi You, Ronald Realubit, Charles Karan, Michael V. Ortiz, Melissa Accordino, Suzanne Mistretta, Frances Brogan, Jeffrey N. Bruce, Cristina I. Caescu, Richard Carvajal, Katherine Crew, Guarionex Decastro, Mark Heaney, Brian Henick, Dawn Hershman, June Hou, Fabio Iwamoto, Joseph Jurcic, Ravi P. Kiran, Michael Kluger, Teri Kreisl, Nicole Lamanna, Andrew Lassman, Emerson Lim, Gulam A. Manji, Guy McKhann, James McKiernan, Alfred Neugut, Kenneth Olive, Todd Rosenblat, Gary K. Schwartz, Catherine Shu, Michael Sisti, Ana Tergas, Reena Vattakalam, Mary Welch, Sven Wenske, Jason D. Wright, Hanina Hibshoosh, Kevin Kalinsky, Mahalaxmi Aburi, Peter A. Sims, Mariano J. Alvarez, Andrew L. Kung, and Andrea Califano

Subjects

Drug, Oncology, medicine.medical_specialty, business.industry, media_common.quotation_subject, Master regulator, RNA, Joint analysis, Mechanism of action, Precision oncology, Internal medicine, medicine, medicine.symptom, Set (psychology), business, Objective response, media_common

Abstract

Predicting tumor sensitivity to antineoplastics remains an elusive challenge, with no methods demonstrating predictive power. Joint analysis of tumors—from patients with distinct malignancies who had progressed on multiple lines of therapy—and drug perturbation transcriptional profiles predicted sensitivity to 28 of 350 drugs, 26 of which (93%) were confirmed in low-passage, patient-derived xenograft (PDX) models. Drugs were prioritized based on their ability to either invert the activity of individual Master Regulator proteins, with available high-affinity inhibitors, or of the modules they comprise (Tumor-Checkpoints), based on de novo mechanism of action analysis. Of 138 PDX mice enrolled in 16 single and 18 multi-protein treatment arms, a disease control rate (DCR) of 68% and 91 %, and an objective response rate (ORR) of 12% and 17%, were achieved respectively, compared to 6% and 0% in the negative controls arm, with multi-protein drugs achieving significantly more durable responses. Thus, these approaches may effectively complement and expand current precision oncology approaches, as also illustrated by a case study.

Published

2021

34. Validation of a non-oncogene encoded vulnerability to exportin 1 inhibition in pediatric renal tumors

Author

Diego F. Coutinho, Prabhjot S. Mundi, Lianna J. Marks, Chelsey Burke, Michael V. Ortiz, Daniel Diolaiti, Lauren Bird, Kelly L. Vallance, Glorymar Ibáñez, Daoqi You, Matthew Long, Nestor Rosales, Adina Grunn, Andoyo Ndengu, Armaan Siddiquee, Ervin S. Gaviria, Allison R. Rainey, Ladan Fazlollahi, Hajime Hosoi, Andrea Califano, Andrew L. Kung, and Filemon S. Dela Cruz

Subjects

Child, Preschool, Cell Line, Tumor, Humans, General Medicine, Child, Xenograft Model Antitumor Assays, Kidney Neoplasms

Abstract

Malignant rhabdoid tumors (MRTs) and Wilms' tumors (WTs) are rare and aggressive renal tumors of infants and young children comprising ∼5% of all pediatric cancers. MRTs are among the most genomically stable cancers, and although WTs are genomically heterogeneous, both generally lack therapeutically targetable genetic mutations.Comparative protein activity analysis of MRTs (n = 68) and WTs (n = 132) across TCGA and TARGET cohorts, using metaVIPER, revealed elevated exportin 1 (XPO1) inferred activity. In vitro studies were performed on a panel of MRT and WT cell lines to evaluate effects on proliferation and cell-cycle progression following treatment with the selective XPO1 inhibitor selinexor. In vivo anti-tumor activity was assessed in patient-derived xenograft (PDX) models of MRTs and WTs.metaVIPER analysis identified markedly aberrant activation of XPO1 in MRTs and WTs compared with other tumor types. All MRT and most WT cell lines demonstrated baseline, aberrant XPO1 activity with in vitro sensitivity to selinexor via cell-cycle arrest and induction of apoptosis. In vivo, XPO1 inhibitors significantly abrogated tumor growth in PDX models, inducing effective disease control with sustained treatment. Corroborating human relevance, we present a case report of a child with multiply relapsed WTs with prolonged disease control on selinexor.We report on a novel systems-biology-based comparative framework to identify non-genetically encoded vulnerabilities in genomically quiescent pediatric cancers. These results have provided preclinical rationale for investigation of XPO1 inhibitors in an upcoming investigator-initiated clinical trial of selinexor in children with MRTs and WTs and offer opportunities for exploration of inferred XPO1 activity as a potential predictive biomarker for response.This work was funded by CureSearch for Children's Cancer, Alan B. Slifka Foundation, NIH (U01 CA217858, S10 OD012351, and S10 OD021764), Michael's Miracle Cure, Hyundai Hope on Wheels, Cannonball Kids Cancer, Conquer Cancer the ASCO Foundation, Cycle for Survival, Paulie Strong Foundation, and the Grayson Fund.

Published

2022

35. Bromodomain 4 inhibition leads to MYCN downregulation in Wilms tumor

Author

Katherine E Tranbarger Freier, Armaan Siddiquee, Ganapati Srivivasa, Charles Keller, Reshma Purohit, Melvin Lathara, Filemon S. Dela Cruz, Diego F. Coutinho, Michael V. Ortiz, Joel E. Michalek, Andrew L. Kung, Renata Veselská, Brigitte Royer-Pokora, Kevin Matlock, Noah E. Berlow, and Andrew D. Woods

Subjects

Male, BRD4, Down-Regulation, Context (language use), Cell Cycle Proteins, Wilms Tumor, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, Downregulation and upregulation, Medicine, Animals, Humans, Child, Anaplasia, 030304 developmental biology, 0303 health sciences, N-Myc Proto-Oncogene Protein, Cell growth, business.industry, Nuclear Proteins, Wilms' tumor, Hematology, medicine.disease, Kidney Neoplasms, 3. Good health, Bromodomain, Oncology, 030220 oncology & carcinogenesis, Pediatrics, Perinatology and Child Health, Cancer research, Female, medicine.symptom, business, Kidney cancer, Transcription Factors

Abstract

Background Wilms tumor is the most common childhood kidney cancer. Two distinct histological subtypes of Wilms tumor have been described: tumors lacking anaplasia (the favorable subtype) and tumors displaying anaplastic features (the unfavorable subtype). Children with favorable disease generally have a very good prognosis, whereas those with anaplasia are oftentimes refractory to standard treatments and suffer poor outcomes, leading to an unmet clinical need. MYCN dysregulation has been associated with a number of pediatric cancers including Wilms tumor. Procedures In this context, we undertook a functional genomics approach to uncover novel therapeutic strategies for those patients with anaplastic Wilms tumor. Genomic analysis and in vitro experimentation demonstrate that cell growth can be reduced by modulating MYCN overexpression via bromodomain 4 (BRD4) inhibition in both anaplastic and nonanaplastic Wilms tumor models. Results We observed a time-dependent reduction of MYCN and MYCC protein levels upon BRD4 inhibition in Wilms tumor cell lines, which led to cell death and proliferation suppression. BRD4 inhibition significantly reduced tumor volumes in Wilms tumor patient-derived xenograft (PDX) mouse models. Conclusions We suggest that AZD5153, a novel dual-BRD4 inhibitor, can reduce MYCN levels in both anaplastic and nonanaplastic Wilms tumor cell lines, reduces tumor volume in Wilms tumor PDXs, and should be further explored for its therapeutic potential.

Published

2021

36. Prospective pan-cancer germline testing using MSK-IMPACT informs clinical translation in 751 patients with pediatric solid tumors

Author

Yasmin Khakoo, Maria I. Carlo, Elise Fiala, Ozge Ceyhan-Birsoy, Leonard H. Wexler, Nancy Bouvier, Diana Mandelker, Jasmine H. Francis, Alicia Latham, Sowmya Jairam, Marc Ladanyi, Gowtham Jayakumaran, Sameer Farouk Sait, Filemon S. Dela Cruz, Ira J. Dunkel, Michael Walsh, Michael F. Berger, Todd E. Heaton, Ellen M. Basu, Matthias A. Karajannis, Ciyu Yang, Christopher J. Forlenza, Neerav Shukla, Emily K. Slotkin, Julia Glade Bender, Tanya M. Trippett, Nai-Kong Cheung, Danielle Novetsky Friedman, Justin T. Gerstle, Semanti Murkherjee, Ahmet Zehir, Zsofia K. Stadler, Erin E. Salo-Mullen, Maria Luisa Sulis, Yelena Kemel, Karen Cadoo, Sabine Topka, Jennifer Kennedy, Megan Harlan Fleischut, Nikolaus Schultz, Richard J. O'Reilly, Anna Maio, Margaret Sheehan, Shakeel Modak, Michael V. Ortiz, Alex Kentsis, Andrew L. Kung, Paul A. Meyers, Stephen S. Roberts, Kenneth Offit, Angela G. Arnold, Mark E. Robson, David H. Abramson, Stephen Gilheeney, Liying Zhang, Audrey Mauguen, and Joseph Vijai

Subjects

Oncology, Cancer Research, medicine.medical_specialty, Cascade testing, Pediatric Cancer, Germline, Article, Rare Diseases, Clinical Research, Internal medicine, Neoplasms, Genetics, medicine, 2.1 Biological and endogenous factors, Humans, Genetic Predisposition to Disease, Genetic Testing, Prospective Studies, Aetiology, Child, Likely pathogenic, Germ-Line Mutation, Cancer, Pediatric, screening and diagnosis, Pan cancer, business.industry, Human Genome, medicine.disease, Penetrance, Pediatric cancer, Detection, Good Health and Well Being, Germ Cells, Medical genetics, business, 4.2 Evaluation of markers and technologies

Abstract

The spectrum of germline predisposition in pediatric cancer continues to be realized. Here we report 751 solid tumor patients who underwent prospective matched tumor-normal DNA sequencing and downstream clinical use (clinicaltrials.gov NCT01775072). Germline pathogenic and likely pathogenic (P/LP) variants were reported. One or more P/LP variants were found in 18% (138/751) of individuals when including variants in low, moderate, and high penetrance dominant or recessive genes, or 13% (99/751) in moderate and high penetrance dominant genes. 34% of high or moderate penetrance variants were unexpected based on the patient's diagnosis and previous history. 76% of patients with positive results completed a clinical genetics visit, and 21% had at least one relative undergo cascade testing as a result of this testing. Clinical actionability additionally included screening, risk reduction in relatives, reproductive use, and use of targeted therapies. Germline testing should be considered for all children with cancer.

Published

2021

37. Impaired cell fate through gain-of-function mutations in a chromatin reader

Author

Liling Wan, Hongwen Xuan, Angela Liang, Yuanyuan Li, Lijuan Feng, Alex Kentsis, Guochao Chen, Robert G. Roeder, Michael V. Ortiz, Xiaodong Cui, Thomas L. Carroll, Tom W. Muir, Xiaolu Wang, Fan Xuan, C. David Allis, Robert Tjian, Leah Gates, Sara K. Daley, Shasha Chong, Hong Wen, Shu-Ping Wang, Haitao Li, and Wei Li

Subjects

0301 basic medicine, Cellular differentiation, Biology, Cell fate determination, Protein ENL, Mice, 03 medical and health sciences, 0302 clinical medicine, Transcriptional regulation, Animals, Humans, Cell Lineage, Cancer epigenetics, Regulation of gene expression, Multidisciplinary, Cell Differentiation, Nephrons, Chromatin, Cell biology, DNA-Binding Proteins, HEK293 Cells, 030104 developmental biology, Histone, Gain of Function Mutation, 030220 oncology & carcinogenesis, biology.protein, Transcription Factors

Abstract

Modifications of histone proteins have essential roles in normal development and human disease. Recognition of modified histones by ‘reader’ proteins is a key mechanism that mediates the function of histone modifications, but how the dysregulation of these readers might contribute to disease remains poorly understood. We previously identified the ENL protein as a reader of histone acetylation via its YEATS domain, linking it to the expression of cancer-driving genes in acute leukaemia1. Recurrent hotspot mutations have been found in the ENL YEATS domain in Wilms tumour2,3, the most common type of paediatric kidney cancer. Here we show, using human and mouse cells, that these mutations impair cell-fate regulation by conferring gain-of-function in chromatin recruitment and transcriptional control. ENL mutants induce gene-expression changes that favour a premalignant cell fate, and, in an assay for nephrogenesis using murine cells, result in undifferentiated structures resembling those observed in human Wilms tumour. Mechanistically, although bound to largely similar genomic loci as the wild-type protein, ENL mutants exhibit increased occupancy at a subset of targets, leading to a marked increase in the recruitment and activity of transcription elongation machinery that enforces active transcription from target loci. Furthermore, ectopically expressed ENL mutants exhibit greater self-association and form discrete and dynamic nuclear puncta that are characteristic of biomolecular hubs consisting of local high concentrations of regulatory factors. Such mutation-driven ENL self-association is functionally linked to enhanced chromatin occupancy and gene activation. Collectively, our findings show that hotspot mutations in a chromatin-reader domain drive self-reinforced recruitment, derailing normal cell-fate control during development and leading to an oncogenic outcome. The histone-acetylation-reader protein ENL is mutated in a paediatric kidney cancer in such a way that it clusters at target genes, increasing the recruitment of the transcriptional machinery, enhancing transcription and deregulating cell fate during development.

Published

2019

38. HIV Detection via a Carbon Nanotube RNA Sensor

Author

Jackson D. Harvey, Daniel A. Heller, Michael V. Ortiz, Hanan A. Baker, and Alex Kentsis

Subjects

Analyte, Nanotube, Point-of-Care Systems, Bioengineering, Biosensing Techniques, 02 engineering and technology, Carbon nanotube, 01 natural sciences, Article, law.invention, law, Nanosensor, Instrumentation, Fluid Flow and Transfer Processes, Nanotubes, Carbon, Oligonucleotide, Chemistry, Process Chemistry and Technology, 010401 analytical chemistry, HIV, RNA, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Nucleic acid, Biophysics, RNA, Viral, 0210 nano-technology, Biosensor

Abstract

Viral illnesses remain a significant concern in global health. Rapid and quantitative early detection of viral oligonucleotides without the need for purification, amplification, or labeling would be valuable in guiding successful treatment strategies. Single-walled carbon nanotube- based sensors recently demonstrated optical detection of small, free oligonucleotides in biofluids and in vivo, although proteins diminished sensitivity. Here, we discovered an unexpected phenomenon wherein the carbon nanotube optical response to nucleic acids can be enhanced by denatured proteins. Mechanistic studies found that hydrophobic patches of the denatured protein chain interact with the freed nanotube surface after hybridization, resulting in enhanced shifting of the nanotube emission. We employed this mechanism to detect an intact HIV in serum, resulting in specific responses within minutes. This work portends a route towards point-of-care optical detection of viruses or other nucleic acid-based analytes.

Published

2019

39. Abstract 704: Development of a patient-derived xenograft (PDX) modeling program to enable pediatric precision medicine

Author

Filemon S. Dela Cruz, Joseph G. McCarter, Daoqi You, Nancy Bouvier, Xinyi Wang, Kristina C. Guillan, Armaan H. Siddiquee, Katie B. Souto, Hongyan Li, Teng Gao, Dominik Glodzik, Daniel Diolaiti, Neerav N. Shukla, Joachim Silber, Umeshkumar K. Bhanot, Faruk Erdem Kombak, Diego F. Coutinho, Shanita Li, Juan E. Arango Ossa, Juan S. Medina-Martinez, Michael V. Ortiz, Emily K. Slotkin, Michael D. Kinnaman, Sameer F. Sait, Tara J. O'Donohue, Marissa Mattar, Maximiliano Meneses, Michael P. LaQuaglia, Todd E. Heaton, Justin T. Gerstle, Nicola Fabbri, Chelsey M. Burke, Irene M. Rodriquez-Sanchez, Christine A. Iacobuzio-Donahue, Julia L. Glade Bender, Ryan D. Roberts, Jason T. Yustein, Nino C. Rainusso, Brian D. Crompton, Elizabeth Stewart, Alejandro Sweet-Cordero, Leanne C. Sayles, Andrika D. Thomas, Michael H. Roehrl, Elisa de Stanchina, Elli Papaemmanuil, and Andrew L. Kung

Subjects

Cancer Research, Oncology

Abstract

Background: Recapitulation of the full spectrum of genomic changes driving patient tumors have resulted in increased use of patient-derived xenograft (PDX) models in studies of basic cancer biology and preclinical drug development. Given the translational potential of PDXs and limited availability of pediatric cancer models, we established a PDX program to expand the existing collection of pediatric PDXs in the community and enable pre- and post-clinical studies. Methods: PDX generation requests were integrated into clinical workflows to maximize identification of eligible patients for informed consent and tissue collection at Memorial Sloan Kettering Cancer Center. Methodologies for tissue procurement and cryopreservation were optimized to facilitate implantation into host immunodeficient mice and enable multi-institutional tissue exchange for model building. A bioinformatics pipeline was established to allow molecular validation of engrafted PDXs using a next-generation targeted gene panel (MSK-IMPACT) evaluating concordance based on acquired mutations, copy number alterations and clonal structure. Results: Between November 2016 - October 2021, 379 PDX models were developed (265 distinct models) representing 69 discrete diagnoses. Sarcoma represents the most common model type (50 discrete osteosarcoma, 20 desmoplastic small round cell tumor, 14 Ewing sarcoma, 24 rhabdomyosarcoma, 2 CIC/DUX4 and 2 BCOR-rearranged sarcoma) followed by neuroblastoma (n=35), leukemia (n=44), and Wilms tumor (n=15). While the majority of PDXs were established from recurrent or metastatic tissue, 7 paired diagnostic/pre-therapy and post-therapy or relapse models were generated. Genomic characterization of PDXs demonstrate excellent concordance and recapitulation of single nucleotide variants (90%), structural (88%) and copy number variants (94%) between patient tumor and matched PDX. Discrepancies between matched patient/PDX pairs are due to sub-clonal heterogeneity in source tumors with clonal outgrowth in the PDX. Analysis of serial PDX passages also demonstrate stable recapitulation of the genomic profile. Establishment of a diverse PDX collection allowed preclinical evaluation of 10 targeted agents across a spectrum of pediatric tumors and provided the preclinical rationale for 3 investigator-initiated pediatric clinical trials. Conclusions: Investment in the development of a phenotypically diverse and biologically faithful collection of pediatric PDX models enables the goals of precision medicine. Optimization of PDX workflows and methods has also enabled the development of a pediatric PDX consortium (PROXC - Pediatric Research in Oncology Xenografting Consortium) to further support the development of pre- and post-clinical studies for pediatric cancer. Citation Format: Filemon S. Dela Cruz, Joseph G. McCarter, Daoqi You, Nancy Bouvier, Xinyi Wang, Kristina C. Guillan, Armaan H. Siddiquee, Katie B. Souto, Hongyan Li, Teng Gao, Dominik Glodzik, Daniel Diolaiti, Neerav N. Shukla, Joachim Silber, Umeshkumar K. Bhanot, Faruk Erdem Kombak, Diego F. Coutinho, Shanita Li, Juan E. Arango Ossa, Juan S. Medina-Martinez, Michael V. Ortiz, Emily K. Slotkin, Michael D. Kinnaman, Sameer F. Sait, Tara J. O'Donohue, Marissa Mattar, Maximiliano Meneses, Michael P. LaQuaglia, Todd E. Heaton, Justin T. Gerstle, Nicola Fabbri, Chelsey M. Burke, Irene M. Rodriquez-Sanchez, Christine A. Iacobuzio-Donahue, Julia L. Glade Bender, Ryan D. Roberts, Jason T. Yustein, Nino C. Rainusso, Brian D. Crompton, Elizabeth Stewart, Alejandro Sweet-Cordero, Leanne C. Sayles, Andrika D. Thomas, Michael H. Roehrl, Elisa de Stanchina, Elli Papaemmanuil, Andrew L. Kung. Development of a patient-derived xenograft (PDX) modeling program to enable pediatric precision medicine [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 704.

Published

2022

40. Exploiting a PAX3-FOXO1-induced synthetic lethal ATR dependency for rhabdomyosarcoma therapy

Author

Yi Bei, Christian Furth, Koshi Imami, Jana Rolff, Angelika Eggert, Johannes H. Schulte, Jennifer von Stebut, Monika Scheer, Konstantin Helmsauer, Matthias Selbach, Victor Bardinet, Michael V. Ortiz, Heathcliff Dorado Garcia, Andrej Lissat, Dennis Gürgen, Georg Seifert, Patrick Hundsoerfer, Anton G. Henssen, Kerstin Haase, Joachim G. Schulz, Antje Margret Wengner, Fabian Pusch, Marieluise Kirchner, Philipp Mertins, Glorymar Ibáñez, Birgit Lala, Natalie Timme, Ian C. MacArthur, Rocío Chamorro González, and Celine Y. Chen

Subjects

medicine.anatomical_structure, Oncogene, Chemistry, In vivo, Poly ADP ribose polymerase, Cell, Cancer research, medicine, Alveolar rhabdomyosarcoma, Progenitor cell, Rhabdomyosarcoma, medicine.disease, In vitro

Abstract

Pathognomonic PAX3-FOXO1 fusion oncogene expression is associated with poor outcome in rhabdomyosarcoma. Combining genome-wide CRISPR screening with cell- based functional genetic approaches, we here provide evidence that PAX3-FOXO1 induces replication stress, resulting in a synthetic lethal dependency to ATR-mediated DNA damage-response signaling in rhabdomyosarcoma. Expression of PAX3-FOXO1 in muscle progenitor cells was not only sufficient to induce hypersensitivity to ATR inhibition, but PAX3-FOXO1-expressing rhabdomyosarcoma cells also exhibited increased sensitivity to structurally diverse inhibitors of ATR, a dependency that could be validated genetically. Mechanistically, ATR inhibition led to replication stress exacerbation, decreased BRCA1 phosphorylation and reduced homologous recombination-mediated DNA repair pathway activity. Consequently, ATR inhibitor treatment increased sensitivity of rhabdomyosarcoma cells to PARP inhibitionin vitro, and combined ATR and PARP inhibition induced regression of primary patient-derived alveolar rhabdomyosarcoma xenograftsin vivo. Moreover, a genome-wide CRISPR activation screen (CRISPRa) identifiedFOSgene family members as inducers of resistance against ATR inhibitors. Mechanistically,FOSgene family members reduced replication stress in rhabdomyosarcoma cells. Lastly, compassionate use of ATR inhibitors in two pediatric patients suffering from relapsed PAX3-FOXO1-expressing alveolar rhabdomyosarcoma showed signs of tolerability, paving the way to clinically exploit this novel synthetic lethal dependency in rhabdomyosarcoma.

Published

2020

41. Prohibitin promotes de-differentiation and is a potential therapeutic target in neuroblastoma

Author

Heathcliff Dorado Garcia, Filippos Klironomos, Joern Toedling, Angelika Eggert, Michael V. Ortiz, Johannes H. Schulte, Yi Bei, Alex Kentsis, Jana Rolff, Ian C. MacArthur, and Anton G. Henssen

Subjects

0301 basic medicine, MAP Kinase Signaling System, Pyridones, Apoptosis, macromolecular substances, Pyrimidinones, Biology, 03 medical and health sciences, Mice, Neuroblastoma, 0302 clinical medicine, Cell Line, Tumor, Gene expression, Prohibitins, medicine, Animals, Humans, RNA, Messenger, RNA-Seq, Prohibitin, Gene, Protein Kinase Inhibitors, Cell Proliferation, Oncogene, Whole Genome Sequencing, Sequence Analysis, RNA, technology, industry, and agriculture, Cell Differentiation, General Medicine, Cell Cycle Checkpoints, Cell Dedifferentiation, medicine.disease, Xenograft Model Antitumor Assays, Chromosome 17 (human), Repressor Proteins, 030104 developmental biology, 030220 oncology & carcinogenesis, Child, Preschool, Cancer research, Ectopic expression, lipids (amino acids, peptides, and proteins), Chromosomes, Human, Pair 17, Research Article

Abstract

Gain of the long arm of chromosome 17 (17q) is a cytogenetic hallmark of high-risk neuroblastoma, yet its contribution to neuroblastoma pathogenesis remains incompletely understood. Combining whole-genome and RNA sequencing of neuroblastomas, we identified the prohibitin (PHB) gene as highly expressed in tumors with 17q gain. High PHB expression correlated with poor prognosis and was associated with loss of gene expression programs promoting neuronal development and differentiation. PHB depletion induced differentiation and apoptosis and slowed cell cycle progression of neuroblastoma cells, at least in part through impaired ERK1/2 activation. Conversely, ectopic expression of PHB was sufficient to increase proliferation of neuroblastoma cells and was associated with suppression of markers associated with neuronal differentiation and favorable neuroblastoma outcome. Thus, PHB is a 17q oncogene in neuroblastoma that promotes tumor cell proliferation, and de-differentiation.

Published

2019

42. Appendectomy Versus Observation for Appendicitis in Neutropenic Children With Cancer

Author

Andreana Bütter, Katheryn Hope Wilkinson, Katrina M Morgan, Hau D. Le, Kevin C. Janek, Abigail K. Zamora, Sarah Dobrozsi, Oswaldo Gomez Quevedo, Nelson Piché, Kaitlyn E. Wong, Andrew J. Murphy, Rosemarie Mastropolo, Jacob D. Davidson, Eugene S. Kim, Akila B. Ramaraj, Whitney Weinschenk, Dave R. Lal, Joseph T. Murphy, Jennifer H. Aldrink, Rebecca Stark, Elisabeth T. Tracy, Scott S. Short, Jenna Rossoff, Michael V. Ortiz, Benjamin T. Many, Jo Cooke-Barker, Lindsay J. Talbot, Nawar Dakhallah, Eveline Lapidus-Krol, Reto M. Baertschiger, Sarah Jane Commander, Catherine J. Goodhue, Todd E. Heaton, Marcus M. Malek, Roshni Dasgupta, Rebecka L. Meyers, Hannah N. Rinehardt, Timothy B Lautz, and Annie Le-Nguyen

Subjects

Male, medicine.medical_specialty, Adolescent, medicine.medical_treatment, Perforation (oil well), Neutropenia, 03 medical and health sciences, 0302 clinical medicine, Neoplasms, 030225 pediatrics, Pediatric surgery, medicine, Appendectomy, Humans, Chemotherapy-Induced Febrile Neutropenia, Child, Watchful Waiting, Retrospective Studies, Chemotherapy, business.industry, Infant, Cancer, Appendicitis, medicine.disease, Chemotherapy regimen, Surgery, Child, Preschool, Pediatrics, Perinatology and Child Health, Female, Complication, business

Abstract

BACKGROUND: Optimal management of neutropenic appendicitis (NA) in children undergoing cancer therapy remains undefined. Management strategies include upfront appendectomy or initial nonoperative management. We aimed to characterize the effect of management strategy on complications and length of stay (LOS) and describe implications for chemotherapy delay or alteration. METHODS: Sites from the Pediatric Surgery Oncology Research Collaborative performed a retrospective review of children with NA over a 6-year period. RESULTS: Sixty-six children, with a median age of 11 years (range 1–17), were identified with NA while undergoing cancer treatment. The most common cancer diagnoses were leukemia (62%) and brain tumor (12%). Upfront appendectomy was performed in 41% of patients; the remainder had initial nonoperative management. Rates of abscess or perforation at diagnosis were equivalent in the groups (30% vs 24%; P = .23). Of patients who had initial nonoperative management, 46% (17 of 37) underwent delayed appendectomy during the same hospitalization. Delayed appendectomy was due to failure of initial nonoperative management in 65% (n = 11) and count recovery in 35% (n = 6). Cancer therapy was delayed in 35% (n = 23). Initial nonoperative management was associated with a delay in cancer treatment (46% vs. 22%, P = .05) and longer LOS (29 vs 12 days; P = .01). Patients who had initial nonoperative management and delayed appendectomy had a higher rate of postoperative complications (P CONCLUSIONS: In pediatric patients with NA from oncologic treatment, upfront appendectomy resulted in lower complication rates, reduced LOS, and fewer alterations in chemotherapy regimens compared to initial nonoperative management.

Published

2021

43. Integrating Genomics Into Clinical Pediatric Oncology Using the Molecular Tumor Board at the Memorial Sloan Kettering Cancer Center

Author

Stephen S. Roberts, Marc Ladanyi, Neerav Shukla, Meera Hameed, Rachel Kobos, Alex Kentsis, Emily K. Slotkin, Michael F. Berger, David B. Solit, Michael V. Ortiz, and Michael Walsh

Subjects

0301 basic medicine, Oncology, Clinical genomics, medicine.medical_specialty, business.industry, medicine.medical_treatment, Retrospective cohort study, Genomics, Hematology, Precision medicine, 3. Good health, Targeted therapy, Clinical trial, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, 030220 oncology & carcinogenesis, Internal medicine, Pediatrics, Perinatology and Child Health, Pediatric oncology, Medicine, Tumor board, business

Abstract

Background Pediatric oncologists have begun to leverage tumor genetic profiling to match patients with targeted therapies. At the Memorial Sloan Kettering Cancer Center (MSKCC), we developed the Pediatric Molecular Tumor Board (PMTB) to track, integrate, and interpret clinical genomic profiling and potential targeted therapeutic recommendations. Procedure This retrospective case series includes all patients reviewed by the MSKCC PMTB from July 2014 to June 2015. Cases were submitted by treating oncologists and potential treatment recommendations were based upon the modified guidelines of the Oxford Centre for Evidence-Based Medicine. Results There were 41 presentations of 39 individual patients during the study period. Gliomas, acute myeloid leukemia, and neuroblastoma were the most commonly reviewed cases. Thirty nine (87%) of the 45 molecular sequencing profiles utilized hybrid-capture targeted genome sequencing. In 30 (73%) of the 41 presentations, the PMTB provided therapeutic recommendations, of which 19 (46%) were implemented. Twenty-one (70%) of the recommendations involved targeted therapies. Three (14%) targeted therapy recommendations had published evidence to support the proposed recommendations (evidence levels 1–2), eight (36%) recommendations had preclinical evidence (level 3), and 11 (50%) recommendations were based upon hypothetical biological rationales (level 4). Conclusions The MSKCC PMTB enabled a clinically relevant interpretation of genomic profiling. Effective use of clinical genomics is anticipated to require new and improved tools to ascribe pathogenic significance and therapeutic actionability. The development of specific rule-driven clinical protocols will be needed for the incorporation and evaluation of genomic and molecular profiling in interventional prospective clinical trials.

Published

2016

44. Intracardiac Low-grade Sarcoma Following Treatment for Ewing Sarcoma

Author

Meera Hameed, Emily K. Slotkin, Leonard H. Wexler, Alexander J. Chou, Anita P. Price, Paul A. Meyers, Alex Kentsis, Heather Magnan, Ahmet Zehir, Jennifer Kennedy, Michael V. Ortiz, Suzanne L. Wolden, Todd E. Heaton, Srikanth R. Ambati, Neerav Shukla, Michael F. Berger, Leonard N. Girardi, and Michael Walsh

Subjects

Male, 0301 basic medicine, Pathology, medicine.medical_specialty, Adolescent, Somatic cell, Biopsy, Sarcoma, Ewing, Article, Intracardiac injection, Heart Neoplasms, 03 medical and health sciences, 0302 clinical medicine, Germline mutation, Antineoplastic Combined Chemotherapy Protocols, Recurrent Ewing Sarcoma, Humans, Medicine, Digital polymerase chain reaction, medicine.diagnostic_test, business.industry, RNA-Binding Proteins, Neoplasms, Second Primary, Sarcoma, Hematology, medicine.disease, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Mutation, Pediatrics, Perinatology and Child Health, Calmodulin-Binding Proteins, Spindle cell sarcoma, RNA-Binding Protein EWS, Tomography, X-Ray Computed, business

Abstract

A 16-year-old male was diagnosed with Ewing sarcoma of the ribcage with pulmonary metastases. Six months after completion of scheduled therapy, he was found to have a new intracardiac mass, presumed recurrent Ewing sarcoma. EWSR1 fusion was not detected by droplet digital polymerase chain reaction from blood plasma. After no improvement with salvage chemotherapy, he underwent surgical resection that identified a low-grade spindle cell sarcoma. Despite the near-synchronous presentation of 2 unrelated sarcomas, extensive genomic analyses did not reveal any unifying somatic or germline mutations nor any apparent cancer predisposition. This case also highlights the potential role of utilizing plasma cell-free DNA for diagnosing tumors in locations where biopsy confers high morbidity.

Published

2017

45. Abstract A25: Cell-free DNA for noninvasive molecular profiling and response monitoring in pediatric cancers

Author

Julie L. Yang, Dennis Stephens, Caitlin Stewart, Michael F. Berger, Shakeel Modak, Emily K. Slotkin, Dana W.Y. Tsui, Erika Gedvilaite, Michael V. Ortiz, Prachi Kothari, and Neerav Shukla

Subjects

Oncology, Neuroblastoma RAS viral oncogene homolog, Cancer Research, medicine.medical_specialty, biology, business.industry, medicine.disease, Pediatric cancer, medicine.anatomical_structure, Cell-free fetal DNA, Neuroblastoma, Internal medicine, biology.protein, Medicine, Mdm2, Osteosarcoma, TSC1, business, Exome sequencing

Abstract

Background: Cell-free DNA (cfDNA) is a promising tool to noninvasively profile the cancer genome and track response to treatment. Its utility in adult cancers has been widely demonstrated; however, evidence in pediatric cancers is relatively limited. To address that, we performed targeted sequencing to screen for actionable mutations in plasma, and evaluated the utility of shallow whole-genome sequencing (sWGS) as (i) a tool to estimate cfDNA tumor fractions to guide data interpretation in plasma, and (ii) a mutation-agnostic approach to monitor treatment responses and at the same time screen for actionable somatic copy number alterations from cfDNA, in pediatric cancer patients with neuroblastoma (NB), osteosarcoma (OS), and Wilms’ tumor (WT). Methods: In the first part of the study, we analyzed cfDNA by a ~400 gene targeted sequencing assay, MSK-IMPACT, and found mutations in 62% (31/50) of patients. In parallel, we performed sWGS (~0.1x) in the same cfDNA samples to estimate the fraction of tumor-derived DNA (cfDNA tumor fraction), which is established based on global copy number alterations and distinct tumor-derived cfDNA size profiles as features, that we learned in an independent adult cancer dataset using logistic regression model. Then we further evaluated the utility of sWGS-estimated tumor fractions to track responses in 28 patients (18 OS, 7 WT, and 3 NB) for whom longitudinal plasma samples were available. Results: Plasma samples with an estimated high tumor fraction tend to show better agreement between tumor and plasma. Among the three cancer types, MSK-IMPACT targeted sequencing analysis of cfDNA from relapsed neuroblastoma revealed actionable mutations, including alterations in ALK, NRAS, and TSC1. Wilms’ tumor cfDNA revealed prognostic biomarkers, such as somatic mutations in TP53 and 1q gains, which are associated with worse prognosis and require more aggressive therapy. The sWGS analysis also revealed somatic focal copy number amplifications that are potentially actionable such as CDK4 and MDM2 from the OS patients. When analyzing longitudinal plasma samples, we found that sWGS-derived cfDNA tumor fractions closely tracked the dynamics of disease response to treatment and surgical resection. In two OS patients where no mutations were detected by targeted sequencing but cfDNA tumor fraction was high, we performed exome sequencing on the cfDNA and found BRCA signature, which is potentially actionable in OS. Conclusions: Our results show that plasma profiling reveals actionable alterations across different types of pediatric cancers. Gene-panel targeted sequencing can reveal important somatic mutations, and low-pass sWGS allows longitudinal monitoring of tumor responses and detects clinically relevant copy number alterations. It also helps to identify cfDNA samples that have sufficient tumor-derived DNA for more comprehensive molecular profiling such as exome sequencing to screen for mutational signature that has clinical implication. Citation Format: Prachi Kothari, Julie Yang, Caitlin Stewart, Erika Gedvilaite, Dennis Stephens, Michael F. Berger, Michael V. Ortiz, Neerav Shukla, Emily Slotkin, Shakeel Modak, Dana W. Y. Tsui. Cell-free DNA for noninvasive molecular profiling and response monitoring in pediatric cancers [abstract]. In: Proceedings of the AACR Special Conference on Advances in Liquid Biopsies; Jan 13-16, 2020; Miami, FL. Philadelphia (PA): AACR; Clin Cancer Res 2020;26(11_Suppl):Abstract nr A25.

Published

2020

46. Preclinical evaluation of XPO1 inhibition in Wilms tumors

Author

Andrea Califano, Armaan Siddiquee, Daniel Diolaiti, Andrew L. Kung, Prabhjot Mundi, Kristina Guillan, Michael V. Ortiz, Mahalaxmi Aburi, Filemon S. Dela Cruz, Lianna J. Marks, and Daoqi You

Subjects

Cancer Research, XPO1, medicine.anatomical_structure, Oncology, business.industry, Cancer research, Medicine, business, Nuclear export signal, Nucleus, Function (biology)

Abstract

3580 Background: XPO1 is a nuclear export protein that selectively transports tumor and growth regulatory proteins out of the nucleus, thereby effectively inhibiting their function. We previously utilized the Virtual Inference of Protein-activity by Enriched Regulon analysis (VIPER) algorithm to discover that malignant rhabdoid tumors were dependent upon XPO1 inhibition and then evaluated a preclinical cohort using selinexor (KPT-330), the first-in-class selective inhibitor of nuclear export, to demonstrate that XPO1 inhibition was sufficient to cause cell cycle arrest, apoptosis, and disease control in multiple cell line and patient derived xenograft (PDXs) models. Our subsequent analysis revealed that the most common childhood kidney tumor, Wilms tumor, has even high higher inferred activity of XPO1 than rhabdoid tumors leading to our hypothesis that XPO1 inhibition is an effective therapeutic strategy to treat Wilms tumors. Methods: A panel of 9 Wilms tumor cell lines and 3 Wilms tumor PDXs were genomically characterized and tested to evaluate the pre-clinical efficacy of XPO1 inhibition in Wilms tumors. Results: Proliferation rate, increased XPO1 protein expression, and loss of function mutations in TP53 correlated with in vitro Wilms tumor cell line sensitivity to selinexor. Evaluation of co-segregation of all single nucleotide variant changes using with inferred activity of XPO1 on VIPER in all TGCA tumors demonstrates a strong association with TP53 alterations. XPO1 inhibition was effective in all Wilms tumor models tested, most significantly in MSKREN-57196, a favorable histology Wilms tumor PDX with somatic 1q gain as well as WTX and MYCN mutations, as well as in MSKREN-31827, a diffusely anaplastic TP53 mutant Wilms tumor PDX. Eltanexor (KPT-8602) is an XPO1 inhibitor with decreased CNS penetration and an improved toxicity profile; this drug was tested in these in vivo models and found to be at least as effective as selinexor. Conclusions: Somatic 1q gain in favorable histology Wilms tumors and TP53 mutations in diffusely anaplastic Wilms tumors have a particularly poor prognosis in the relapsed setting. Our study demonstrates that XPO1 inhibition may provide a rational therapeutic option to treat such high-risk Wilms tumors. Future clinical trials evaluating XPO1 inhibitors should evaluate its efficacy in children with relapsed Wilms tumors.

Published

2020

47. Immunotherapeutic Targeting of GPC3 in Pediatric Solid Embryonal Tumors

Author

Leonard H. Wexler, Julia Glade Bender, Michael V. Ortiz, Stephen S. Roberts, and Neerav Shukla

Subjects

0301 basic medicine, Cancer Research, Hepatoblastoma, glypican 3, medicine.drug_class, medicine.medical_treatment, Mini Review, Monoclonal antibody, lcsh:RC254-282, Glypican 3, hepatoblastoma (HB), 03 medical and health sciences, chemistry.chemical_compound, neuroblastoma, 0302 clinical medicine, Neuroblastoma, medicine, Wilms tumor (WT), Rhabdomyosarcoma, rhabdoid tumor, business.industry, Wilms' tumor, Immunotherapy, Heparan sulfate, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, 3. Good health, 030104 developmental biology, chemistry, Oncology, germ cell tumors (GCT), 030220 oncology & carcinogenesis, Cancer research, rhabdomyosarcoma, immunotherapy, business

Abstract

Glypican 3 (GPC3) is a heparan sulfate proteoglycan and cell surface oncofetal protein which is highly expressed on a variety of pediatric solid embryonal tumors including the majority of hepatoblastomas, Wilms tumors, rhabdoid tumors, certain germ cell tumor subtypes, and a minority of rhabdomyosarcomas. Via both its core protein and heparan sulfate side chains, GPC3 activates the canonical Wnt/β-catenin pathway, which is frequently overexpressed in these malignancies. Loss of function mutations in GPC3 lead to Simpson-Golabi-Behmel Syndrome, an X-linked overgrowth condition with a predisposition to GPC3-expressing cancers including hepatoblastoma and Wilms tumor. There are several immunotherapeutic approaches to targeting GPC3, including vaccines, monoclonal antibodies, antibody-drug conjugates, bispecific antibodies, cytolytic T lymphocytes, and CAR T cells. These therapies offer a potentially novel means to target these pediatric solid embryonal tumors. A key pediatric-specific consideration of GPC3-targeted immunotherapeutics is that GPC3 can be physiologically expressed in normal tissues during the first year of life, particularly in the liver and kidney. In summary, this article reviews the current evidence for targeting childhood cancers with GPC3-directed immunotherapies.

Published

2018

48. Maintenance chemotherapy to reduce the risk of a metachronous Wilms tumor in children with bilateral nephroblastomatosis

Author

Christopher J. Forlenza, Kavitha Ramaswamy, Neerav Shukla, Todd E. Heaton, Michael P. LaQuaglia, Rachel Kobos, Shannon Fernandez-Ledon, Peter G. Steinherz, and Michael V. Ortiz

Subjects

Male, medicine.medical_specialty, Vincristine, medicine.medical_treatment, Disease, Wilms Tumor, Article, 03 medical and health sciences, 0302 clinical medicine, Antineoplastic Combined Chemotherapy Protocols, medicine, Humans, Anaplasia, Nephroblastomatosis, Retrospective Studies, Chemotherapy, Metachronous Wilms Tumor, business.industry, Infant, Wilms' tumor, Neoplasms, Second Primary, Hematology, medicine.disease, Prognosis, Kidney Neoplasms, Survival Rate, Regimen, Oncology, 030220 oncology & carcinogenesis, Child, Preschool, Pediatrics, Perinatology and Child Health, Dactinomycin, Female, Radiology, medicine.symptom, business, 030215 immunology, medicine.drug, Follow-Up Studies

Abstract

From 2009 to 2018, 10 consecutive patients with Wilms tumors and bilateral nephroblastomatosis, who had completed standard therapy, were provided a maintenance chemotherapy regimen consisting of vincristine and dactinomycin every 3 months for 12 months in order to prevent an early metachronous Wilms tumor. One patient (10%) with Beckwith-Wiedemann syndrome developed a new tumor, without anaplasia. There were no significant toxicities reported during maintenance. All patients are currently alive with no evidence of disease. Further investigations are recommended to determine the utility of this approach.

Published

2018

49. Retinoblastoma

Author

Michael V. Ortiz and Ira J. Dunkel

Subjects

genetic structures, Retinal Neoplasms, Pediatrics, Perinatology and Child Health, Retinoblastoma, Humans, sense organs, Neurology (clinical), Child, eye diseases

Abstract

Retinoblastoma is the most common primary intraocular malignancy of childhood. It typically presents with leukocoria or strabismus. In later stages of the disease, the child may exhibit proptosis, buphthalmos, or hypopyon. The pathognomonic molecular aberration is a loss of function mutation in the RB1 gene on chromosome 13q. The degree of tumor involvement within the eye is defined by its group. Grouping was historically done with Reese-Ellsworth System. Recent therapeutic advances have led to the development of a new grouping system, the International Classification of Retinoblastoma (ICRB). In cases of extraocular extension and metastatic disease, the degree of tumor involvement outside of the eye is defined by its stage. Retinoblastoma is staged using the International Retinoblastoma Staging System (IRSS). Children with intraocular retinoblastoma have an excellent overall and ocular survival. In order to avoid the morbidity of enucleation and external beam radiation, treatments for isolated intraocular retinoblastoma have progressively moved toward targeted local modalities. Patients with extraocular involvement, such as those with trilateral retinoblastoma, have a poorer prognosis. The majority of these higher stage patients are now able to be cured with combination chemotherapy.

Published

2015

50. First experience of LOXO-292 in the management of pediatric patients with RET-altered cancers

Author

Dahlia Henry, Alberto S. Pappo, Julia Glade Bender, Ulrike Gerdemann, Michael V. Ortiz, Hyoung Jin Kang, Steven J. Smith, Young Ah Lee, A. Lindsay Frazier, Michael C. Cox, Sandya Govinda Raju, and Stephen M. Rothenberg

Subjects

03 medical and health sciences, Cancer Research, 0302 clinical medicine, Oncology, business.industry, Kinase, 030220 oncology & carcinogenesis, Point mutation, Cancer research, Medicine, business, 030215 immunology

Abstract

10045 Background: Genomic alterations of RET kinase, including chromosomal fusions and activating point mutations, have been identified as oncogenic drivers in pediatric and adult cancers. Multikinase inhibitors have modest activity against RET-altered cancers and are associated with significant toxicity. LOXO-292 is a potent, ATP-competitive, small molecule RET inhibitor with high selectivity for RET, preclinical activity in the brain and excellent pharmacokinetic properties. In an ongoing phase 1/2 study of adult and adolescent patients with advanced RET-altered cancers, LOXO-292 demonstrated marked antitumor activity and was well tolerated. Methods: Pediatric patients with RET-altered cancers who were unable to access LOXO-292 through a phase 1/2 clinical trial were enrolled using FDA-allowed, IRB-approved single patient protocols . Patients received LOXO-292 (capsule/liquid formulation) orally, continuously, at a starting dose of 90 mg/m2 BID. Response was assessed locally by investigators. Results: As of January 31, 2019, 4 female patients aged 13 months–8 years were enrolled from the Republic of Korea (papillary thyroid cancer, n = 1) and the USA (infantile myofibroma/hemangiopericytoma, n = 1; congenital mesoblastic nephroma/infantile fibrosarcoma, n = 1; lipofibromatosis, n = 1). All tumors harbored RET gene fusions (5′ partners: CCDC6, MYH10, SPECC1L, and NCOA4, respectively), detected by next-generation sequencing. Previous therapies included surgery/iodine 131 (n = 1); vandetanib (n = 1); surgery/chemotherapy (n = 1); 1 patient was treatment-naïve. Duration of treatment ranged from 3–120 days and all patients remain on treatment. There were no dose modifications or discontinuations due to adverse events. There were no treatment-related adverse events ≥ grade 3. Two patients who were evaluable for response had partial responses (both ongoing, 1 confirmed, 1 pending confirmation). Conclusions: These preliminary data from a real-world setting suggest that LOXO-292 is effective and safe in pediatric patients whose tumors harbor RET gene fusions.

Published

2019