TY - JOUR
T1 - Establishment of Patient-Derived Succinate Dehydrogenase–Deficient Gastrointestinal Stromal Tumor Models for Predicting Therapeutic Response
AU - Yebra, Mayra
AU - Bhargava, Shruti
AU - Kumar, Avi
AU - Burgoyne, Adam M.
AU - Tang, Chih Min
AU - Yoon, Hyunho
AU - Banerjee, Sudeep
AU - Aguilera, Joseph
AU - Cordes, Thekla
AU - Sheth, Vipul
AU - Noh, Sangkyu
AU - Ustoy, Rowan
AU - Li, Sam
AU - Advani, Sunil J.
AU - Corless, Christopher L.
AU - Heinrich, Michael C.
AU - Kurzrock, Razelle
AU - Lippman, Scott M.
AU - Fanta, Paul T.
AU - Harismendy, Olivier
AU - Metallo, Christian
AU - Sicklick, Jason K.
N1 - Funding Information:
A.M. Burgoyne reports personal fees from Deciphera, Genentech, and Exelixis outside the submitted work. S.J. Advani reports grants from NIH during the conduct of the study as well as grants from NIH outside the submitted work. M.C. Heinrich reports personal fees from Novartis, Deciphera, and Blueprint Medicines, and grants from Department of Veterans Affairs during the conduct of the study. R. Kurzrock reports grants, personal fees, and other support from Boehringer Ingelheim, Debiopharm, Foundation Medicine, Genentech, Grifols, Guardant, Incyte, Konica Minolta, Medimmune, Merck Serono, Omniseq, Pfizer, Sequenom, Takeda, and TopAlliance; consultant and/or speaker fees and/or advisory board for Actuate Therapeutics, AstraZeneca, Bicara Therapeutics, Inc., Biological Dynamics, Eisai, EOM Pharmaceuticals, Iylon, Merck, NeoGenomics, Neomed, Pfizer, Prosperdtx, Regeneron, Roche, TD2/Volastra, Turning Point Therapeutics, and X-Biotech; has an equity interest in CureMatch Inc. and IDbyDNA; serves on the Board of CureMatch and CureMetrix; and is a cofounder of CureMatch outside the submitted work. O. Harismendy reports shares in Novartis and Sanofi. C. Metallo reports grants from NIH and FDA during the conduct of the study as well as personal fees from Rheos Medicines and Nimbus Therapeutics outside the submitted work. J.K. Sicklick reports other support from Amgen Pharmaceuticals and Foundation Medicine during the conduct of the study as well as personal fees from Deciphera, Foundation Medicine, Hoffman-La Roche, Merck, MJH Life Sciences, and QED Therapeutics, and other support from Personalis outside the submitted work. No disclosures were reported by the other authors.
Funding Information:
This work was supported by FDA (R01 FD006334, J.K. Sicklick, C. Metallo), NIH grant R01 CA226803 (J.K. Sicklick), NIH grant R37 CA215081 (S.J. Advani), NIH grants R01 CA188652 and R01 CA234245 (C. Metallo.), GIST Research Fund (J.K. Sicklick), SDH Research Fund (J.K. Sicklick), Pedal the Cause (J.K. Sicklick, A.M. Burgoyne), Kristen Ann Carr Fund (J.K. Sicklick), and NSF CAREER Award (#1454425). It was also supported in part by Biorepository and Tissue Technology Shared Resource and NIH grant P30CA023100 (S.M. Lippman). We thank the Cancer Center Microscopy core (supported by NCI P30CA023100) for providing microscopes and imaging systems. We thank K. Jepsen at the University of California San Diego IGM Genomics Center (supported by NIH grant P30CA023100) for generation and sequencing of mRNA libraries. We also thank D. Jaquish and R. French for helpful discussions and collaboration. Finally, and most importantly, we thank the Melikian Hatounian family, the MacLea family, and SDH Research Advocates for their inspiration and support.
Publisher Copyright:
© 2021 American Association for Cancer Research.
PY - 2022/1/1
Y1 - 2022/1/1
N2 - Purpose: Gastrointestinal stromal tumor (GIST) is the most common sarcoma of the gastrointestinal tract, with mutant succinate dehydrogenase (SDH) subunits (A–D) comprising less than 7.5% (i.e., 150–200/year) of new cases annually in the United States. Contrary to GISTs harboring KIT or PDGFRA mutations, SDH-mutant GISTs affect adolescents/young adults, often metastasize, and are frequently resistant to tyrosine kinase inhibitors (TKI). Lack of human models for any SDH-mutant tumors, including GIST, has limited molecular characterization and drug discovery. Experimental Design: We describe methods for establishing novel patient-derived SDH-mutant (mSDH) GIST models and interrogated the efficacy of temozolomide on these tumor models in vitro and in clinical trials of patients with mSDH GIST. Results: Molecular and metabolic characterization of our patient-derived mSDH GIST models revealed that these models recapitulate the transcriptional and metabolic hallmarks of parent tumors and SDH deficiency. We further demonstrate that temozolomide elicits DNA damage and apoptosis in our mSDH GIST models. Translating our in vitro discovery to the clinic, a cohort of patients with SDH-mutant GIST treated with temozolomide (n = 5) demonstrated a 40% objective response rate and 100% disease control rate, suggesting that temozolomide represents a promising therapy for this subset of GIST. Conclusions: We report the first methods to establish patient-derived mSDH tumor models, which can be readily employed for understanding patient-specific tumor biology and treatment strategies. We also demonstrate that temozolomide is effective in patients with mSDH GIST who are refractory to existing chemotherapeutic drugs (namely, TKIs) in clinic for GISTs, bringing a promising treatment option for these patients to clinic.
AB - Purpose: Gastrointestinal stromal tumor (GIST) is the most common sarcoma of the gastrointestinal tract, with mutant succinate dehydrogenase (SDH) subunits (A–D) comprising less than 7.5% (i.e., 150–200/year) of new cases annually in the United States. Contrary to GISTs harboring KIT or PDGFRA mutations, SDH-mutant GISTs affect adolescents/young adults, often metastasize, and are frequently resistant to tyrosine kinase inhibitors (TKI). Lack of human models for any SDH-mutant tumors, including GIST, has limited molecular characterization and drug discovery. Experimental Design: We describe methods for establishing novel patient-derived SDH-mutant (mSDH) GIST models and interrogated the efficacy of temozolomide on these tumor models in vitro and in clinical trials of patients with mSDH GIST. Results: Molecular and metabolic characterization of our patient-derived mSDH GIST models revealed that these models recapitulate the transcriptional and metabolic hallmarks of parent tumors and SDH deficiency. We further demonstrate that temozolomide elicits DNA damage and apoptosis in our mSDH GIST models. Translating our in vitro discovery to the clinic, a cohort of patients with SDH-mutant GIST treated with temozolomide (n = 5) demonstrated a 40% objective response rate and 100% disease control rate, suggesting that temozolomide represents a promising therapy for this subset of GIST. Conclusions: We report the first methods to establish patient-derived mSDH tumor models, which can be readily employed for understanding patient-specific tumor biology and treatment strategies. We also demonstrate that temozolomide is effective in patients with mSDH GIST who are refractory to existing chemotherapeutic drugs (namely, TKIs) in clinic for GISTs, bringing a promising treatment option for these patients to clinic.
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U2 - 10.1158/1078-0432.CCR-21-2092
DO - 10.1158/1078-0432.CCR-21-2092
M3 - Article
C2 - 34426440
AN - SCOPUS:85122921894
SN - 1078-0432
VL - 28
SP - 187
EP - 200
JO - Clinical Cancer Research
JF - Clinical Cancer Research
IS - 1
ER -