npj Breast Cancer (Oct 2021)
Ganitumab and metformin plus standard neoadjuvant therapy in stage 2/3 breast cancer
- Douglas Yee,
- Claudine Isaacs,
- Denise M. Wolf,
- Christina Yau,
- Paul Haluska,
- Karthik V. Giridhar,
- Andres Forero-Torres,
- A. Jo Chien,
- Anne M. Wallace,
- Lajos Pusztai,
- Kathy S. Albain,
- Erin D. Ellis,
- Heather Beckwith,
- Barbara B. Haley,
- Anthony D. Elias,
- Judy C. Boughey,
- Kathleen Kemmer,
- Rachel L. Yung,
- Paula R. Pohlmann,
- Debu Tripathy,
- Amy S. Clark,
- Hyo S. Han,
- Rita Nanda,
- Qamar J. Khan,
- Kristen K. Edmiston,
- Emanuel F. Petricoin,
- Erica Stringer-Reasor,
- Carla I. Falkson,
- Melanie Majure,
- Rita A. Mukhtar,
- Teresa L. Helsten,
- Stacy L. Moulder,
- Patricia A. Robinson,
- Julia D. Wulfkuhle,
- Lamorna Brown-Swigart,
- Meredith Buxton,
- Julia L. Clennell,
- Melissa Paoloni,
- Ashish Sanil,
- Scott Berry,
- Smita M. Asare,
- Amy Wilson,
- Gillian L. Hirst,
- Ruby Singhrao,
- Adam L. Asare,
- Jeffrey B. Matthews,
- Nola M. Hylton,
- Angela DeMichele,
- Michelle Melisko,
- Jane Perlmutter,
- Hope S. Rugo,
- W. Fraser Symmans,
- Laura J. van‘t Veer,
- Donald A. Berry,
- Laura J. Esserman
Affiliations
- Douglas Yee
- Masonic Cancer Center, University of Minnesota
- Claudine Isaacs
- Georgetown University
- Denise M. Wolf
- University of California San Francisco Department of Laboratory Medicine
- Christina Yau
- University of California San Francisco Department of Laboratory Medicine
- Paul Haluska
- Mayo Clinic Rochester c/o Merck Corporation
- Karthik V. Giridhar
- Mayo Clinic Division of Medical Oncology
- Andres Forero-Torres
- University of Alabama at Birmingham c/o Seattle Genetics
- A. Jo Chien
- University of California San Francisco Division of Hematology-Oncology
- Anne M. Wallace
- University of California San Diego Department of Surgery
- Lajos Pusztai
- Yale University Medical Onciology
- Kathy S. Albain
- Loyola University Chicago Stritch School of Medicine Cardinal Bernardin Cancer Center
- Erin D. Ellis
- Swedish Cancer Institute Medical Oncology
- Heather Beckwith
- Masonic Cancer Center, University of Minnesota
- Barbara B. Haley
- UT Southwestern Medical Center Division of Hematology-Oncology
- Anthony D. Elias
- University of Colorado Anschutz Medical Center Division of Medical Oncology
- Judy C. Boughey
- Mayo Clinic Division of Medical Oncology
- Kathleen Kemmer
- OHSU Knight Cancer Institute South Waterfront Center for Health and Healing
- Rachel L. Yung
- University of Washington Seattle Cancer Care Alliance
- Paula R. Pohlmann
- Georgetown University
- Debu Tripathy
- MD Anderson Cancer Center
- Amy S. Clark
- University of Pennsylvania Division of Hematology-Oncology 3 Perelman Center
- Hyo S. Han
- Moffit Cancer Center
- Rita Nanda
- University of Chicago Section of Hematology/Oncology
- Qamar J. Khan
- University of Kansas Division of Oncology
- Kristen K. Edmiston
- Inova Medical Group
- Emanuel F. Petricoin
- George Mason University Institute for Advanced Biomedical Research
- Erica Stringer-Reasor
- University of Alabama at Birmingham Hematology/Oncology
- Carla I. Falkson
- Wilmot Cancer Institute Pluta Cancer Center
- Melanie Majure
- University of California San Francisco
- Rita A. Mukhtar
- University of California San Francisco
- Teresa L. Helsten
- University of California San Diego Division of Hematology-Oncology
- Stacy L. Moulder
- MD Anderson Cancer Center
- Patricia A. Robinson
- Loyola University Chicago Stritch School of Medicine Cardinal Bernardin Cancer Center
- Julia D. Wulfkuhle
- George Mason University Institute for Advanced Biomedical Research
- Lamorna Brown-Swigart
- University of California San Francisco Department of Laboratory Medicine
- Meredith Buxton
- University of California San Francisco c/o Global Coalition for Adaptive Research
- Julia L. Clennell
- University of California San Francisco c/o IQVIA
- Melissa Paoloni
- Point Eden Way
- Ashish Sanil
- Berry Consultants
- Scott Berry
- Berry Consultants
- Smita M. Asare
- Quantum Leap Healthcare Collaborative
- Amy Wilson
- Quantum Leap Healthcare Collaborative
- Gillian L. Hirst
- University of California San Francisco
- Ruby Singhrao
- University of California San Francisco
- Adam L. Asare
- Quantum Leap Healthcare Collaborative
- Jeffrey B. Matthews
- University of California San Francisco
- Nola M. Hylton
- University of California San Francisco
- Angela DeMichele
- University of Pennsylvania Division of Hematology-Oncology 3 Perelman Center
- Michelle Melisko
- University of California San Francisco
- Jane Perlmutter
- University of California San Francisco
- Hope S. Rugo
- University of California San Francisco
- W. Fraser Symmans
- MD Anderson Cancer Center
- Laura J. van‘t Veer
- University of California San Francisco Department of Laboratory Medicine
- Donald A. Berry
- Quantum Leap Healthcare Collaborative
- Laura J. Esserman
- University of California San Francisco
- DOI
- https://doi.org/10.1038/s41523-021-00337-2
- Journal volume & issue
-
Vol. 7,
no. 1
pp. 1 – 8
Abstract
Abstract I-SPY2 is an adaptively randomized phase 2 clinical trial evaluating novel agents in combination with standard-of-care paclitaxel followed by doxorubicin and cyclophosphamide in the neoadjuvant treatment of breast cancer. Ganitumab is a monoclonal antibody designed to bind and inhibit function of the type I insulin-like growth factor receptor (IGF-1R). Ganitumab was tested in combination with metformin and paclitaxel (PGM) followed by AC compared to standard-of-care alone. While pathologic complete response (pCR) rates were numerically higher in the PGM treatment arm for hormone receptor-negative, HER2-negative breast cancer (32% versus 21%), this small increase did not meet I-SPY’s prespecified threshold for graduation. PGM was associated with increased hyperglycemia and elevated hemoglobin A1c (HbA1c), despite the use of metformin in combination with ganitumab. We evaluated several putative predictive biomarkers of ganitumab response (e.g., IGF-1 ligand score, IGF-1R signature, IGFBP5 expression, baseline HbA1c). None were specific predictors of response to PGM, although several signatures were associated with pCR in both arms. Any further development of anti-IGF-1R therapy will require better control of anti-IGF-1R drug-induced hyperglycemia and the development of more predictive biomarkers.
