CD47-blocking immunotherapies stimulate macrophage-mediated destruction of small-cell lung cancer

Kipp Weiskopf; Nadine S. Jahchan; Peter J. Schnorr; Sandra Cristea; Aaron M. Ring; Roy L. Maute; Anne K. Volkmer; Jens Peter Volkmer; Jie Liu; Jing Shan Lim; Dian Yang; Garrett Seitz; Thuyen Nguyen; Di Wu; Kevin Jude; Heather Guerston; Amira Barkal; Francesca Trapani; Julie George; John T. Poirier; Eric E. Gardner; Linde A. Miles; Elisa De Stanchina; Shane M. Lofgren; Hannes Vogel; Monte M. Winslow; Caroline Dive; Roman K. Thomas; Charles M. Rudin; Matt Van De Rijn; Ravindra Majeti; K. Christopher Garcia; Irving L. Weissman; Julien Sage

doi:10.1172/JCI81603

CD47-blocking immunotherapies stimulate macrophage-mediated destruction of small-cell lung cancer

Kipp Weiskopf^*, Nadine S. Jahchan, Peter J. Schnorr, Sandra Cristea, Aaron M. Ring, Roy L. Maute, Anne K. Volkmer, Jens Peter Volkmer, Jie Liu, Jing Shan Lim, Dian Yang, Garrett Seitz, Thuyen Nguyen, Di Wu, Kevin Jude, Heather Guerston, Amira Barkal, Francesca Trapani, Julie George, John T. PoirierEric E. Gardner, Linde A. Miles, Elisa De Stanchina, Shane M. Lofgren, Hannes Vogel, Monte M. Winslow, Caroline Dive, Roman K. Thomas, Charles M. Rudin, Matt Van De Rijn, Ravindra Majeti, K. Christopher Garcia, Irving L. Weissman, Julien Sage

^*Corresponding author for this work

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Abstract

Small-cell lung cancer (SCLC) is a highly aggressive subtype of lung cancer with limited treatment options. CD47 is a cellsurface molecule that promotes immune evasion by engaging signal-regulatory protein alpha (SIRPα), which serves as an inhibitory receptor on macrophages. Here, we found that CD47 is highly expressed on the surface of human SCLC cells; therefore, we investigated CD47-blocking immunotherapies as a potential approach for SCLC treatment. Disruption of the interaction of CD47 with SIRPα using anti-CD47 antibodies induced macrophage-mediated phagocytosis of human SCLC patient cells in culture. In a murine model, administration of CD47-blocking antibodies or targeted inactivation of the Cd47 gene markedly inhibited SCLC tumor growth. Furthermore, using comprehensive antibody arrays, we identified several possible therapeutic targets on the surface of SCLC cells. Antibodies to these targets, including CD56/neural cell adhesion molecule (NCAM), promoted phagocytosis in human SCLC cell lines that was enhanced when combined with CD47-blocking therapies. In light of recent clinical trials for CD47-blocking therapies in cancer treatment, these findings identify disruption of the CD47/SIRPα axis as a potential immunotherapeutic strategy for SCLC. This approach could enable personalized immunotherapeutic regimens in patients with SCLC and other cancers.

Original language	English
Pages (from-to)	2610-2620
Number of pages	11
Journal	Journal of Clinical Investigation
Volume	126
Issue number	7
Early online date	13 Jun 2016
DOIs	https://doi.org/10.1172/JCI81603
Publication status	Published - 1 Jul 2016

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Weiskopf, K., Jahchan, N. S., Schnorr, P. J., Cristea, S., Ring, A. M., Maute, R. L., Volkmer, A. K., Volkmer, J. P., Liu, J., Lim, J. S., Yang, D., Seitz, G., Nguyen, T., Wu, D., Jude, K., Guerston, H., Barkal, A., Trapani, F., George, J., ... Sage, J. (2016). CD47-blocking immunotherapies stimulate macrophage-mediated destruction of small-cell lung cancer. Journal of Clinical Investigation, 126(7), 2610-2620. https://doi.org/10.1172/JCI81603

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title = "CD47-blocking immunotherapies stimulate macrophage-mediated destruction of small-cell lung cancer",

abstract = "Small-cell lung cancer (SCLC) is a highly aggressive subtype of lung cancer with limited treatment options. CD47 is a cellsurface molecule that promotes immune evasion by engaging signal-regulatory protein alpha (SIRPα), which serves as an inhibitory receptor on macrophages. Here, we found that CD47 is highly expressed on the surface of human SCLC cells; therefore, we investigated CD47-blocking immunotherapies as a potential approach for SCLC treatment. Disruption of the interaction of CD47 with SIRPα using anti-CD47 antibodies induced macrophage-mediated phagocytosis of human SCLC patient cells in culture. In a murine model, administration of CD47-blocking antibodies or targeted inactivation of the Cd47 gene markedly inhibited SCLC tumor growth. Furthermore, using comprehensive antibody arrays, we identified several possible therapeutic targets on the surface of SCLC cells. Antibodies to these targets, including CD56/neural cell adhesion molecule (NCAM), promoted phagocytosis in human SCLC cell lines that was enhanced when combined with CD47-blocking therapies. In light of recent clinical trials for CD47-blocking therapies in cancer treatment, these findings identify disruption of the CD47/SIRPα axis as a potential immunotherapeutic strategy for SCLC. This approach could enable personalized immunotherapeutic regimens in patients with SCLC and other cancers.",

author = "Kipp Weiskopf and Jahchan, {Nadine S.} and Schnorr, {Peter J.} and Sandra Cristea and Ring, {Aaron M.} and Maute, {Roy L.} and Volkmer, {Anne K.} and Volkmer, {Jens Peter} and Jie Liu and Lim, {Jing Shan} and Dian Yang and Garrett Seitz and Thuyen Nguyen and Di Wu and Kevin Jude and Heather Guerston and Amira Barkal and Francesca Trapani and Julie George and Poirier, {John T.} and Gardner, {Eric E.} and Miles, {Linde A.} and {De Stanchina}, Elisa and Lofgren, {Shane M.} and Hannes Vogel and Winslow, {Monte M.} and Caroline Dive and Thomas, {Roman K.} and Rudin, {Charles M.} and {Van De Rijn}, Matt and Ravindra Majeti and Garcia, {K. Christopher} and Weissman, {Irving L.} and Julien Sage",

year = "2016",

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doi = "10.1172/JCI81603",

language = "English",

volume = "126",

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journal = "Journal of Clinical Investigation",

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Weiskopf, K, Jahchan, NS, Schnorr, PJ, Cristea, S, Ring, AM, Maute, RL, Volkmer, AK, Volkmer, JP, Liu, J, Lim, JS, Yang, D, Seitz, G, Nguyen, T, Wu, D, Jude, K, Guerston, H, Barkal, A, Trapani, F, George, J, Poirier, JT, Gardner, EE, Miles, LA, De Stanchina, E, Lofgren, SM, Vogel, H, Winslow, MM, Dive, C, Thomas, RK, Rudin, CM, Van De Rijn, M, Majeti, R, Garcia, KC, Weissman, IL & Sage, J 2016, 'CD47-blocking immunotherapies stimulate macrophage-mediated destruction of small-cell lung cancer', Journal of Clinical Investigation, vol. 126, no. 7, pp. 2610-2620. https://doi.org/10.1172/JCI81603

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T1 - CD47-blocking immunotherapies stimulate macrophage-mediated destruction of small-cell lung cancer

AU - Weiskopf, Kipp

AU - Jahchan, Nadine S.

AU - Schnorr, Peter J.

AU - Cristea, Sandra

AU - Ring, Aaron M.

AU - Maute, Roy L.

AU - Volkmer, Anne K.

AU - Volkmer, Jens Peter

AU - Liu, Jie

AU - Lim, Jing Shan

AU - Yang, Dian

AU - Seitz, Garrett

AU - Nguyen, Thuyen

AU - Wu, Di

AU - Jude, Kevin

AU - Guerston, Heather

AU - Barkal, Amira

AU - Trapani, Francesca

AU - George, Julie

AU - Poirier, John T.

AU - Gardner, Eric E.

AU - Miles, Linde A.

AU - De Stanchina, Elisa

AU - Lofgren, Shane M.

AU - Vogel, Hannes

AU - Winslow, Monte M.

AU - Dive, Caroline

AU - Thomas, Roman K.

AU - Rudin, Charles M.

AU - Van De Rijn, Matt

AU - Majeti, Ravindra

AU - Garcia, K. Christopher

AU - Weissman, Irving L.

AU - Sage, Julien

PY - 2016/7/1

Y1 - 2016/7/1

N2 - Small-cell lung cancer (SCLC) is a highly aggressive subtype of lung cancer with limited treatment options. CD47 is a cellsurface molecule that promotes immune evasion by engaging signal-regulatory protein alpha (SIRPα), which serves as an inhibitory receptor on macrophages. Here, we found that CD47 is highly expressed on the surface of human SCLC cells; therefore, we investigated CD47-blocking immunotherapies as a potential approach for SCLC treatment. Disruption of the interaction of CD47 with SIRPα using anti-CD47 antibodies induced macrophage-mediated phagocytosis of human SCLC patient cells in culture. In a murine model, administration of CD47-blocking antibodies or targeted inactivation of the Cd47 gene markedly inhibited SCLC tumor growth. Furthermore, using comprehensive antibody arrays, we identified several possible therapeutic targets on the surface of SCLC cells. Antibodies to these targets, including CD56/neural cell adhesion molecule (NCAM), promoted phagocytosis in human SCLC cell lines that was enhanced when combined with CD47-blocking therapies. In light of recent clinical trials for CD47-blocking therapies in cancer treatment, these findings identify disruption of the CD47/SIRPα axis as a potential immunotherapeutic strategy for SCLC. This approach could enable personalized immunotherapeutic regimens in patients with SCLC and other cancers.

AB - Small-cell lung cancer (SCLC) is a highly aggressive subtype of lung cancer with limited treatment options. CD47 is a cellsurface molecule that promotes immune evasion by engaging signal-regulatory protein alpha (SIRPα), which serves as an inhibitory receptor on macrophages. Here, we found that CD47 is highly expressed on the surface of human SCLC cells; therefore, we investigated CD47-blocking immunotherapies as a potential approach for SCLC treatment. Disruption of the interaction of CD47 with SIRPα using anti-CD47 antibodies induced macrophage-mediated phagocytosis of human SCLC patient cells in culture. In a murine model, administration of CD47-blocking antibodies or targeted inactivation of the Cd47 gene markedly inhibited SCLC tumor growth. Furthermore, using comprehensive antibody arrays, we identified several possible therapeutic targets on the surface of SCLC cells. Antibodies to these targets, including CD56/neural cell adhesion molecule (NCAM), promoted phagocytosis in human SCLC cell lines that was enhanced when combined with CD47-blocking therapies. In light of recent clinical trials for CD47-blocking therapies in cancer treatment, these findings identify disruption of the CD47/SIRPα axis as a potential immunotherapeutic strategy for SCLC. This approach could enable personalized immunotherapeutic regimens in patients with SCLC and other cancers.

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DO - 10.1172/JCI81603

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VL - 126

SP - 2610

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JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

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ER -

CD47-blocking immunotherapies stimulate macrophage-mediated destruction of small-cell lung cancer

Abstract

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