PURPOSE: The major cause of morbidity in breast cancer is development of metastatic disease, for which few effective therapies exist. Because tumor cell dissemination is often an early event in breast cancer progression and can occur before diagnosis, new therapies need to focus on targeting established metastatic disease in secondary organs. We report an effective therapy based on targeting cell surface-localized glucose-regulated protein 78 (GRP78). GRP78 is expressed normally in the endoplasmic reticulum, but many tumors and disseminated tumor cells are subjected to environmental stresses and exhibit elevated levels of GRP78, some of which are localized at the plasma membrane. EXPERIMENTAL DESIGN AND RESULTS: Here, we show that matched primary tumors and metastases from patients who died from advanced breast cancer also express high levels of GRP78. We used a peptidomimetic targeting strategy that uses a known GRP78-binding peptide fused to a proapoptotic moiety [designated bone metastasis targeting peptide 78 (BMTP78)] and show that it can selectively kill breast cancer cells that express surface-localized GRP78. Furthermore, in preclinical metastasis models, we show that administration of BMTP78 can inhibit primary tumor growth as well as prolong overall survival by reducing the extent of outgrowth of established lung and bone micrometastases. CONCLUSIONS: The data presented here provide strong evidence that it is possible to induce cell death in established micrometastases by peptide-mediated targeting of cell surface-localized GRP in advanced breast cancers. The significance to patients with advanced breast cancer of a therapy that can reduce established metastatic disease should not be underestimated.
PURPOSE: The major cause of morbidity in breast cancer is development of metastatic disease, for which few effective therapies exist. Because tumor cell dissemination is often an early event in breast cancer progression and can occur before diagnosis, new therapies need to focus on targeting established metastatic disease in secondary organs. We report an effective therapy based on targeting cell surface-localized glucose-regulated protein 78 (GRP78). GRP78 is expressed normally in the endoplasmic reticulum, but many tumors and disseminated tumor cells are subjected to environmental stresses and exhibit elevated levels of GRP78, some of which are localized at the plasma membrane. EXPERIMENTAL DESIGN AND RESULTS: Here, we show that matched primary tumors and metastases from patients who died from advanced breast cancer also express high levels of GRP78. We used a peptidomimetic targeting strategy that uses a known GRP78-binding peptide fused to a proapoptotic moiety [designated bone metastasis targeting peptide 78 (BMTP78)] and show that it can selectively kill breast cancer cells that express surface-localized GRP78. Furthermore, in preclinical metastasis models, we show that administration of BMTP78 can inhibit primary tumor growth as well as prolong overall survival by reducing the extent of outgrowth of established lung and bone micrometastases. CONCLUSIONS: The data presented here provide strong evidence that it is possible to induce cell death in established micrometastases by peptide-mediated targeting of cell surface-localized GRP in advanced breast cancers. The significance to patients with advanced breast cancer of a therapy that can reduce established metastatic disease should not be underestimated.
Authors: Bong Kyung Shin; Hong Wang; Anne Marie Yim; Francois Le Naour; Franck Brichory; Jun Ho Jang; Rong Zhao; Eric Puravs; John Tra; Claire W Michael; David E Misek; Samir M Hanash Journal: J Biol Chem Date: 2002-12-18 Impact factor: 5.157
Authors: Ying Liu; Sebastian C J Steiniger; YoungSoo Kim; Gunnar F Kaufmann; Brunhilde Felding-Habermann; Kim D Janda Journal: Mol Pharm Date: 2007-03-21 Impact factor: 4.939
Authors: Mario Gonzalez-Gronow; Miguel Cuchacovich; Carolina Llanos; Cristian Urzua; Govind Gawdi; Salvatore V Pizzo Journal: Cancer Res Date: 2006-12-01 Impact factor: 12.701
Authors: Gidi Shani; Wolfgang H Fischer; Nicholas J Justice; Jonathan A Kelber; Wylie Vale; Peter C Gray Journal: Mol Cell Biol Date: 2007-11-08 Impact factor: 4.272
Authors: Ashley Cimino; Marc Halushka; Peter Illei; Xinyan Wu; Saraswati Sukumar; Pedram Argani Journal: Breast Cancer Res Treat Date: 2009-12-11 Impact factor: 4.872
Authors: Siamak Daneshmand; Marcus L Quek; Ed Lin; Charlotte Lee; Richard J Cote; Debra Hawes; Jie Cai; Susan Groshen; Gary Lieskovsky; Donald G Skinner; Amy S Lee; Jacek Pinski Journal: Hum Pathol Date: 2007-07-19 Impact factor: 3.466
Authors: D I Staquicini; S D'Angelo; F Ferrara; K Karjalainen; G Sharma; T L Smith; C A Tarleton; D E Jaalouk; A Kuniyasu; W B Baze; B K Chaffee; P W Hanley; K F Barnhart; E Koivunen; S Marchiò; R L Sidman; J E Cortes; H M Kantarjian; W Arap; R Pasqualini Journal: Pharmacogenomics J Date: 2017-12-05 Impact factor: 3.550
Authors: Sara D'Angelo; Fernanda I Staquicini; Fortunato Ferrara; Daniela I Staquicini; Geetanjali Sharma; Christy A Tarleton; Huynh Nguyen; Leslie A Naranjo; Richard L Sidman; Wadih Arap; Andrew Rm Bradbury; Renata Pasqualini Journal: JCI Insight Date: 2018-05-03
Authors: Fortunato Ferrara; Daniela I Staquicini; Wouter H P Driessen; Sara D'Angelo; Andrey S Dobroff; Marc Barry; Lesley C Lomo; Fernanda I Staquicini; Marina Cardó-Vila; Suren Soghomonyan; Mian M Alauddin; Leo G Flores; Marco A Arap; Richard C Lauer; Paul Mathew; Eleni Efstathiou; Ana M Aparicio; Patricia Troncoso; Nora M Navone; Christopher J Logothetis; Serena Marchiò; Juri G Gelovani; Richard L Sidman; Renata Pasqualini; Wadih Arap Journal: Proc Natl Acad Sci U S A Date: 2016-10-24 Impact factor: 11.205
Authors: Ali A Al-Hashimi; Paul Lebeau; Fadwa Majeed; Enio Polena; Šárka Lhotak; Celeste A F Collins; Jehonathan H Pinthus; Mario Gonzalez-Gronow; Jen Hoogenes; Salvatore V Pizzo; Mark Crowther; Anil Kapoor; Janusz Rak; Gabriel Gyulay; Sara D'Angelo; Serena Marchiò; Renata Pasqualini; Wadih Arap; Bobby Shayegan; Richard C Austin Journal: J Biol Chem Date: 2017-10-24 Impact factor: 5.157