Abstract

Photoimmunotherapy (PIT) involves the administration of a photosensitizer (PS) conjugated to antibodies (Mab), followed by light activation of the photoimmunoconjugate (PIC). The systemic toxicity associated with radio- and chemo-immunoconjugates may thus be significantly reduced in PIT due to the dual selectivity provided by the tumor localizing ability of the Mab and the spatial control of illumination. An area of cancer therapy that has seen vigorous activity in recent years is the approach of cancer cell growth control via the interruption of growth factor mediated molecular pathways; in this regard studies directed toward the inactivation of the Epidermal Growth Factor Receptor (EGFR) signaling are possibly the most developed but remain inadequate for Long-term control or cures. The goal of this research is to develop (PIT) targeted to the EGFR for the destruction of minimal residual ovarian cancer (OVCa). Rationale: (I) EGFR is overexpressed in many cancers including OVCa (ii) its overexpression is associated with the aggressive and invasive phenotype and chemoresistant cells, hallmarks of recurrent disease and (iii) cancer cell proliferation is more dependent on signaling via this molecular pathway than normal cells. A conjugation strategy has been developed which produces purified PICs that retain both their EGFR-blocking capability and photochemical activity. The proposed Mab is C225 and the PSs are Benzoporphyrin derivative monoacid (BPD) and Chlorin e6 (Ce6). C225 is a chimeric IgG Mab in Phase I1-111trials. These PICs will be characterized in vitro as to their substitution ratios, size, and interactions with both target and non-target cells in vitro. Sub-cellular localization and intracellular processing will be investigated. The PICs will be compared to non-specific rabbit IgG PICs, Mab PICs targeted to different receptors and to PSs alone. In vivo PIT will be investigated in an orthotopic murine model of human ovarian cancer. The strategy will be to (i) establish the optimal conditions for PIC administration. (ii) Determine the toxicology of PIC/PIT and treat the mice at the maximum tolerated doses of both PS and light. Short-term (3 days) reduction in tumor burden and long-term survival will be determined. (iii) Finally, a combination of immunotherapy with C225 for short-term response and survival will be investigated. It is expected that these studies will provide a measure of the efficacy of Lp. PIT in comparison with standard PDT and C225 immunotherapy and form the basis of clinical protocols in the future.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
5R01AR040352-11
Application #
7104309
Study Section
Radiation Study Section (RAD)
Program Officer
Lapham, Cheryl K
Project Start
1992-05-01
Project End
2009-06-30
Budget Start
2006-07-01
Budget End
2009-06-30
Support Year
11
Fiscal Year
2006
Total Cost
$354,729
Indirect Cost

  Institution

Name
Massachusetts General Hospital
Department
Type
DUNS #
073130411
City
Boston
State
MA
Country
United States
Zip Code
02199

  Publications

Spring, Bryan Q; Abu-Yousif, Adnan O; Palanisami, Akilan et al. (2014) Selective treatment and monitoring of disseminated cancer micrometastases in vivo using dual-function, activatable immunoconjugates. Proc Natl Acad Sci U S A 111:E933-42
Spring, Bryan Q; Palanisami, Akilan; Hasan, Tayyaba (2014) Microscale receiver operating characteristic analysis of micrometastasis recognition using activatable fluorescent probes indicates leukocyte imaging as a critical factor to enhance accuracy. J Biomed Opt 19:066006
Abu-Yousif, Adnan O; Moor, Anne C E; Zheng, Xiang et al. (2012) Epidermal growth factor receptor-targeted photosensitizer selectively inhibits EGFR signaling and induces targeted phototoxicity in ovarian cancer cells. Cancer Lett 321:120-7
Rizvi, Imran; Celli, Jonathan P; Evans, Conor L et al. (2010) Synergistic enhancement of carboplatin efficacy with photodynamic therapy in a three-dimensional model for micrometastatic ovarian cancer. Cancer Res 70:9319-28
Celli, Jonathan P; Rizvi, Imran; Evans, Conor L et al. (2010) Quantitative imaging reveals heterogeneous growth dynamics and treatment-dependent residual tumor distributions in a three-dimensional ovarian cancer model. J Biomed Opt 15:051603
Evans, Conor L; Rizvi, Imran; Hasan, Tayyaba et al. (2009) In vitro ovarian tumor growth and treatment response dynamics visualized with time-lapse OCT imaging. Opt Express 17:8892-906
Casas, Adriana; Di Venosa, Gabriela; Vanzulli, Silvia et al. (2008) Decreased metastatic phenotype in cells resistant to aminolevulinic acid-photodynamic therapy. Cancer Lett 271:342-51
Verma, Sarika; Watt, Gregory M; Mai, Zhiming et al. (2007) Strategies for enhanced photodynamic therapy effects. Photochem Photobiol 83:996-1005
Casas, Adriana; Perotti, Christian; Ortel, Bernhard et al. (2006) Tumor cell lines resistant to ALA-mediated photodynamic therapy and possible tools to target surviving cells. Int J Oncol 29:397-405
Solban, Nicolas; Rizvi, Imran; Hasan, Tayyaba (2006) Targeted photodynamic therapy. Lasers Surg Med 38:522-31

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