Genome-wide expression analysis of therapy-resistant tumors reveals SPARC as a novel target for cancer therapy
Isabella T. Tai, … , David A. Owen, Lan Bo Chen
Isabella T. Tai, … , David A. Owen, Lan Bo Chen
Published June 1, 2005
Citation Information: J Clin Invest. 2005;115(6):1492-1502. https://doi.org/10.1172/JCI23002.
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Categories: Research Article Oncology

Genome-wide expression analysis of therapy-resistant tumors reveals SPARC as a novel target for cancer therapy

Abstract

Overcoming resistance to chemotherapy and radiation therapy has been a difficult but important goal in the effort to cure cancer. We used gene-expression microarrays to identify differentially expressed genes involved in colorectal cancer resistance to chemotherapy and identified secreted protein, acidic and rich in cysteine (osteonectin) (SPARC) as a putative resistance-reversal gene by demonstrating low SPARC expression in refractory human MIP101 colon cancer cells. We were able to achieve restoration of their radiosensitivity and sensitivity to 5-fluorouracil and irinotecan by reexpression of SPARC in tumor xenografts. Moreover, treatment of mice with SPARC conferred increased sensitivity to chemotherapy and led to significant regression of xenografted tumors. The results show that modulation of SPARC expression affects colorectal cancer sensitivity to radiation and chemotherapy. SPARC-based gene or protein therapy may ameliorate the emergence of resistant clones and eradicate existing refractory clones and offers a novel approach to treating cancer.

Authors

Isabella T. Tai, Meiru Dai, David A. Owen, Lan Bo Chen

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Figure 10

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Assessment of the effect of SPARCs exposure on the ECM of tumor xenograf...
Assessment of the effect of SPARCs exposure on the ECM of tumor xenografts. Collagen IV is noted predominantly around blood vessels, and no significant differences in immunoperoxidase staining is seen in the ECMs between control and any of the treatment groups. Laminin expression in the ECM within the tumor xenograft is similarly unaffected in treatment groups, with its predominant expression noted within the fibrous capsule surrounding the graft. A thicker fibrous band (arrows) is noted surrounding xenografts of animals treated with SPARCs alone.