Nemeth Jeffrey A, Cher Michael L, Zhou Zhao, Mullins Chadwick, Bhagat Sunita, Trikha Mohit
Department of Oncology Research, Centocor, Inc., Malvern, Pennsylvania 19355, USA.
Clin Exp Metastasis. 2003;20(5):413-20. doi: 10.1023/a:1025461507027.
The growth of metastatic prostate cancer cells in the bone involves an intimate interaction between the tumor cells and various elements of the bone microenvironment, resulting in increased rate of bone turnover and rapid tumor growth. The alpha(v)beta3 integrin has been shown to play an important role in tumor growth and angiogenesis, and is known to be critical to osteoclast formation and activity. This study was designed to examine the role of alpha(v)beta3 expressed by cells native to the bone in the growth and pathogenesis of prostate cancer bone metastases. Human prostate cancer cells which do not express alpha(v)beta3 or alpha(IIb)beta3 integrins were injected directly into human bone fragments previously implanted subcutaneously in SCID mice (SCID-human-bone model). At the same time treatment with anti-beta3 antibody fragment (m7E3 F(ab')2) i.p. at 300 microg/dose 3 x per week was initiated and continued for 2 weeks. In this system, m7E3 F(ab')2 only recognizes human bone-derived alpha(v)beta3. Antibody inhibition of alpha(v)beta3 integrin in vivo resulted in a specific reduction in the proportion of antigenically-human blood vessels within tumor-bearing bone implants (from 73.5% +/- 3.93 in controls to 17.74% +/- 5.64 in treated animals). Proliferation of the alpha(v)beta3-negative tumor cells was also reduced, although the overall vessel density was maintained by compensating mouse vasculature. Blockage of human bone-derived alpha(v)beta3 also significantly reduced the recruitment of osteoclasts in response to tumor cells, as well as degradation of calcified bone tissue. Together these observations confirm the importance of alpha(v)beta3 in bone metabolism and angiogenesis, and point to the role of these processes in controlling growth of metastatic prostate cancer cells in the bone.
转移性前列腺癌细胞在骨中的生长涉及肿瘤细胞与骨微环境中各种成分之间的密切相互作用,导致骨转换率增加和肿瘤快速生长。α(v)β3整合素已被证明在肿瘤生长和血管生成中起重要作用,并且已知对破骨细胞的形成和活性至关重要。本研究旨在探讨骨内源性细胞表达的α(v)β3在前列腺癌骨转移生长和发病机制中的作用。将不表达α(v)β3或α(IIb)β3整合素的人前列腺癌细胞直接注射到先前皮下植入SCID小鼠体内的人骨碎片中(SCID-人-骨模型)。同时,开始腹腔注射抗β3抗体片段(m7E3 F(ab')2),剂量为300μg/剂量,每周3次,持续2周。在这个系统中,m7E3 F(ab')2仅识别源自人骨的α(v)β3。体内α(v)β3整合素的抗体抑制导致荷瘤骨植入物中抗原性人血管比例的特异性降低(从对照组的73.5%±3.93降至治疗动物组的17.74%±5.64)。α(v)β3阴性肿瘤细胞的增殖也减少,尽管通过补偿性小鼠脉管系统维持了总体血管密度。阻断源自人骨的α(v)β3也显著减少了破骨细胞对肿瘤细胞的募集以及钙化骨组织的降解。这些观察结果共同证实了α(v)β3在骨代谢和血管生成中的重要性,并指出了这些过程在控制转移性前列腺癌细胞在骨中生长的作用。
