Division of Nuclear Medicine and Molecular Imaging, Department of Radiology, Massachusetts General Hospital, Boston, MA 02114, USA.
Mol Imaging. 2012 Sep-Oct;11(5):417-25.
We present an optical molecular imaging approach to measure the efficacy of the cyclooxygenase-2 (COX-2) inhibitor celecoxib on tumor growth rate through its effect on matrix metalloproteinase (MMP) activity. A xenograft model of colorectal cancer was generated in nude mice, which were then randomized to receive celecoxib versus vehicle. MMP activity was measured by an enzyme-activatable optical molecular probe. A novel genetically engineered mouse (GEM) model of colorectal cancer was also used to assess celecoxib's effect on MMP activity, which was measured by quantitative fluorescence colonoscopy. Subcutaneously implanted xenograft tumors were 84% (SD 20.2%) smaller in volume in the treatment group versus the control group. Moreover, treated animals exhibited only a 7.6% (SEM 9%) increase in MMP activity versus 106% (SEM 8%) for untreated animals. There was an apparent linear relationship (r = .91) between measured MMP activity and tumor growth rate. Finally, in the GEM model experiment, treated murine tumors remained relatively unchanged in volume and MMP activity; however, untreated tumors grew significantly and showed an increase in MMP activity. This method may provide for the improved identification of patients for whom COX-2 inhibition therapy is indicated by allowing one to balance the patient's cardiovascular risk with the cancer's responsiveness to celecoxib.
我们提出了一种光学分子成像方法,通过测量基质金属蛋白酶 (MMP) 活性来评估环氧化酶 -2 (COX-2) 抑制剂塞来昔布对肿瘤生长速度的疗效。在裸鼠中生成结直肠癌的异种移植模型,然后将其随机分为塞来昔布组和对照组。通过酶激活光学分子探针测量 MMP 活性。还使用了一种新型的结直肠癌基因工程小鼠 (GEM) 模型来评估塞来昔布对 MMP 活性的影响,通过定量荧光结肠镜检查进行测量。与对照组相比,治疗组的皮下植入的异种移植肿瘤体积缩小了 84%(SD 20.2%)。此外,与未治疗动物的 106%(SEM 8%)相比,治疗动物的 MMP 活性仅增加了 7.6%(SEM 9%)。测量的 MMP 活性与肿瘤生长速度之间存在明显的线性关系(r =.91)。最后,在 GEM 模型实验中,治疗后的鼠肿瘤在体积和 MMP 活性方面保持相对不变;然而,未经治疗的肿瘤显著生长,并显示 MMP 活性增加。这种方法可以通过平衡患者的心血管风险与塞来昔布对癌症的反应性,为改善识别需要 COX-2 抑制治疗的患者提供帮助。