Colony-stimulating factor-1 antisense treatment suppresses growth of human tumor xenografts in mice.

Matrix metalloproteinases (MMPs) foster cellular invasion by disrupting extracellular matrix barriers and thereby facilitate tumor development. MMPs are synthesized by both cancer cells and adjacent stromal cells, primarily macrophages. The production of macrophages is regulated by colony-stimulating factor-1 (CSF-1). Tissue CSF-1 expression increased significantly in embryonic and colon cancer xenografts. We, therefore, hypothesized that blocking CSF-1 may suppress tumor growth by decelerating macrophage-mediated extracellular matrix breakdown. Cells expressing CSF-1 and mice xenografted with CSF-1 receptor (c-fms)- and CSF-1-negative malignant human embryonic or colon cancer cells were treated with mouse CSF-1 antisense oligonucleotides. Two weeks of CSF-1 antisense treatment selectively down-regulated CSF-1 mRNA and protein tissue expression in tumor lysates. CSF-1 blockade suppressed the growth of embryonic tumors to dormant levels and the growth of the colon carcinoma by 50%. In addition, tumor vascularity and the expression of MMP-2 and angiogenic factors were reduced. Six-month survival was observed in colon carcinoma mice only after CSF-1 blockade, whereas controls were all dead at day 65. These results suggest that human embryonic and colon cancer cells up-regulate host CSF-1 and MMP-2 expression. Because the cancer cells used were CSF-1 negative, CSF-1 antisense targeted tumor stromal cell CSF-1 production. CSF-1 blockade could be a novel strategy in treatment of solid tumors.

Efficient carboplatin single therapy in a mouse model of human testicular nonseminomatous germ cell tumor.

PURPOSE: Cisplatin based combination therapy has shown excellent clinical results in patients with testicular nonseminomatous germ cell tumor but chemotherapy induced morbidity and reduced patient compliance are limiting factors in this regimen. To decrease cisplatin based combination therapy induced morbidity we examined carboplatin versus etoposide single therapy in an animal model. MATERIALS AND METHODS: A total of 180 SCID mice bearing testicular nonseminomatous germ cell tumor xenografts received 120 mg./kg. carboplatin as a single cycle, 60 or 30 mg./kg. carboplatin cycled twice, 80, 50 or 30 mg./kg. etoposide cycled twice, or Ringer solution as the control. An additional 20 sham treated and 20 untreated mice also served as controls. Histological and immunocytochemical testing, in vivo microscopy, vascular corrosion casting, serum tumor markers, complete blood count and real-time polymerase chain reaction were used to monitor therapy efficacy. RESULTS: Carboplatin at 60 mg./kg. cycled twice eradicated the tumor and significantly reduced vascular density and vascular endothelial growth factor-A messenger RNA (p <0.05). Elevated tumor markers returned to baseline after carboplatin administration. Therapy was well tolerated, resulting thrombocytopenia disappeared 6 weeks after therapy and the animals were tumor-free 6 months after treatment. Although 120 mg./kg. carboplatin eradicated the tumor, it resulted in extensive mortality and morbidity. Single treatment 30, 50 and 80 mg./kg. etoposide failed. CONCLUSIONS: Carboplatin single therapy was highly effective in our nonseminomatous germ cell tumor model and it may be examined in future clinical trials in patients with high risk stage I nonseminomatous germ cell cancer for reducing cisplatin based combination therapy induced morbidity. Vascular density and vascular endothelial growth factor messenger RNA were elevated in our animal model and deserve further study in nonseminomatous germ cell tumor cases as potential risk factors.