Cancer research
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Glioblastoma multiforme is distinguished from its less malignant astrocytoma precursors by intense angiogenesis and frequent loss of tumor suppressor genes on chromosome 10. Here we link these traits by showing that when a wild-type chromosome 10 was returned to any of three human glioblastoma cell lines U251, U87, or LG11, they lost their ability to form tumors in nude mice and switched to an antiangiogenic phenotype, as measured by the inhibition of capillary endothelial cell migration and of corneal neovascularization. This change in angiogenesis was directly due to the increased secretion of a potent inhibitor of angiogenesis, thrombospondin-1, because: (a) neutralizing thrombospondin completely relieved the inhibition; (b) the inhibitory activity of thrombospondin was not dependent on transforming growth factor beta; and (c) chromosome 10 introduction did not alter secreted inducing activity. ⋯ The effect of chromosome 10 on thrombospondin production in vitro was reflected in patient material. Normal brain and lower grade astrocytomas known to retain chromosome 10 stained strongly for thrombospondin, but 12 of 13 glioblastomas, the majority of which lose chromosome 10, did not. These data indicate that the loss of tumor suppressors on chromosome 10 contributes to the aggressive malignancy of glioblastomas in part by releasing constraints on angiogenesis that are maintained by thrombospondin in lower grade tumors.
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Comparative Study
Inhibition of human breast cancer metastasis in nude mice by synthetic glycoamines.
We have examined the effect of synthetic low molecular weight glycoamine analogues on the metastasis of MDA-MB-435 human breast carcinoma xenografts growing in the mammary fat pads of nude mice. Initial in vitro screening of a panel of synthetic glycoamines was performed using a clonogenic growth assay in 0.9% agarose. Eight of nine compounds manifested a significant dose-dependent inhibition of colony formation by MDA-MB-435 cells in 0.9% agarose. ⋯ The treated animals had no apparent toxicity from chronic daily injection (up to 17 weeks of treatment) of synthetic glycoamines, and no obvious pathology was noted in the histological slides of the livers, kidneys, or spleens of the treated mice. Therefore, we have identified two synthetic glycoamines (Fru-D-Leu and Lac-L-Leu) that were the effective inhibitors of spontaneous human breast cancer metastasis in nude mice. Potential mechanisms for antimetastatic activity of synthetic glycoamines may include the inhibition of beta-galectin-mediated homotypic cancer cell aggregation and induction of apoptosis in target cells.
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Comparative Study
Therapeutic effect of m-[131I]- and m-[125I]iodobenzylguanidine on neuroblastoma multicellular tumor spheroids of different sizes.
m-[l25I]iodobenzylguanidine (m-[125I]MIBG) has been suggested as an alternative to m-[131I]MIBG for the treatment of metastatic neuroblastoma to achieve a higher radiation dose in micrometastases. To compare these two radiopharmaceuticals, a mathematical model was developed in the present study that allows for the calculation of radiation dose rates within small spherical tumors for different distributions of 131I and 125I. Furthermore, the relationship between tumor size and the therapeutic effects of m-[131I]- and m-[125I]MIBG was studied in vitro using multicellular tumor spheroids of the neuroblastoma cell line SK-N-SH. ⋯ In larger spheroids, m-[131I]MIBG induced a more pronounced delay in spheroid growth than m-[125I]MIBG. According to these calculations and in vitro data, m-[125I]MIBG as a single agent does not seem to be a promising alternative to m-[131I]MIBG for treatment of metastatic neuroblastoma. However, the combined use of m-[131I]- and m-[125I]MIBG may be more effective than treatment with m-[131I]MIBG alone.
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Cells with the mutator phenotype are tolerant to methylating damage from N-methylnitrosourea and N-methyl-N'-nitro-N-nitrosoguanine, exhibit replication repair errors, and have recently been found to be mutant in mismatch repair (MMR). However, resistance of cell lines with these defects to clinically used chemotherapeutic agents and the relationship of this resistance to expression of O6-alkylguanine-DNA alkyltransferase (AGT), which repairs DNA damage caused by methylating agents, has not been demonstrated. We compared resistance to the methylating agent temozolomide (TMZ) and to the chloroethylating agent 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU), with and without AGT inhibition by 06-bG in several colorectal carcinoma cell lines. ⋯ All cell lines were sensitized to BCNU by O6-bG. Thus, tumor cells with defects in MMR appear particularly resistant to methylating agents in a manner that overrides dependence on AGT and its inhibition by O6-bG. However, these cells use AGT for resistance to chloroethylating agents, providing an alternative strategy for alkylating agent therapy.
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Local chemotherapy with biodegradable polymers prolongs survival with minimal morbidity in patients with intracranial high-grade gliomas. However, use of local chemotherapy for metastatic brain tumors has not been defined. We studied the safety and the efficacy of locally delivered chemotherapy with and without concurrent radiation therapy in treating tumors that frequently metastasize to the brain. ⋯ These studies demonstrate that local delivery of chemotherapy with concurrent radiation therapy is safe and can significantly prolong survival in models of common intracranial metastatic tumors. Concurrent use of local chemotherapy with standard XRT appears to be more effective than either treatment alone. Local chemotherapy may also be of benefit to patients who have previously received maximal cranial irradiation but suffer an intracranial recurrence.