Ewa M. Turner

The role of interleukin 1 in growth and metastasis of human cancer xenografts.

BACKGROUND: Interleukin 1 (IL-1) is a pluripotent cytokine that promotes angiogenesis, tumor growth, and metastasis in experimental models; its presence in some human cancers is associated with aggressive tumor biology. The purpose of these studies was to characterize the role of IL-1 in human cancers and determine if inhibition of IL-1 via its receptor antagonist, IL-1Ra, alters tumor growth and metastatic potential. METHODS: IL-1 mRNA or protein levels were determined in clinical tumor samples, cancer cell lines, and xenografts using quantitative reverse transcription-PCR or ELISA. Biological activity of tumor-derived IL-1 protein was shown via induction of permeability across endothelial cell monolayers. The effects of recombinant IL-1Ra on tumor lines in culture (cell proliferation and IL-8 secretion) and in xenograft models (tumor growth, metastatic potential, and intratumoral levels of IL-8 and VEGF) were characterized. The effects of IL-1Ra-mediated regression of xenograft growth on angiogenic proteins (IL-8 and VEGF) were evaluated in an IL-1-producing melanoma (SMEL) xenograft model. RESULTS: IL-1 mRNA was highly expressed in more than half of all tested metastatic human tumor specimens including non-small-cell lung carcinoma, colorectal adenocarcinoma, and melanoma tumor samples. Constitutive IL-1 mRNA expression was identified in several cancer cell lines; tumor supernatant from these cell lines produced a significant increase in endothelial cell monolayer permeability, a hallmark event in early angiogenesis, in an IL-1-dependent manner. Moreover, systemic recombinant IL-1Ra resulted in significant inhibition of xenograft growth and neovessel density of IL-1-producing, but not non-IL-1-producing, tumor cell lines. Subsequent analysis of SMEL, a melanoma cell line with constitutive IL-1 production, showed that neither exogenous IL-1 nor IL-1Ra altered tumor cell proliferation rates in vitro. Gene expression analyses of IL-1Ra-treated SMEL xenografts showed a >3-fold down-regulation of 100 genes compared with control including a marked down-regulation of IL-8 and VEGF. CONCLUSIONS: These data show that the IL-1 gene is frequently expressed in metastases from patients with several types of human cancers. IL-1Ra inhibits xenograft growth in IL-1-producing tumors but has no direct antiproliferative effects in vitro; decreased tumor levels of IL-8 and VEGF may be an early surrogate of IL-1Ra-mediated antitumor activity. IL-1Ra may have a role alone or with other agents in the treatment of human cancers.

Retroviral gene transfer of interferon‐inducible protein 10 inhibits growth of human melanoma xenografts

Interferon‐inducible protein 10 (IP‐10) is an immunomodulatory chemokine recently recognized to have potent antiangiogenic activity in vivo. Due to difficulties in the stability, manufacture and chronic administration of recombinant forms of endogenous antiangiogenic proteins, antiangiogenic gene therapy has emerged as a promising new form of cancer treatment. We retrovirally transduced A375 human melanoma cells with the human IP‐10 gene and injected cells subcutaneously into nude mice. IP‐10‐transduced cells also were mixed with null‐transduced cells in varying proportions before injection. In vivo growth of IP‐10‐transduced melanoma cells was markedly diminished compared to parental or null‐transduced cells (p = 0.0002, Kruskal‐Wallis test). This growth inhibition was associated with a marked reduction in microvessel density. The degree of growth inhibition of tumors following injection of a mixed population of null‐ and IP‐10‐transduced cells was directly associated with the fraction of IP‐10‐transduced cells present. We conclude that retroviral transduction of human melanoma cells with the IP‐10 gene leads to sufficient protein secretion to inhibit angiogenesis and tumor growth. These findings suggest that IP‐10 gene therapy might be an effective therapy in patients with cancer. Published 2002 Wiley‐Liss, Inc.

Interferon γ-inducible protein 10 selectively inhibits proliferation and induces apoptosis in endothelial cells

BackgroundInterferon γ–inducible protein 10 (IP-10) has antitumor effects in various murine models. The IP-10 receptor has two distinct splice variants, CXCR3A and CXCR3B, that have paradoxical effects after ligand-receptor interaction.MethodsTo characterize the putative antiangiogenic effects of IP-10, we measured proliferation rates and apoptosis in human umbilical vein endothelial cells (HUVECs), fibroblasts, and A375 melanoma or WIDR adenocarcinoma cell lines after exposure to the recombinant protein. CXCR3A (activating) and CXCR3B (inhibitory/proapoptotic) messenger RNA (mRNA) expression levels in fibroblasts, 2 human tumor cell lines, T lymphocytes, and HUVECs of varying cell densities were characterized.ResultsIP-10 resulted in dose-dependent and selective inhibition of proliferation and countered the proliferative effects of vascular endothelial growth factor in HUVECs but did not affect fibroblasts or 2 human tumor cell lines. In addition, IP-10 resulted in potent and selective induction of apoptosis in HUVECS but had no effect on fibroblasts or A375 melanoma. Confluent HUVECs had a predominance of mRNA for the CXCR3B splice variant by reverse transcriptase-polymerase chain reaction, and the ratio of CXCR3B to CXCR3A mRNA was >40 in HUVECs, compared with ≤10 in the other cell types. Moreover, CXCR3B mRNA levels were significantly higher in proliferating compared with confluent HUVECs. In vivo, systemic IP-10 administration resulted in slower A375 xenograft growth rates compared with control-treated animals, and immunohistochemical staining showed decreased microvessel density in xenografts of IP-10–treated mice.ConclusionsIP-10 has antiangiogenic properties and selective effects on endothelial tissue that may be secondary to higher levels of the CXCR3B inhibitory/proapoptotic receptor in that cell type, particularly in its actively proliferating state.

Interleukin-1β induced vascular permeability is dependent on induction of endothelial Tissue Factor (TF) activity

IL-1β is a pleotropic cytokine that may mediate increased procoagulant activity and permeability in endothelial tissue during inflammatory conditions. The procoagulant effects of IL-1β are mediated through induction of tissue factor (TF) but its alterations on vascular permeability are not well characterized. We found that IL-1β induced a rapid and dose-dependent increase in TF activity in human umbilical vein endothelial cells (ECs) under routine culture conditions. However, IL-1β caused a rapid and marked increase in permeability across confluent EC monolayers using a two-compartment in vitro model only in the presence of factor VIII-deficient plasma that was completely abrogated by neutralizing anti-TF antibody pre-treatment. In vitro permeability was associated with loss of EC surface expression of VE-cadherin and contraction of F-actin cytoskeletal elements that resulted in EC intercellular gap formation. These data demonstrate that IL-1β induces marked changes in permeability across activated endothelium via a TF dependent mechanism and suggest that modulation of TF activity may represent a strategy to treat various acute and chronic inflammatory conditions mediated by this cytokine.

Isolated organ perfusion does not result in systemic microembolization of tumor cells.

Background: Isolated organ perfusion with hyperthermia and melphalan with or without tumor necrosis factor-a has been effectively used to treat regionally confined, unresectable malignancies of both the limb and liver. Many patients, however, will eventually relapse at distant sites. We used reverse transcription-polymerase chain reaction (RT-PCR) to determine whether significant tumor microembolization occurs in patients undergoing isolated limb perfusion (ILP), isolated hepatic perfusion (IHP), or hepatic resection.Methods: Primers specific for the human tyrosinase gene or carcinoembryonic antigen gene were designed for RT-PCR to screen melanoma or colon adenocarcinoma, respectively. RNA from human melanoma lines (Pmel and 1286) and human colon adenocarcinoma lines (H508 and HT29) were used to generate positive control cDNA. Normal human blood was inoculated with tumor cells at concentrations that ranged from 1022 to 105 tumor cells/ml of blood to define the sensitivity. Systemic and perfusate blood samples were drawn from 15 patients (8 patients underwent IHP, 5 patients underwent ILP, and 2 patients underwent resection) before the start of the operation, immediately before and during the perfusion, and postoperatively. Mononuclear cell fractions were separated from the blood samples and RNA was extracted for the RT-PCR assay. Standard primers for human b-actin were used to confirm that cDNA was generated after the RT reaction.Results: RT-PCR assay sensitivity was determined to be 10 tumor cells/ml of whole blood. Of the 8 IHP patients, 6 had colon metastases and 2 had ocular melanoma metastases to the liver. All 5 ILP patients had in transit melanoma of the extremity. Two patients with colon metastases to the liver were found to have resectable disease. There were no detectable circulating tumor cells in the systemic circulation either preoperatively or postoperatively in all 15 patients that were screened.Conclusions: RT-PCR is a highly sensitive method of detecting tumor cells in perfusate or blood. Manipulation of the limb or liver followed by resection or isolated hyperthermic perfusion does not cause detectable release of circulating tumor cells. The late development of distant metastases observed in many of these patients does not correlate with the ability to measure circulating tumor cells during regional therapy.

Alterations in tumor necrosis factor-induced endothelial cell procoagulant activity by hyperthermia

TNF is a cytokine with potent antitumor activity in murine models and when administered clinically via regional perfusion. There is substantial evidence that this antitumor activity depends in large part on TNFs procoagulant effect on tumor neovasculature, which is mediated by induction of endothelial cell tissue factor (TF), a component of the extrinsic clotting cascade. In regional perfusion of a cancer‐bearing limb or organ, TNF is always administered under hyperthermic temperatures; however, little is known about the effect of hyperthermia on TNF‐mediated procoagulant activity in endothelium. We examined the effects of hyperthermia on TNF‐mediated procoagulant activity in human umbilical vein endothelial cells (HUVECs). HUVECs were exposed to TNF at normothermic (37°C) and hyperthermic (41°C) temperatures for 90 min, then assayed for clotting activity, TF protein production and mRNA production of TF and tissue factor pathway inhibitor‐2 (TFPI‐2), an endogenous inducible inhibitor of TF activity in HUVECs. TNF treatment at 41°C significantly reduced clotting activity, TF protein and mRNA as well as TFPI‐2 mRNA compared to treatment at 37°C. These data show that hyperthermia significantly reduces the procoagulant effects of TNF on endothelial tissue compared to normothermia, which may have important clinical implications for the use of TNF in regional perfusion.

Interferon-inducible protein (IP)-10 inhibition of melanoma xenograft growth in nude mice is associated with alterations in angiogenic gene expression profiles

S: PLENARY and PARALLEL SESSIONS 5O Systemic administration of an anti-VEGF monoclonal antibody inhibits growth of human pancreatic adenocarcinoma in an orthotopic mouse model S.E. Holloway,* A. Beck, M. Davis, T. Hart, R.A. Brekken, J.B. Fleming. University of Texas Southwestern Medical