Michiko Takeoka scite author profile

Despite the importance of stromal cells in tumor progression, our overall understanding of the molecular signals that regulate the complex cellular interactions within tumor stroma is limited. Here, we provide multiple lines of evidence that tumor-associated macrophages (TAM) preferentially traffic to stromal areas formed within tumors in a manner dependent on a hyaluronan (HA)-rich tumor microenvironment. To address the role of stroma-derived HA in macrophage recruitment, we disrupted the HA synthase 2 (Has2) gene in stromal fibroblasts using conditional gene targeting. The Has2 null fibroblasts showed severe impairment in recruiting macrophages when inoculated with tumor cells into nude mice, which shows the contribution of stroma-derived HA in intratumoral macrophage mobilization. Furthermore, a deficiency in stromal HA attenuated tumor angiogenesis and lymphangiogenesis concomitantly with impaired macrophage recruitment. Taken together, our results suggest that stromal HA serves as a microenvironmental signal for the recruitment of TAMs, which are key regulatory cells involved in tumor neovascularization. Cancer Res; 70(18); 7073-83. ©2010 AACR.

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Exercise Effects on Methylation ofASCGene

Nakajima

et al. 2010

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Chronic moderate exercise has been reported to reduce pro-inflammatory cytokines. To analyze the molecular mechanisms by which training exerts these effects, the epigenetic influences of age and exercise on the ASC gene, which is responsible for IL-1β and IL-18 secretion, were investigated by ASC gene methylation. Further, the relationship between carcinogenesis and exercise, methylation of the p15 tumor suppressive gene was analyzed as well. High-intensity interval walking exercise, consisting of 3-minute low-intensity walking at 40% of peak aerobic capacity followed by a 3-minute high-intensity walking period above 70% of peak aerobic capacity, was continued for 6 months. Peripheral blood DNA extracts from young control (n=34), older control (n=153), and older exercise (n=230) groups were then analyzed by pyrosequencing for DNA methylation. Methylation of ASC decreased significantly with age (young control vs. older control, p<.01), which is indicative of an age-dependent increase in ASC expression. Compared to the older control group, the degree of ASC methylation was higher in the older exercise group (older control vs. older exercise:, p<.01) and presumably lower ASC expression. Neither exercise nor age affected the methylation of the p15. In summary, chronic moderate exercise appears to attenuate the age-dependent decrease in ASC methylation, implying suppression of excess pro-inflammatory cytokines through reduction of ASC expression.

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Significance of Tumor-Associated Stroma in Promotion of Intratumoral Lymphangiogenesis

Koyama

Kobayashi

Harada

et al. 2008

The American Journal of Pathology

115

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Stromal cells, together with extracellular matrix components, provide a tumor microenvironment that is pivotal for cancer cell growth and progression. In our previous study using a conditional transgenic mouse model of breast cancer, the overproduction of hyaluronan, a major extracellular constituent, accelerated tumor angiogenesis through stromal cell recruitment. This finding led us to investigate the role of hyaluronan in the lymphatic vessel system. Here, we have found that microenvironmental hyaluronan promoted tumor lymphangiogenesis concurrently with the formation of stromal structures. Additionally, lymphatic vessels frequently penetrated and accumulated into stromal compartments, and up-regulation of vascular endothelial growth factor-C and -D was detected at tumor-stromal interfaces. To assess the contribution of stromal cells to lymphangiogenesis in vivo, we established tumor-associated fibroblasts from hyaluronan-overproducing mammary tumors and implanted them together with carcinoma cells from control tumors or MCF-7 human breast carcinoma cells in nude mice. Carcinoma cells grew rapidly in association with marked stromal reactions and lymphangiogenesis. Without the stromal cells, however, the tumors developed slowly with less stroma and lymphatic vessels. These findings underline the significance of tumor-associated stroma in the promotion of intratumoral lymphangiogenesis and suggest a pivotal role for the hyaluronan-rich tumor microenvironment.

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KGF facilitates repair of radiation-induced DNA damage in alveolar epithelial cells

Takeoka

Ward

Pollack

et al. 1997

American Journal of Physiology-Lung Cellular and Molecular Phys

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Administration of exogenous keratinocyte growth factor (KGF) prevents or attenuates several forms of oxidant-mediated lung injury. Because DNA damage in epithelial cells is a component of radiation pneumotoxicity, we determined whether KGF ameliorated DNA strand breaks in irradiated A549 cells. Cells were exposed to 137Cs gamma rays, and DNA damage was measured by alkaline unwinding and ethidium bromide fluorescence after a 30-min recovery period. Radiation induced a dose-dependent increase in DNA strand breaks. The percentage of double-stranded DNA after exposure to 30 Gy increased from 44.6 +/- 3.5% in untreated control cells to 61.6 +/- 5.0% in cells cultured with 100 ng/ml KGF for 24 h (P < 0.05). No reduction in DNA damage occurred when the cells were cultured with KGF but maintained at 0 degree C during and after irradiation. The sparing effect of KGF on radiation-induced DNA damage was blocked by aphidicolin, an inhibitor of DNA polymerases-alpha, -delta, and -epsilon and by butylphenyl dGTP, which blocks DNA polymerase-alpha strongly and polymerases-delta and -epsilon less effectively. However, dideoxythymidine triphosphate, a specific inhibitor of DNA polymerase-beta, did not abrogate the KGF effect. Thus KGF increases DNA repair capacity in irradiated pulmonary epithelial cells, an effect mediated at least in part by DNA polymerases-alpha, -delta, and -epsilon. Enhancement of DNA repair capability after cell damage may be one mechanism by which KGF is able to ameliorate oxidant-mediated alveolar epithelial injury.

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Higher exercise performance and lower VO2max in Tibetan than Han residents at 4,700 m altitude

Ge¹,

Chen²,

Wang³

et al. 1994

Journal of Applied Physiology

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To examine the hypothesis that the pathway of adaptation to high altitude in natives differs considerably from that in newcomers, we measured maximal O2 uptake (VO2max), minute ventilation, anaerobic threshold (AT), blood lactate, and blood gases during maximal exercise in 17 lifelong Tibetan residents and 14 acclimatized Han Chinese newcomers living at the altitude of 4,700 m. The two groups were similar in age, height, and weight, and the subjects were nonathletes. Although VO2max was significantly lower in the Tibetans than in the Hans (30.4 +/- 1.5 vs. 36.0 +/- 1.9 ml.min-1.kg-1 STPD; P < 0.05), at maximal exercise effort the exercise workload was greater (167.7 +/- 4.2 vs. 150.0 +/- 5.9 W; P < 0.05). The mean AT values (in % VO2max) in the Tibetan and Han subjects were 84.1 and 61.6%, respectively (P < 0.01). Minute ventilation at maximal exercise was significantly lower in the Tibetans than in the Hans (68.4 +/- 3.4 vs. 79.7 +/- 4.1 l/min BTPS; P < 0.05), whereas heart rate at maximal effort was equivalent in the two groups. The Tibetans showed lower blood lactate value than did the Hans both before and at the end of exercise. We conclude that the Tibetan natives have higher exercise performance and AT but lower VO2max and blood lactate concentration than do acclimatized Han newcomers. These results may reflect the effects of genetic or peripheral adaptation factors in the Tibetan natives.

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Michiko Takeoka

Hyaluronan Deficiency in Tumor Stroma Impairs Macrophage Trafficking and Tumor Neovascularization

Exercise Effects on Methylation ofASCGene

Significance of Tumor-Associated Stroma in Promotion of Intratumoral Lymphangiogenesis

KGF facilitates repair of radiation-induced DNA damage in alveolar epithelial cells

Higher exercise performance and lower VO2max in Tibetan than Han residents at 4,700 m altitude

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