In order to assess the involvement of autocrine motility factor (AMF) in mesenchymal tumours, AMF protein and mRNA expression was analysed in tumours, tumour-like lesions, and other lesions of bone and soft tissue. Immunohistochemical analysis of 200 cases revealed positive staining in 72.5% of the cases, suggesting that AMF is a widely expressed protein. Chordoid, chondroid, and muscular tumours revealed higher immunoreactivity in both benign and malignant tumours. Immunoblotting analysis corroborated the results of immunohistochemistry. Generally, malignant tumours revealed higher expression of AMF than benign tumours of the same histopathological lineage, except for dermatofibroma/dermatofibrosarcoma protuberans. However, mRNA levels were not concordant with protein levels, and sarcomas that displayed higher mRNA and lower protein expression levels showed a trend for distant metastasis. In cultured cells, AMF was secreted and detected in conditioned culture medium. Furthermore, when proteasome inhibitors were added to cells in order to examine the changes in turnover rates, these compounds did not significantly alter the intracellular levels of AMF protein. On the basis of these overall findings, it is suggested that a particular subset of sarcomas secrete AMF, rather than degrading this protein at a higher turnover rate. This secreted AMF presumably enhances their cell motility through an autocrine effect and eventually causes increased metastatic potential. Collectively, AMF was observed in a wide spectrum of lesions of mesenchymal tissue, supporting the notion that it is involved in various cellular functions, including proliferation, differentiation, metabolism, and metastasis. In addition, higher expression of its mRNA may indicate higher levels of protein secretion and define a particularly aggressive group of tumours with high metastatic potential.
We investigated the changes in percentages of leukocyte subpopulations, natural killer (NK) cells, CD69-expressing lymphocytes, and psychological aspects in 10 subjects who participated in a 10-day confinement study. Suppression of lymphocyte proliferative reaction and changes in leukocyte distribution are known to occur in space. These responses are similar to those induced by psychological stress. Ground-based confinement studies are suitable for validating the effects of stress arising only due to confinement. Two groups, consisting of five male subjects (ages 20-27 yr, mean 22.8 yr) each, participated in a 10-day confinement study. Blood samples were taken once before, three times during, and once after the confinement and activated with an anti-CD2 agonistic antibody cocktail. The percentages of leukocyte subpopulations, NK (CD45(+)CD56+) cells, and activated lymphocytes (CD45(+)CD69+) were measured by flow cytometric assay. The face scale test was used to measure psychological aspects. The percentage of CD69+ lymphocytes decreased during the period of confinement. This was mostly caused by changes in the ratio between NK and non-NK lymphocytes. The face scale showed that the subjects' moods improved toward the postconfinement period. Consistent with the face scale, the percentages of innate immune cells, such as NK cells and granulocytes, increased during the postconfinement period. We concluded that the changes in the distribution of immune cells caused by stress plays an important role in suppression of proliferative reactivity. The observed physiological reactions were specific to the confined environment, and the stress caused by confinement plays a role in the immune changes observed in space.
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