In vitro yeast phagocytosis by haemocytes of the compound ascidian Botryllus schlosseri was studied, with particular attention to interactions among different immunocyte types. It is demonstrated that the supernatant from haemocyte cultures matched with yeast cells contains factor(s) able to enhance yeast ingestion by Botryllus phagocytes. The increase in phagocytosis is not the consequence of yeast opsonisation, as the phagocytic index does not significantly increase when yeast cells, previously incubated in the culture media, are washed and re-suspended in filtered sea water. When haemocytes were fractionated by density gradient centrifugation and each band was incubated with yeast, the ability to stimulate phagocytosis was found in the supernatants from haemocyte cultures of fractions rich in morula cells (MC). Previous studies have demonstrated that MC express molecules recognised by anti-cytokine antibodies, as a consequence of the recognition of foreign molecules or cells. Our results indicate that molecules immunoreactive with anti-cytokine antibodies are required for modulating phagocyte activity, as the above reported enhancing effect is completely absent in the presence of anti-IL-1-alpha and anti-TNF-alpha, but not of antirabbit-IgG antibodies, and they also highlight the presence of ‘cross-talk‘ between MC and phagocytes. A new scenario is therefore sketched, in which MC actively recognise non-self molecular patterns and, upon this recognition, release humoural factor(s) recognised by phagocytes, which modulate phagocytosis.
Release of phagocytosis-stimulating factor(s) by morula cells in a colonial ascidian
CIMA, FRANCESCA;BALLARIN, LORIANO
2005
Abstract
In vitro yeast phagocytosis by haemocytes of the compound ascidian Botryllus schlosseri was studied, with particular attention to interactions among different immunocyte types. It is demonstrated that the supernatant from haemocyte cultures matched with yeast cells contains factor(s) able to enhance yeast ingestion by Botryllus phagocytes. The increase in phagocytosis is not the consequence of yeast opsonisation, as the phagocytic index does not significantly increase when yeast cells, previously incubated in the culture media, are washed and re-suspended in filtered sea water. When haemocytes were fractionated by density gradient centrifugation and each band was incubated with yeast, the ability to stimulate phagocytosis was found in the supernatants from haemocyte cultures of fractions rich in morula cells (MC). Previous studies have demonstrated that MC express molecules recognised by anti-cytokine antibodies, as a consequence of the recognition of foreign molecules or cells. Our results indicate that molecules immunoreactive with anti-cytokine antibodies are required for modulating phagocyte activity, as the above reported enhancing effect is completely absent in the presence of anti-IL-1-alpha and anti-TNF-alpha, but not of antirabbit-IgG antibodies, and they also highlight the presence of ‘cross-talk‘ between MC and phagocytes. A new scenario is therefore sketched, in which MC actively recognise non-self molecular patterns and, upon this recognition, release humoural factor(s) recognised by phagocytes, which modulate phagocytosis.Pubblicazioni consigliate
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