Abstract
Controlled release of chromatin from the nuclei of inflammatory cells is
a process that entraps and kills microorganisms in the extracellular
environment. Now termed ETosis, it is important for innate immunity in
vertebrates. Paradoxically, however, in mammals, it can also contribute
to certain pathologies. Here we show that ETosis occurs in several
invertebrate species, including, remarkably, an acoelomate. Our findings
reveal that the phenomenon is primordial and predates the evolution of
the coelom. In invertebrates, the released chromatin participates in
defence not only by ensnaring microorganisms and externalizing
antibacterial histones together with other haemocyte-derived defence
factors, but crucially, also provides the scaffold on which intact
haemocytes assemble during encapsulation; a response that sequesters and
kills potential pathogens infecting the body cavity. This insight into
the early origin of ETosis identifies it as a very ancient process that
helps explain some of its detrimental effects in mammals.
Original language | English |
---|---|
Article number | 4627 |
Number of pages | 11 |
Journal | Nature Communications |
Volume | 5 |
DOIs | |
Publication status | Published - 13 Aug 2014 |