Two in vitro assays have been developed to analyse how a defined cytoplasmic membrane surface, latex bead phagosomes (LBP) from macrophages (A) assembles actin de novo and (B) binds to F-actin. A large network of proteins and lipids has been identified that regulates the assembly process. The phagosomes of non-pathogenic mycobacteria were found to assemble actin similarly to the LBP but those containing the pathogens M.tuberculosis or M.avium are known to be strongly inhibited in this process, in fusion with lysosomes and in acidification. Lipids were identified that, when added to infected cells could switch on, not only actin assembly by pathogenic mycobacterial phagosomes but also phagosomal maturation in general, leading to pathogen killing. A biocomputing approach, elementary mode analysis is being applied to identify the flux modes of metabolites through the network in the phagosomal membrane, leading to many predictions which could be experimentally verified. Our goal is to combine theory and experiments to provide a holistic description of how membrane signalling networks regulate two defined membrane functions, actin assembly and binding.

DFG-Verfahren Schwerpunktprogramme

Teilprojekt zu SPP 1150:  Signalwege zum Zytoskelett und bakterielle Pathogenität

Beteiligte Personen Professor Gareth Griffiths, Ph.D.; Privatdozent Dr. Sergei A. Kuznetsov