A pro- and an anti-inflammatory cytokine are synthesised in distinct brain macrophage cells during innate activation.

Brain macrophages are known to exert dual and opposing functions on neuronal survival, which can be either beneficial or detrimental. The rationale of our study is that this duality could arise from an exclusive secretion of either pro- or anti-inflammatory cytokine by distinct cell subsets, cytokines that could respectively mediate neurotoxic or neurotrophic effects. Innate immune response was induced in macrophage cultures prepared from embryonic-day-16 to postnatal-day-8 mouse brains. By immunofluorescent detection of intracellular cytokines, we have assessed the occurrence of TNFalpha or IL10 synthesis at single cell level and observed distinct secretory patterns that include cells producing exclusively TNFalpha or IL10, cells producing both cytokines and non-producer cells. These secretory patterns are differentially regulated by MAP-kinase inhibitors. Altogether, these results demonstrate that synthesis of either a pro- or an anti-inflammatory cytokine can segregate distinct brain macrophages and suggests a functional cell-subset-specialisation.

Biochemical and functional characterization of Rab27a mutations occurring in Griscelli syndrome patients.

Rab27a is a member of the Rab family of small GTPase proteins, and thus far is the first member to be associated with a human disease (ie, the Griscelli syndrome type 2). Mutations in the Rab27a gene cause pigment as well as cytotoxic granule transport defects, accounting for the partial albinism and severe immune disorder characteristics of this syndrome. So far, 3 Rab27a missense mutations have been identified. They open a unique opportunity to designate critical structural and functional residues of Rab proteins. We show here that the introduction of a proline residue in the alpha 4 (Ala152Pro) or beta 5 (Leu130Pro) loop, observed in 2 of these spontaneous mutants, dramatically affects both guanosine triphosphate (GTP) and guanosine diphosphate (GDP) nucleotide-binding activity of Rab27a, probably by disrupting protein folding. The third mutant, Trp73Gly, is located within an invariant hydrophobic triad at the switch interface, and was previously shown in active Rab3A to mediate rabphilin3A effector interaction. Trp73Gly is shown to display the same nucleotide-binding and GTPase characteristics as the constitutively active mutant Gln78Leu. However, in contrast to Gln78Leu, Trp73Gly mutant construct neither interacts with the Rab27a effector melanophilin nor modifies melanosome distribution and cytotoxic granule exocytosis. Substitutions introduced at the 73 position, including the leucine residue present in Ras, did not restore Rab27a protein functions. Taken together, our results characterize new critical residues of Rab proteins, and identify the Trp73 residue of Rab27a as a key position for interaction with the specific effectors of Rab27a, both in melanocytes and cytotoxic cells.