Features of bilirubin-induced reactive microglia: from phagocytosis to inflammation.

Microglia constitute the brain's immunocompetent cells and are intricately implicated in numerous inflammatory processes included in neonatal brain injury. In addition, clearance of tissue debris by microglia is essential for tissue homeostasis and may have a neuroprotective outcome. Since unconjugated bilirubin (UCB) has been proven to induce astroglial immunological activation and neuronal cell death, we addressed the question of whether microglia acquires a reactive phenotype when challenged by UCB and intended to characterize this response. In the present study we report that microglia primary cultures stimulated by UCB react by the acquisition of a phagocytic phenotype that shifted into an inflammatory response characterized by the secretion of the pro-inflammatory cytokines tumour necrosis factor (TNF)-α, interleukin (IL)-1ß, and IL-6, upregulation of cyclooxygenase (COX)-2 and increased matrix metalloproteinase (MMP)-2 and -9 activities. Further investigation upon upstream signalling pathways revealed that UCB led to the activation of mitogen-activated protein kinases (MAPKs) and nuclear factor (NF)-κB at an early time point, suggesting that these pathways might underlie both the phagocytic and the inflammatory phenotypes engaged by microglia. Curiously, the phagocytic and inflammatory phenotypes in UCB-activated microglia seem to alternate along time, indicating that microglia reacts towards UCB insult firstly with a phagocytic response, in an attempt to constrain the lesion extent and comprising a neuroprotective measure. Upon prolonged UCB exposure periods, either a shift on global microglia reaction occurred or there could be two distinct sub-populations of microglial cells, one directed at eliminating the damaged cells by phagocytosis, and another that engaged a more delayed inflammatory response. In conclusion, microglial cells are relevant partners to consider during bilirubin encephalopathy and the modulation of its activation might be a promising therapeutic target.

[Follow-up of pregnancies with red-cell allo-immunisation: State-of-the art]. / Le point sur le suivi des allo-immunisations érythrocytaires.

Anti-RhD allo-immunisation has become rare since anti-D prophylaxis was introduced in the seventies; however, it remains the first cause of fetal anemia. It may cause severe fetal complications such as fetal hydrops, cerebral anoxic lesions and fetal death. In the neonatal period, severe jaundices and anemias requiring transfusion or exsanguino-transfusion are still common in case of severe allo-immunisation. Neonatal death and sequellae due to bilirubin encephalopathy have not fully disappeared. Follow-up of pregnancies with maternal allo-immunisation requires identification of the antibody (anti-RhD, anti-Kell and anti-c are the most frequently responsible for fetal complications), dosage and titration. In RhD allo-immunization, feto-maternal incompatibility may be confirmed by non-invasive RHD genotyping of the fetus in maternal blood. In cases at risk for fetal anemia, weekly Doppler assessment of middle cerebral artery peak systolic velocity (MCA-PSV) allows identification of fetal anemia before the occurrence of fetal hydrops. The reference treatment of fetal anemia is in utero fetal transfusion. The risk of fetal loss due to in utero transfusion (IUT) is 3% per procedure. The cumulated risk of fetal loss can thus exceed 10% in case of early occurrence of fetal anemia requiring up to five or six IUTs in a single pregnancy.