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Notes: The content of calcitonin gene-related peptide (CGRP) and CGRP-mRNA were determined in axotomized rat facial motor nucleus and sensory fifth lumbar dorsal root ganglion (L5 DRG) using radioimmunoassay and Northern blot analysis. After facial nerve transection CGRP levels in the facial nucleus showed a biphasic, five-fold increase. A first peak occurred at postoperative day 3 and, after a transient decrease to normal levels at day 9, another increase was observed reaching a peak around the time of reinnervation (postoperative day 21). CGRP-mRNA showed a similar, biphasic increase. The first peak in CGRP mRNA preceded the peptide peak by 2 days, the second peak was day 21. In contrast, a decrease in CGRP levels is seen in L5 DRG after sciatic nerve section, reaching minimal levels of 45% of control during the second postoperative week. CGRP-mRNA in axotomized DRG also decreases preceding the decrease in peptide levels. No recovery to normal levels is seen for either peptide or mRNA levels in regenerating DRG up to 45 days after injury. Thus, axotomy leads to a differential regulation of both CGRP and CGRP-mRNA in regenerating facial motor nucleus and sensory L5 DRG. This difference may be due to different regulating factors present in both the respective target tissues and the CNS regions and could reflect different functions of CGRP in regenerating motor and sensory neurons.

Notes: Iron-saturated transferrin is a ubiquitous growth factor that plays a critical role in cellular iron uptake, growth and proliferation. Here we have studied the expression and distribution of transferrin receptors and iron uptake following injury of the rat sciatic nerve. Axotomy led to a massive but transient increase (days 2–9, maximum day 4) in [125l]transferrin binding at the site of the injury and in the distal, denervated part of the crushed or resected sciatic nerve, shortly preceding the time course of cellular proliferation (Friede and Johnstone, Acta Neuropathol, 7, 218–231, 1967; Jurecka et al., Acta Neuropathol, 32, 299–312, 1975). An additional, transient increase in specific binding was observed during reinnervation after reconnection of the resected sciatic nerve. Immunocytochemistry using the Ox-26 monoclonal antibody revealed strong and simultaneous expression of the transferrin receptor protein on two different cell types: on a subpopulation of blood-borne macrophages invading the injured peripheral nerve and on Schwann cells reacting to denervation and reinnervation. In addition, studies using intravenously injected radioactive iron (59Fe3+) showed a massive increase in endoneural iron uptake confined to the lesion site and to the distal part of the axotomised sciatic nerve, parallel to the time course of reactive transferrin receptor expression. Since iron is an essential cofactor of a number of key enzymes needed in energy metabolism and DNA synthesis, these data suggest that the induction of transferrin receptor expression may play an important role in the regulation of cellular growth and proliferation during peripheral nerve regeneration.

Notes: Abstract Intercellular adhesion molecule 1 (ICAM-1, CD54) is a widely expressed glycoprotein, which plays an important role in leukocyte extravasation and in the interaction of lymphocytes with antigen-presenting cells. In the current study we examined the regulation of ICAM-1 in the mouse facial motor nucleus after facial nerve transection, using immunohistochemistry, confocal laser microscopy and electron microscopy. In the normal facial nucleus ICAM-1 immunoreactivity was restricted to vascular endothelium. Transection of the facial nerve led to a strong and selective upregulation of ICAM-1 on activated microglia. Quantitation of microglial ICAM-1 immunoreactivity revealed a biphasic increase. The first peak 1–2 days post operation paralleling the early stage of microglial activation was followed by a decline at 4–7 days. The second induction of ICAM-1 occured at day 14 accompanying the period of neuronal cell death and microglial phagocytosis of neuronal debris. Immunoelectron microscopy showed strong ICAM-1 reactivity on the cell membrane of activated microglia at day 2. During the second peak (day 14), ICAM-1 was also observed on lymphocytes adhering to phagocytotic microglia forming aggregates around neuronal debris. No immunolabelling was observed on neurons, astrocytes or oligodendroglia. These data suggest the involvement of ICAM-1 in the adhesion of activated microglia, in their phagocytosis of neuronal debris, and also in the interaction with infiltrating lymphocytes following this injury.

Notes: Abstract Brain lesions, even of the most subtle type, are accompanied by the activation of microglia, the main immune cells of the brain. Microglial cells dramatically increase in number through proliferation and adhere to the injured neurons, where they displace the synaptic input. After proliferation, microglia gradually migrate into the nearby parenchyma and appear to decrease in number. Here we examined the possible involvement of apoptosis in the regulation of the microglial cell number using Terminal transferase mediated d-UTP Nick End-Labelling (TUNEL). In vitro, cell death is a common phenomenon in microglial cell cultures, and is enhanced by the withdrawal of the mitogen, granulocyte-macrophage colony stimulating factor. In vivo, application of the TUNEL-reaction revealed TUNEL-positive microglia beginning at day 4, with a peak 7 days after transection of the facial nerve. Surprisingly, TUNEL-labelling in vivo was localized on the outer side of the nuclear membrane and in the microglial cytoplasm, with very little staining within the nucleus itself. These TUNEL-labelled cells also lacked other classic morphological signs of apoptosis, like membrane blebbing, chromatin condensation and apop-totic bodies. These data suggest that the regulation of post-mitotic microglia is not mediated by the classic pathway of apoptosis.

Notes: Summary Resident endoneurial macrophages form a prominent, but little recognized component of the PNS. We have studied immunocytochemically the distribution, morphology and immunophenotype of endoneurial macrophages in several normal peripheral nerves of the rat. In addition, we investigated the macrophage response following crush injury of the sciatic nerve. Resident endoneurial macrophages had a ramified morphology with processes oriented parallel to the long axis of nerve fibres. They were positive for several monocyte/macrophage markers such as ED1, ED2 and the recently-described MUC 101 and MUC 102 antibodies. They furthermore expressed the complement type three receptor, the CD4 antigen and MHC class I and II molecules. These results were consistent in all the peripheral nerves studied. In addition, 1000 rad of γ-irradiation led to a strong reduction in the number of MHC class II-positive ramified cells in the peripheral nerves similar to that observed in other peripheral organs such as the heart. A considerable percentage of resident macrophages in the PNS and/or their precursor cells are therefore radiosensitive and could be related to the lineage of dendritic cells. Following crush injury, ED1-3-, OX-42-, MUC 101- and MUC 102-positive round macrophages were observed from 24 h postlesion onward at the site of trauma. In the distal part, they were observed to form strings of round, foamy macrophages probably involved in myelin phagocytosis. In contrast, the number of MHC class II-positive resident macrophages was only slightly increased at the site of trauma and in the distal part. These cells transformed from a ramified to a round morphology, but did not appear as typical strings of foamy macrophages. These results demonstrate that the PNS is provided with a resident macrophage population analogous in many respects to microglial cells in the CNS. These constitutively MHC class II-positive PNS microglial-like cells could act as the major antigen-presenting cells in the peripheral nerve. They may thus constitute a local immune defense system of the PNS with a function similar to that of microglial cells in the CNS.