Fanny Reichert scite author profile

Wallerian degeneration (WD) is the inflammatory response of the nervous system to axonal injury, primarily attributable to the production of cytokines, the mediator molecules of inflammation. We presently document the involvement of the inflammatory cytokines TNFalpha, interleukin (IL)-1alpha, and IL-1beta in peripheral nerve (PNS) injury in C57/BL/6NHSD (C57/BL) mice that display the normal rapid progression of WD (rapid-WD) and C57/BL/6-WLD/OLA/NHSD mice that display abnormal slow progression of WD (slow-WD). TNFalpha and IL-1alpha mRNAs were expressed, whereas TNFalpha but not IL-1alpha protein was synthesized in intact PNS of C57/BL mice. TNFalpha and IL-1alpha protein synthesis and secretion were rapidly upregulated during rapid-WD in Schwann cells. IL-1beta mRNA expression and protein synthesis and secretion were induced sequentially in Schwann cells with a delay after injury. Thereafter, recruited macrophages contributed to the production of TNFalpha, IL-1alpha, and IL-1beta, which in turn augmented myelin phagocytosis by macrophages. Observations suggest that TNFalpha and IL-1alpha are the first cytokines with protein production that is upregulated during rapid-WD. TNFalpha and IL-1alpha may initiate, therefore, molecular and cellular events in rapid-WD (e.g., the production of additional cytokines and NGF). TNFalpha, IL-1alpha, and IL-1beta may further regulate, indirectly, macrophage recruitment, myelin removal, regeneration, and neuropathic pain. In contrast to rapid-WD, the production of TNFalpha, IL-1alpha, and IL-1beta protein was deficient in slow-WD, although their mRNAs were expressed. mRNA expression and protein production of TNFalpha, IL-1alpha, and IL-1beta were differentially regulated during rapid-WD and slow-WD, suggesting that mRNA expression, by itself, is no indication of the functional involvement of cytokines in WD.

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Peripheral nerve injury induces Schwann cells to express two macrophage phenotypes: phagocytosis and the galactose-specific lectin MAC-2

Reichert

1994

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In N mice, peripheral nerve injury is followed by the normal rapid progression of Wallerian degeneration: Schwann cells proliferate and lose their myelin, which is phagocytized and metabolized by blood-borne macrophages. The role of Schwann cells in myelin phagocytosis is debated. Additionally, the molecular mechanisms underlying myelin phagocytosis by the two cell types are not well understood. To elucidate the role of Schwann cells as phagocytes we studied, electron microscopically, in vivo and in vitro degenerating, frozen, and neuroma nerve segments. The major cell types composing these tissues differed: Schwann and macrophages in in vivo degenerating; Schwann in in vitro degenerating; macrophages in frozen; Schwann, macrophages, and fibroblasts in neuroma nerve segments. Both macrophages and Schwann cells phagocytized myelin. We further studied, by immunocytochemistry and immunoblot analysis, the expression of molecules that are characteristically displayed by inflammatory and mature murine macrophages: MAC-1 (the C3b complement receptor), MAC-2 (a galactose- specific lectin), the Fc receptor, and the F4/80 antigen. All were detected in the macrophage-rich, in vivo degenerating, frozen, and neuroma nerve segments. Surprisingly, MAC-2 was also expressed in the macrophage-scarce, Schwann-rich, in vitro degenerating nerve. Immunocytochemistry and immunoblot analysis of isolated non-neuronal cells revealed that both macrophages and Schwann cells displayed MAC-2 on their surface and in their cytoplasm. Morphometry unveiled that galactose and lactose specifically inhibited myelin phagocytosis, as predicted if MAC-2 was mediating myelin phagocytosis by lectinophagocytosis (lectin-mediated phagocytosis). The role of MAC-2 in mediating myelin phagocytosis was further supported by two observations made in W mice that display very slow progression of Wallerian degeneration. First, the failure to degenerate in vivo was associated with deficient MAC-2 production. Second, degeneration that occurred in vitro was associated with MAC-2 production. Furthermore, a strong positive correlation between levels of MAC-2 expression and the extent of myelin destruction by phagocytosis was observed over a wide range of values.

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Myelin down-regulates myelin phagocytosis by microglia and macrophages through interactions between CD47 on myelin and SIRPα (signal regulatory protein-α) on phagocytes

Gitik¹,

Liraz‐Zaltsman²,

Oldenborg

et al. 2011

J Neuroinflammation

134

150

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BackgroundTraumatic injury to axons produces breakdown of axons and myelin at the site of the lesion and then further distal to this where Wallerian degeneration develops. The rapid removal of degenerated myelin by phagocytosis is advantageous for repair since molecules in myelin impede regeneration of severed axons. Thus, revealing mechanisms that regulate myelin phagocytosis by macrophages and microglia is important. We hypothesize that myelin regulates its own phagocytosis by simultaneous activation and down-regulation of microglial and macrophage responses. Activation follows myelin binding to receptors that mediate its phagocytosis (e.g. complement receptor-3), which has been previously studied. Down-regulation, which we test here, follows binding of myelin CD47 to the immune inhibitory receptor SIRPα (signal regulatory protein-α) on macrophages and microglia.MethodsCD47 and SIRPα expression was studied by confocal immunofluorescence microscopy, and myelin phagocytosis by ELISA.ResultsWe first document that myelin, oligodendrocytes and Schwann cells express CD47 without SIRPα and further confirm that microglia and macrophages express both CD47 and SIRPα. Thus, CD47 on myelin can bind to and subsequently activate SIRPα on phagocytes, a prerequisite for CD47/SIRPα-dependent down-regulation of CD47+/+ myelin phagocytosis by itself. We then demonstrate that phagocytosis of CD47+/+ myelin is augmented when binding between myelin CD47 and SIRPα on phagocytes is blocked by mAbs against CD47 and SIRPα, indicating that down-regulation of phagocytosis indeed depends on CD47-SIRPα binding. Further, phagocytosis in serum-free medium of CD47+/+ myelin is augmented after knocking down SIRPα levels (SIRPα-KD) in phagocytes by lentiviral infection with SIRPα-shRNA, whereas phagocytosis of myelin that lacks CD47 (CD47-/-) is not. Thus, myelin CD47 produces SIRPα-dependent down-regulation of CD47+/+ myelin phagocytosis in phagocytes. Unexpectedly, phagocytosis of CD47-/- myelin by SIRPα-KD phagocytes, which is not altered from normal when tested in serum-free medium, is augmented when serum is present. Therefore, both myelin CD47 and serum may each promote SIRPα-dependent down-regulation of myelin phagocytosis irrespective of the other.ConclusionsMyelin down-regulates its own phagocytosis through CD47-SIRPα interactions. It may further be argued that CD47 functions normally as a marker of "self" that helps protect intact myelin and myelin-forming oligodendrocytes and Schwann cells from activated microglia and macrophages. However, the very same mechanism that impedes phagocytosis may turn disadvantageous when rapid clearance of degenerated myelin is helpful.

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Complement-receptor-3 and scavenger-receptor-AI/II mediated myelin phagocytosis in microglia and macrophages

Reichert

Rotshenker

2003

Neurobiology of Disease

108

107

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Granulocyte macrophage colony stimulating factor produced in lesioned peripheral nerves induces the up-regulation of cell surface expression of MAC-2 by macrophages and Schwann cells.

1996

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Fanny Reichert

The Cytokine Network of Wallerian Degeneration: Tumor Necrosis Factor-α, Interleukin-1α, and Interleukin-1β

Peripheral nerve injury induces Schwann cells to express two macrophage phenotypes: phagocytosis and the galactose-specific lectin MAC-2

Myelin down-regulates myelin phagocytosis by microglia and macrophages through interactions between CD47 on myelin and SIRPα (signal regulatory protein-α) on phagocytes

Complement-receptor-3 and scavenger-receptor-AI/II mediated myelin phagocytosis in microglia and macrophages

Granulocyte macrophage colony stimulating factor produced in lesioned peripheral nerves induces the up-regulation of cell surface expression of MAC-2 by macrophages and Schwann cells.

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