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Query: UNIPROT:P17931 (
galectin-3
)
2,860
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
PMID:Peripheral nerve injury induces Schwann cells to express two macrophage phenotypes: phagocytosis and the galactose-specific lectin MAC-2. 818 68
The removal of degenerating myelin by phagocytosis is central to pathogenesis and repair in traumatized and diseased nervous system.
Galectin-3
/MAC-2 is a differentiation and activation marker of murine and human monocytes/macrophages/microglia.
Galectin-3
/MAC-2, along with
MAC-1
that mediates myelin phagocytosis, marks an in vivo activation state in macrophages, which are involved in myelin degeneration and phagocytosis in injured mouse peripheral nerves. In contrast, high levels of
MAC-1
but extremely low levels of
Galectin-3
/MAC-2 are expressed in vivo in injured CNS where myelin degeneration and phagocytosis progress extremely slowly. The present study was aimed at testing whether an activation state marked by
Galectin-3
/MAC-2 is present in vivo in the CNS of EAE mice concomitant with autoimmune induced myelin degeneration and phagocytosis. EAE was inflicted by mouse spinal cord homogenate. Demyelination was assessed by light microscopy and
Galectin-3
/MAC-2,
MAC-1
, and F4/80 expression by immunocytochemistry. We presently document that
Galectin-3
/MAC-2 expression is up regulated, along with
MAC-1
and F4/80, in spinal cords and optic nerves of EAE mice in areas of demyelination and myelin degeneration, in myelin phagocytosing microglia and macrophages. Copolymer 1 (Glatiramer acetate) suppresses EAE, demyelination, and
Galectin-3
/MAC-2 expression. EAE pathogenesis thus involves a state of activation in microglia and macrophages characterized by the expression
Galectin-3
/MAC-2 along with
MAC-1
. Furthermore, the in vivo responses to injury and autoimmune challenge in the CNS differ in the activation pattern of microglia and macrophages with regard to
Galectin-3
/MAC-2 expression and the corresponding occurrence of myelin degeneration and phagocytosis.
...
PMID:Galectin-3/MAC-2 in experimental allergic encephalomyelitis. 1061 68
Microglia and macrophages play critical roles in the response of the central and peripheral nervous systems (CNS and PNS, respectively) to injury and disease, one of which is the removal of degenerated myelin by phagocytosis. Myelin removal is efficient during Wallerian degeneration, which follows injury to PNS axons, and in CNS autoimmune demyelinating diseases (e.g., multiple sclerosis) but is inefficient after injury to CNS axons. We suggest that inefficient myelin removal results from deficient microglia activation, reflected by the failure to up-regulate
Galectin-3
/MAC-2 expression, which marks a state of activation correlated with efficient myelin phagocytosis. Surprisingly, whether or not executing myelin phagocytosis, CNS microglia express the alphaM/beta2 integrin complement receptor-3 (CR3/
MAC-1
), which has the potential of mediating efficient myelin phagocytosis. We hypothesize that CR3/
MAC-1
might be present in distinct inactive and active states that determine, respectively, efficient and inefficient CR3/
MAC-1
-mediated myelin phagocytosis. We present evidence that CR3/
MAC-1
-mediated myelin phagocytosis is regulated in microglia and macrophages. First, CR3/
MAC-1
- mediated myelin phagocytosis has complement-dependent and -independent components. Second, an active complement system augments CR3/
MAC-1
-mediated myelin phagocytosis. Third, anti-alphaM monoclonal antibodies (MAbs) inhibit and anti-beta2 MAbs augment CR3/
MAC-1
-mediated myelin phagocytosis in the presence and absence of an active complement system. Fourth, an active complement system modulates MAb-induced regulation of CR3/
MAC-1
-mediated myelin phagocytosis. Overall, MAb-induced phagocytosis regulation might range three- to sevenfold from inefficient to efficient. We suggest that one of the mechanisms underlying MAb-induced phagocytosis regulation is the induction/stabilization of inactive and active conformational changes. Monoclonal antibody-induced phagocytosis regulation must reveal a mechanism by which native extracellular molecules bind to and regulate CR3/
MAC-1
-mediated myelin phagocytosis in microglia and macrophages.
...
PMID:Microglia and macrophage activation and the regulation of complement-receptor-3 (CR3/MAC-1)-mediated myelin phagocytosis in injury and disease. 1450 Sep 97
The removal of degenerated myelin is essential for repair in Wallerian degeneration that follows traumatic injury to axons and in autoimmune demyelinating diseases (e.g., multiple sclerosis). Microglia can remove degenerated myelin through phosphatidylinositol-3-kinase (PI3K)-dependent phagocytosis mediated by complement receptor-3 (CR3/
MAC-1
) and scavenger receptor-AI/II (SRAI/II). Paradoxically, these receptors are expressed in microglia after injury but myelin is not phagocytosed. Additionally,
Galectin-3
/MAC-2 is expressed in microglia that phagocytose but not in microglia that do not phagocytose, suggesting that
Galectin-3
/MAC-2 is instrumental in activating phagocytosis. S-trans, trans-farnesylthiosalicylic (FTS), which inhibits
Galectin-3
/MAC-2 dependent activation of PI3K through Ras, inhibited phagocytosis. K-Ras-GTP levels and PI3K activity increased during normal phagocytosis and decreased during FTS-inhibited phagocytosis.
Galectin-3
/MAC-2, which binds and stabilizes active Ras, coimmunoprecipitated with Ras and levels of the coimmunoprecipitate increased during normal phagocytosis. A role for
Galectin-3
/MAC-2 dependent activation of PI3K through Ras, mostly K-Ras, is thus suggested. An explanation may thus be offered for deficient phagocytosis by microglia that express CR3/
MAC-1
and SRAI/II without
Galectin-3
/MAC-2 and efficient phagocytosis when CR3/
MAC-1
and SRAI/II are co-expressed with
Galectin-3
/MAC-2.
...
PMID:Galectin-3/MAC-2, Ras and PI3K activate complement receptor-3 and scavenger receptor-AI/II mediated myelin phagocytosis in microglia. 1861 37
Microglia are a self-sustained population of immune/myeloid cells present throughout the central nervous system (CNS). Microglia are in a "resting" state in the normal adult CNS. They turn "active" in injury and disease (e.g., trauma, neurodegeneration, and infection). Activated microglia can be beneficial as well as detrimental/neurotoxic. The innate-immune function of phagocytosis of tissue debris, neurotoxic factor, and pathogens is a beneficial function of microglia. The current manuscript reviews the role of
Galectin-3
(known also as MAC-2;
Galectin-3
/MAC-2) in the activation of the phagocytosis of degenerated myelin that is mediated by complement receptor-3 (known also as
MAC-1
; CD11b/CD18; alphaMbeta2 integrin) and SRA (scavenger receptor-AI/II). Observations suggest that
Galectin-3
/MAC-2 may act as a molecular switch that activates phagocytosis by up-regulating and prolonging KRas-GTP-dependent PI3K (phosphatidylinositol 3-kinase) activity. A similar mechanism may regulate the phagocytosis of other tissue debris, neurotoxic factors and pathogens in neurodegenerative and infectious diseases.
...
PMID:The role of Galectin-3/MAC-2 in the activation of the innate-immune function of phagocytosis in microglia in injury and disease. 1925 7
