scholarly article | Q13442814 |
P2093 | author name string | Cheng He | |
Feng Zhu | |||
Yang Qiu | |||
Jingjing Chen | |||
Yimin Yuan | |||
Xiujie Liu | |||
Yingyan Pu | |||
Yanling Zhu | |||
Zhida Su | |||
P2860 | cites work | Identification of a factor that links apoptotic cells to phagocytes | Q28217034 |
Phosphatidylserine-dependent ingestion of apoptotic cells promotes TGF-beta1 secretion and the resolution of inflammation | Q28344659 | ||
Vitronectin receptor-mediated phagocytosis of cells undergoing apoptosis | Q59061176 | ||
Phagocytic cells in the rat olfactory epithelium after bulbectomy | Q71583799 | ||
Schwann-like macroglia in adult rat brain | Q73496229 | ||
Immune clearance of phosphatidylserine-expressing cells by phagocytes. The role of beta2-glycoprotein I in macrophage recognition | Q73919900 | ||
Response of olfactory ensheathing cells to the degeneration and regeneration of the peripheral olfactory system and the involvement of the neuregulins | Q75383047 | ||
Glial precursors clear sensory neuron corpses during development via Jedi-1, an engulfment receptor | Q28512922 | ||
Sequential expression of Trks A, B, and C in the regenerating olfactory neuroepithelium | Q28572519 | ||
A receptor for phosphatidylserine-specific clearance of apoptotic cells | Q28586441 | ||
Glial cell line-derived neurotrophic factor promotes olfactory ensheathing cells migration | Q28771331 | ||
Cell-surface calreticulin initiates clearance of viable or apoptotic cells through trans-activation of LRP on the phagocyte | Q29615441 | ||
Regulation and function of NF-kappaB transcription factors in the immune system | Q29616427 | ||
The role of phosphatidylserine in recognition of apoptotic cells by phagocytes | Q33592283 | ||
Mechanisms of programmed cell death in the developing brain | Q33944933 | ||
Phagocytosis and clearance of apoptotic cells is mediated by MER. | Q33946282 | ||
Annexin I Is an Endogenous Ligand that Mediates Apoptotic Cell Engulfment | Q34189926 | ||
Olfactory ensheathing cells - another miracle cure for spinal cord injury? | Q34238105 | ||
Recognition of oxidatively damaged and apoptotic cells by an oxidized low density lipoprotein receptor on mouse peritoneal macrophages: role of membrane phosphatidylserine | Q34614956 | ||
Apoptosis in the mature and developing olfactory neuroepithelium | Q34803939 | ||
Relationship between neuronal migration and cell-substratum adhesion: laminin and merosin promote olfactory neuronal migration but are anti-adhesive | Q34933450 | ||
Immunohistochemical localization of a macrophage-specific antigen in developing mouse retina: phagocytosis of dying neurons and differentiation of microglial cells to form a regular array in the plexiform layers | Q36207544 | ||
Phosphatidylserine recognition by phagocytes: a view to a kill | Q36418282 | ||
Repair of neural pathways by olfactory ensheathing cells | Q36753323 | ||
Olfactory ensheathing cell transplantation as a strategy for spinal cord repair--what can it achieve? | Q36753336 | ||
Novel roles for Nogo receptor in inflammation and disease. | Q37131342 | ||
Microglial clearance function in health and disease | Q37222916 | ||
Neurogliogenesis in the mature olfactory system: a possible protective role against infection and toxic dust | Q37332782 | ||
Olfactory ensheathing cells: Biology in neural development and regeneration | Q37788345 | ||
Migratory properties of cultured olfactory ensheathing cells by single-cell migration assay | Q40001327 | ||
Neurogenesis and neuron regeneration in the olfactory system of mammals. I. Morphological aspects of differentiation and structural organization of the olfactory sensory neurons | Q41571927 | ||
Blocking P2X receptors can inhibit the injury-induced proliferation of olfactory epithelium progenitor cells in adult mouse | Q42470302 | ||
Olfactory ensheathing cells and olfactory nerve fibroblasts maintain continuous open channels for regrowth of olfactory nerve fibres | Q42480229 | ||
The dynamics of cell death in the olfactory epithelium | Q42504455 | ||
Response of olfactory Schwann cells to intranasal zinc sulfate irrigation | Q42514330 | ||
Olfactory ensheathing cells are attracted to, and can endocytose, bacteria | Q43877747 | ||
Lysophosphatidic acid regulates the proliferation and migration of olfactory ensheathing cells in vitro | Q44571016 | ||
Lack of p53 delays apoptosis, but increases ubiquitinated inclusions, in proteasomal inhibitor-treated cultured cortical neurons | Q44627817 | ||
CX₃CR1 deficiency exacerbates neuronal loss and impairs early regenerative responses in the target-ablated olfactory epithelium | Q45827379 | ||
Olfactory ensheathing cells: nitric oxide production and innate immunity. | Q46004437 | ||
Basic fibroblast growth factor in the primary olfactory pathway: mitogenic effect on ensheathing cells | Q48205871 | ||
Bacteria and PAMPs activate nuclear factor kappaB and Gro production in a subset of olfactory ensheathing cells and astrocytes but not in Schwann cells | Q48207795 | ||
Olfactory ensheathing glia: properties and function | Q48429219 | ||
Expression of tissue transglutaminase on primary olfactory ensheathing cells cultures exposed to stress conditions. | Q48726036 | ||
Supporting cells as phagocytes in the olfactory epithelium after bulbectomy | Q48827571 | ||
Genetic expression profile of olfactory ensheathing cells is distinct from that of Schwann cells and astrocytes | Q48955254 | ||
CX3CL1/fractalkine regulates branching and migration of monocyte-derived cells in the mouse olfactory epithelium. | Q50616530 | ||
Inhibitory effects of apoptotic cell ingestion upon endotoxin-driven myeloid dendritic cell maturation. | Q52014685 | ||
Olfactory ensheathing cells exhibit unique migratory, phagocytic, and myelinating properties in the X-irradiated spinal cord not shared by Schwann cells | Q57531116 | ||
P433 | issue | 4 | |
P921 | main subject | apoptotic process | Q14599311 |
P304 | page(s) | 490-503 | |
P577 | publication date | 2013-01-22 | |
P1433 | published in | Glia | Q15716658 |
P1476 | title | Olfactory ensheathing cells: the primary innate immunocytes in the olfactory pathway to engulf apoptotic olfactory nerve debris | |
P478 | volume | 61 |
Q38194930 | Biological roles of olfactory ensheathing cells in facilitating neural regeneration: a systematic review |
Q37073972 | Burkholderia pseudomallei Capsule Exacerbates Respiratory Melioidosis but Does Not Afford Protection against Antimicrobial Signaling or Bacterial Killing in Human Olfactory Ensheathing Cells. |
Q34415370 | Burkholderia pseudomallei penetrates the brain via destruction of the olfactory and trigeminal nerves: implications for the pathogenesis of neurological melioidosis |
Q38167721 | Crucial roles for olfactory ensheathing cells and olfactory mucosal cells in the repair of damaged neural tracts |
Q90002275 | Direct neuronal reprogramming of olfactory ensheathing cells for CNS repair |
Q88935614 | Enhancing the Therapeutic Potential of Olfactory Ensheathing Cells in Spinal Cord Repair Using Neurotrophins |
Q28078905 | Environmental Toxicants-Induced Immune Responses in the Olfactory Mucosa |
Q42469054 | Immunocytochemical characterisation of ensheathing glia in the olfactory and vomeronasal systems of Ambystoma mexicanum (Caudata: Ambystomatidae). |
Q98781870 | Insights into olfactory ensheathing cell development from a laser-microdissection and transcriptome-profiling approach |
Q101216876 | Key differences between olfactory ensheathing cells and Schwann cells regarding phagocytosis of necrotic cells: implications for transplantation therapies |
Q48478343 | Lipopolysaccharide and Curcumin Co-Stimulation Potentiates Olfactory Ensheathing Cell Phagocytosis Via Enhancing Their Activation |
Q40462087 | Liquid marbles as bioreactors for the study of three-dimensional cell interactions. |
Q27332261 | Low-dose curcumin stimulates proliferation, migration and phagocytic activity of olfactory ensheathing cells |
Q89882905 | Multi-target approaches to CNS repair: olfactory mucosa-derived cells and heparan sulfates |
Q38844413 | Nitric oxide regulates antagonistically phagocytic and neurite outgrowth inhibiting capacities of microglia |
Q28828352 | Olfactory Ensheathing Cell Transplantation after a Complete Spinal Cord Transection Mediates Neuroprotective and Immunomodulatory Mechanisms to Facilitate Regeneration |
Q35990021 | Olfactory Ensheathing Cells Express α7 Integrin to Mediate Their Migration on Laminin |
Q89038323 | Olfactory Ensheathing Cells for Spinal Cord Injury: Sniffing Out the Issues |
Q91765663 | Olfactory Ensheathing Cells: A Trojan Horse for Glioma Gene Therapy |
Q48486494 | Olfactory ensheathing cells are the main phagocytic cells that remove axon debris during early development of the olfactory system. |
Q60959832 | ROCK Inhibitor Y27632 Induced Morphological Shift and Enhanced Neurite Outgrowth-Promoting Property of Olfactory Ensheathing Cells via YAP-Dependent Up-Regulation of L1-CAM |
Q39610202 | Radial glia interact with primary olfactory axons to regulate development of the olfactory bulb. |
Q48608385 | Radial glia phagocytose axonal debris from degenerating overextending axons in the developing olfactory bulb |
Q38935333 | Regulation of microglial migration, phagocytosis, and neurite outgrowth by HO-1/CO signaling |
Q35039431 | Schwann cell-free adult canine olfactory ensheathing cell preparations from olfactory bulb and mucosa display differential migratory and neurite growth-promoting properties in vitro |
Q89710825 | Sphingosine 1-phosphate promotes the proliferation of olfactory ensheathing cells through YAP signaling and participates in the formation of olfactory nerve layer |
Q40458736 | Streptococcus pneumoniae resists intracellular killing by olfactory ensheathing cells but not by microglia. |
Q38763357 | The Glia Response after Peripheral Nerve Injury: A Comparison between Schwann Cells and Olfactory Ensheathing Cells and Their Uses for Neural Regenerative Therapies. |
Q92860504 | The plant natural product 2-methoxy-1,4-naphthoquinone stimulates therapeutic neural repair properties of olfactory ensheathing cells |
Q43758916 | Transplantation of Cultured Olfactory Bulb Cells Prevents Abnormal Sensory Responses During Recovery From Dorsal Root Avulsion in the Rat. |