About: AIMS: Some central nervous system pathogens express neuraminidase (NA) on their surfaces. In the rat brain, a single intracerebroventricular (ICV) injection of NA induces myelin vacuolation in axonal tracts. Here, we explore the nature, the time course, and the role of the complement system in this damage. METHODS: The spatiotemporal analysis of myelin vacuolation was performed by optical and electron microscopy. Myelin basic protein-positive area and oligodendrocyte transcription factor (Olig2)-positive cells were quantified in the damaged bundles. Neuronal death in the affected axonal tracts was assessed by Fluoro-Jade B and anti-caspase-3 staining. To evaluate the role of the complement, membrane attack complex (MAC) deposition on damaged bundles was analyzed using anti-C5b9. Rats ICV injected with the anaphylatoxin C5a were studied for myelin damage. In addition, NA-induced vacuolation was studied in rats with different degrees of complement inhibition: normal rats treated with anti-C5-blocking antibody and C6-deficient rats. RESULTS: The stria medullaris, the optic chiasm, and the fimbria were the most consistently damaged axonal tracts. Vacuolation peaked 7 days after NA injection and reverted by day 15. Olig2+ cell number in the damaged tracts was unaltered, and neurodegeneration associated with myelin alterations was not detected. MAC was absent on damaged axonal tracts, as revealed by C5b9 immunostaining. Rats ICV injected with the anaphylatoxin C5a displayed no myelin injury. When the complement system was experimentally or constitutively inhibited, NA-induced myelin vacuolation was similar to that observed in normal rats. CONCLUSION: Microbial NA induces a moderate and transient myelin vacuolation that is not caused either by neuroinflammation or complement system activation.

Facets (new session)
Description
Metadata
Settings
- owl:sameAs
- Inference Rule:

About: AIMS: Some central nervous system pathogens express neuraminidase (NA) on their surfaces. In the rat brain, a single intracerebroventricular (ICV) injection of NA induces myelin vacuolation in axonal tracts. Here, we explore the nature, the time course, and the role of the complement system in this damage. METHODS: The spatiotemporal analysis of myelin vacuolation was performed by optical and electron microscopy. Myelin basic protein-positive area and oligodendrocyte transcription factor (Olig2)-positive cells were quantified in the damaged bundles. Neuronal death in the affected axonal tracts was assessed by Fluoro-Jade B and anti-caspase-3 staining. To evaluate the role of the complement, membrane attack complex (MAC) deposition on damaged bundles was analyzed using anti-C5b9. Rats ICV injected with the anaphylatoxin C5a were studied for myelin damage. In addition, NA-induced vacuolation was studied in rats with different degrees of complement inhibition: normal rats treated with anti-C5-blocking antibody and C6-deficient rats. RESULTS: The stria medullaris, the optic chiasm, and the fimbria were the most consistently damaged axonal tracts. Vacuolation peaked 7 days after NA injection and reverted by day 15. Olig2+ cell number in the damaged tracts was unaltered, and neurodegeneration associated with myelin alterations was not detected. MAC was absent on damaged axonal tracts, as revealed by C5b9 immunostaining. Rats ICV injected with the anaphylatoxin C5a displayed no myelin injury. When the complement system was experimentally or constitutively inhibited, NA-induced myelin vacuolation was similar to that observed in normal rats. CONCLUSION: Microbial NA induces a moderate and transient myelin vacuolation that is not caused either by neuroinflammation or complement system activation. Goto Sponge NotDistinct Permalink

An Entity of Type : fabio:Abstract, within Data Space : wasabi.inria.fr associated with source document(s)

Attributes	Values
type	abstract
value	AIMS: Some central nervous system pathogens express neuraminidase (NA) on their surfaces. In the rat brain, a single intracerebroventricular (ICV) injection of NA induces myelin vacuolation in axonal tracts. Here, we explore the nature, the time course, and the role of the complement system in this damage. METHODS: The spatiotemporal analysis of myelin vacuolation was performed by optical and electron microscopy. Myelin basic protein-positive area and oligodendrocyte transcription factor (Olig2)-positive cells were quantified in the damaged bundles. Neuronal death in the affected axonal tracts was assessed by Fluoro-Jade B and anti-caspase-3 staining. To evaluate the role of the complement, membrane attack complex (MAC) deposition on damaged bundles was analyzed using anti-C5b9. Rats ICV injected with the anaphylatoxin C5a were studied for myelin damage. In addition, NA-induced vacuolation was studied in rats with different degrees of complement inhibition: normal rats treated with anti-C5-blocking antibody and C6-deficient rats. RESULTS: The stria medullaris, the optic chiasm, and the fimbria were the most consistently damaged axonal tracts. Vacuolation peaked 7 days after NA injection and reverted by day 15. Olig2+ cell number in the damaged tracts was unaltered, and neurodegeneration associated with myelin alterations was not detected. MAC was absent on damaged axonal tracts, as revealed by C5b9 immunostaining. Rats ICV injected with the anaphylatoxin C5a displayed no myelin injury. When the complement system was experimentally or constitutively inhibited, NA-induced myelin vacuolation was similar to that observed in normal rats. CONCLUSION: Microbial NA induces a moderate and transient myelin vacuolation that is not caused either by neuroinflammation or complement system activation.
Subject	Immune system Glycobiology Scavengers
part of	Microbial Neuraminidase Induces a Moderate and Transient Myelin Vacuolation Independent of Complement System Activation
is abstract of	Microbial Neuraminidase Induces a Moderate and Transient Myelin Vacuolation Independent of Complement System Activation
is hasSource of	covid:ann/target/76cb13fb27ef0ed65d9dbab939c73d77bd825784 covid:ann/target/80f2a8001e1e0ef7732a947cd369cede700f8948 covid:ann/target/d3e42302d5cf2f889a285453c7b1c95f0e8ea9b8 covid:ann/target/301e72f881b702b0e39a7210995787581a3c8689 covid:ann/target/9b10e21450da96400d8b130da4870e1bf5dea9f8 covid:ann/target/a3ebd1ad609f31cfb2d917f1e574948a762cfb15 covid:ann/target/2d141aad3529049c4081c49f467069f6dca231fd covid:ann/target/e2df28b772ae0b987b855bc75fa4bff243ce47e1 covid:ann/target/7b44aec46a784614125148468a00cddaa705047d covid:ann/target/3e9dfbcb37f4fb228270d73f3d345907aa0b20a3 covid:ann/target/7dad6389336c8a4d7f8b80fc4e70b02a317e9084 covid:ann/target/9815f68710184b3f7b862c8d8d7ecabd1f4b785c covid:ann/target/f7f380c543a79cf64a6e0dc5246ac57377de4b78 covid:ann/target/721a631062af38fb77e3d6af72865cb7e4196154 covid:ann/target/5cfb8b62ee72053b69083a2dcc97451ef32a5aa8 covid:ann/target/6c1b958315b45d2127e4ae971e611a17d1a0e658 covid:ann/target/089a60ed8f37d42e8f62424561c83185d3549f67 covid:ann/target/83a1042a6868225c4b6d14df904afc5747e542c8 covid:ann/target/bdbfc696b910b744912710c4d339c0c1869fd1c5 covid:ann/target/45fc8183297598b777d26bd0d90c243a07817cfa covid:ann/target/e06efeb12d45c08e9a02744be7b6124de985ad73 covid:ann/target/b79eb42025ee41bda5a79babc6542967350546b7 covid:ann/target/03ea5fd74e64606d26a3a52e2085712141a1cdf9 covid:ann/target/59cafeb5ddb966e5e311086b0a9543ea0426541d covid:ann/target/11aaaad8e86ac03f7d31cb39a6944f51d7a0a1c6 covid:ann/target/a71eb88f6faddf3b90126ae80fef6ab57af35937 covid:ann/target/3cfb83bcb537df2d449eba5b946bdbfcf248a730 covid:ann/target/411c0f4c92f8cde328c9cbdecdca9f6a754f1897 covid:ann/target/ddd912a95ef4855498bedbe4eff48aded60bd65e covid:ann/target/8cf4237a1a92026570f8edda23ab3548c62ae7a4 covid:ann/target/ba23222e4b9512614a27782d73ce174143e78266 covid:ann/target/9f1169fc0d4a67b2b3ce1c61e70d78e3d4dcf546 covid:ann/target/b6610593ff5880f69bdd102cc7e2143e676f0902 covid:ann/target/1cb8bbdad6c8c63fd2d1175e67688a2d18be1b43 covid:ann/target/010318914b42018cbb6e26bd7e7b6d5b8a9cb611 covid:ann/target/777d5a567c9f00e1c77b1632008bcda72fde67af covid:ann/target/7b8150185ffb4b7a3dbae646e2442d7038795732 covid:ann/target/6fa8a6f32d76e5ebf1e5a8408b1f43ab56cf5f5a covid:ann/target/42ccda67be00071ca0330d05347bbb8c78353824 covid:ann/target/fa62f94f58e9325230fcba31d667ca640a3d9c18 covid:ann/target/23ca8d564cabafd046833d0828c5307bf17c74f2 covid:ann/target/eaba29ca5add927ceb2bef09c75b304e5092563d covid:ann/target/85024e0a2d52b920f99f4731bbb8552393d48386 covid:ann/target/9024732c991fd61d46ac8208cf50ea3c9dc2094d covid:ann/target/ce6d6198dc24e7d9585425092ad78a922887258b covid:ann/target/39db5e1e74d6b7c7fa19a3c0d428ec99efd4494f covid:ann/target/2ea0c888a6650f4c8fc34481dcf3429e6e4079cf

Faceted Search & Find service v1.13.91 as of Mar 24 2020

Alternative Linked Data Documents: Sponger | ODE Content Formats:

RDF

ODATA

Microdata

About

OpenLink Virtuoso version 07.20.3229 as of Jul 10 2020, on Linux (x86_64-pc-linux-gnu), Single-Server Edition (94 GB total memory)
Data on this page belongs to its respective rights holders.
Virtuoso Faceted Browser Copyright © 2009-2024 OpenLink Software