Welcome to CIDeRplus

Field	Query

	Field	Term

General Information:

Id:	1,344
Diseases:	Amyotrophic lateral sclerosis
Organism:	Mammalia
Organism Model:	SOD1 wt or SOD1G93A transgenic mouse, transfected with human wt SOD1 or human SOD1G93A
Tissue/Cell line:	microglia (mouse) / motoneuron (rat) co-cultures
Publication type:	article
Reference:	Xiao Q et al.(2007) Mutant SOD1(G93A) microglia are more neurotoxic relative to wild-type microglia J. Neurochem. 102: 2008-2019 [PMID: 17555556]

Interaction Information:

Comment	More nitric oxide and less IGF-1 were detected in mSOD1(G93A) microglia co-cultured with motoneurons (mSOD1G93A-Mc + MN) than wild-type microglia co-cultured with motoneurons.
Formal Description Interaction-ID: 9166	gene/protein mutant SOD1-p.G93A increases_quantity of drug/chemical compound NO in microglia/motoneuron co-cultures

Comment	More nitric oxide and less IGF-1 were detected in mSOD1(G93A) microglia co-cultured with motoneurons (mSOD1G93A-Mc + MN) than wild-type microglia co-cultured with motoneurons.
Formal Description Interaction-ID: 9167	gene/protein mutant SOD1-p.G93A decreases_quantity of gene/protein IGF1 in microglia/motoneuron co-cultures
Drugbank entries	Show/Hide entries for IGF1
Drugbank DB01890	Deoxy-Bigchap not specified IGF1
Drugbank DB02643	N-Dodecyl-N,N-Dimethyl-3-Ammonio-1-Propa ... not specified IGF1
Drugbank DB01890	Deoxy-Bigchap not specified IGF1

Comment	In microglia/motoneuron co-cultures, mSOD1(G93A) microglia induced more motoneuron death and decreased neurite numbers and length compared with wild-type microglia.
Formal Description Interaction-ID: 9168	gene/protein mutant SOD1-p.G93A increases_activity of phenotype motor neuron degeneration in microglia/motoneuron co-cultures

Comment	In microglia/motoneuron co-cultures, mSOD1(G93A) microglia induced more motoneuron death and decreased neurite numbers and length compared with wild-type microglia.
Formal Description Interaction-ID: 9169	gene/protein mutant SOD1-p.G93A decreases_activity of process neuron projection in microglia/motoneuron co-cultures

Comment	There was a strong inverse correlation between the level of nitric oxide release and motoneuron injury. The more nitrate + nitrite produced, the fewer motoneuron survived in mSOD1G93A and wild-type-co-cultures.
Formal Description Interaction-ID: 9170	drug/chemical compound NO increases_activity of phenotype motor neuron degeneration in microglia/motoneuron co-cultures

Home
Contact

The Helmholtz Zentrum München Imprint and Privacy Policy apply.

© 2013 - Helmholtz Zentrum München - German Research Center for Environmental Health (GmbH) Ingolstädter Landstraße 1, D-85764 Neuherberg, Germany

Disclaimer: IBIS Databases and associated information are protected by copyright. This server and its associated data and services are for academic, non-commercial use only. The Helmholtz Zentrum München has no liability for the use of results, data or information which have been provided through this server. Neither the use for commercial purposes, nor the redistribution of IBIS database files to third parties nor the distribution of parts of files or derivative products to any third parties is permitted. Commercial users shall contact the Helmholtz Zentrum München for a separate users license.