RGD Reference Report - Inactivation of the lysyl oxidase gene Lox leads to aortic aneurysms, cardiovascular dysfunction, and perinatal death in mice.

General

Inactivation of the lysyl oxidase gene Lox leads to aortic aneurysms, cardiovascular dysfunction, and perinatal death in mice.
Authors:	Maki, JM Rasanen, J Tikkanen, H Sormunen, R Makikallio, K Kivirikko, KI Soininen, R
Citation:	Maki JM, etal., Circulation. 2002 Nov 5;106(19):2503-9.
RGD ID:	1581885
Pubmed:	PMID:12417550 (View Abstract at PubMed)
BACKGROUND: The lysyl oxidases are extracellular copper enzymes that initiate the crosslinking of collagens and elastin, 5 human isoenzymes having been characterized so far. The crosslinks formed provide the tensile strength and elastic properties for various extracellular matrices, including vascular walls. We studied the role of the first described isoenzyme Lox by inactivating its gene in mice. METHODS AND RESULTS: Murine Lox gene was disrupted by routine methods. Lox(-/-) mice died at the end of gestation or as neonates, necropsy of the live-born pups revealing large aortic aneurysms. In light microscopy, hazy and unruffled elastic lamellae in the Lox(-/-) aortas were observed, and electron microscopy of the aortic walls of the Lox(-/-) fetuses showed highly fragmented elastic fibers and discontinuity in the smooth muscle cell layers in Lox(-/-) fetuses. The wall of the aorta in the Lox(-/-) fetuses was significantly thicker, and the diameter of the aortic lumen was significantly smaller than that in the Lox(+/+) aortas. In Lox(-/-) fetuses, Doppler ultrasonography revealed increased impedance in the umbilical artery, descending aorta, and intracranial artery blood velocity waveforms, decreased mean velocities across cardiac inflow and outflow regions, and increased pulsatility in ductus venosus blood velocity waveforms. CONCLUSIONS: Lox has an essential role in the development and function of the cardiovascular system. Inactivation of the Lox gene causes structural alterations in the arterial walls, leading to abnormalities in the cardiovascular functions. Alterations in LOX activity may also play a critical role in certain human cardiovascular diseases.

RGD Manual Disease Annotations Click to see Annotation Detail View

Only show annotations with direct experimental evidence (0 objects hidden)

Term	Qualifier	Evidence	With	Reference	Notes	Source	Original Reference(s)
aortic aneurysm		ISO	Lox (Mus musculus)	1581885; 1581885		RGD
aortic aneurysm		IAGP		1581885		RGD

Objects Annotated

Genes (Rattus norvegicus)

Lox (lysyl oxidase)

Genes (Mus musculus)

Lox (lysyl oxidase)

Genes (Homo sapiens)

LOX (lysyl oxidase)

Additional Information

Gene Annotator (Functional Annotation) unavailable	Gene Annotator (Annotation Distribution) unavailable	Variant Visualizer (Genomic Variants) unavailble Variant Visualizer (Genomic Variants) unavailable
Gene Annotator (Functional Annotation)	Gene Annotator (Annotation Distribution)	Variant Visualizer (Genomic Variants)

InterViewer (Protein-Protein Interactions) unavailable	Gviewer (Genome Viewer) unavailable	Variant Visualizer (Damaging Variants) unavailble Variant Visualizer (Damaging Variants) unavailable
InterViewer (Protein-Protein Interactions)	GViewer (Genome Viewer)	Variant Visualizer (Damaging Variants)

Gene Annotator (Annotation Comparison) unavailable	OLGA (Gene List Generator) unavailable
Gene Annotator (Annotation Comparison)	OLGA (Gene List Generator)	Excel (Download)

MOET (Multi-Ontology Enrichement) unavailable	GOLF (Gene-Ortholog Location Finder) unavailable
MOET (Multi-Ontology Enrichement)	GOLF (Gene-Ortholog Location Finder)

Create Name:

Description:

Send us a Message

Inactivation of the lysyl oxidase gene Lox leads to aortic aneurysms, cardiovascular dysfunction, and perinatal death in mice.