PUBLICATION

Control of extracellular matrix assembly along tissue boundaries via Integrin and Eph/Ephrin signaling

Authors

Jülich, D., Mould, A.P., Koper, E., and Holley, S.A.

ID

ZDB-PUB-090731-16

Date

2009

Source

Development (Cambridge, England) 136(17): 2913-2921 (Journal)

Registered Authors

Holley, Scott, Jülich, Dörthe, Mould, Paul

Keywords

Eph, Ephrin, Fibronectin, Integrin, Morphogenesis, Zebrafish

MeSH Terms

Oligonucleotides, Antisense/genetics
Oligonucleotides, Antisense/metabolism
Extracellular Matrix/metabolism*
Sequence Alignment
Recombinant Fusion Proteins/genetics
Recombinant Fusion Proteins/metabolism
Morphogenesis/physiology*
Somites/anatomy & histology
Somites/physiology*
Amino Acid Sequence
Zebrafish/anatomy & histology
Zebrafish/embryology
Signal Transduction/physiology
Protein Isoforms/genetics
Protein Isoforms/metabolism
Integrin alpha5beta1/genetics
Integrin alpha5beta1/metabolism*
Humans
Fibronectins/metabolism
Zebrafish Proteins/genetics
Zebrafish Proteins/metabolism*
Receptors, Eph Family/genetics
Receptors, Eph Family/metabolism*
Animals
Ephrins/genetics
Ephrins/metabolism*

(all 26)

PubMed

19641014 Full text @ Development

Abstract

Extracellular matrixes (ECMs) coat and subdivide animal tissues, but it is unclear how ECM formation is restricted to tissue surfaces and specific cell interfaces. During zebrafish somite morphogenesis, segmental assembly of an ECM composed of Fibronectin (FN) depends on the FN receptor Integrin alpha5beta1. Using in vivo imaging and genetic mosaics, our studies suggest that incipient Itgalpha5 clustering along the nascent border precedes matrix formation and is independent of FN binding. Integrin clustering can be initiated by Eph/Ephrin signaling, with Ephrin reverse signaling being sufficient for clustering. Prior to activation, Itgalpha5 expressed on adjacent cells reciprocally and non-cell-autonomously inhibits spontaneous Integrin clustering and assembly of an ECM. Surface derepression of this inhibition provides a self-organizing mechanism for the formation and maintenance of ECM along the tissue surface. Within the tissue, interplay between Eph/Ephrin signaling, ligand-independent Integrin clustering and reciprocal Integrin inhibition restricts de novo ECM production to somite boundaries.

Genes / Markers

Figures

Show all Figures

Expression

Phenotype

Fish	Conditions	Stage	Phenotype	Figure
itga5^tbfe1/tbfe1	standard conditions	5-9 somites	extracellular matrix assembly disrupted, abnormal	Fig. 3
itga5^tbfe1/tbfe1	standard conditions	5-9 somites	extracellular matrix assembly disrupted, abnormal	Fig. 3
itga5^tbfe1/tbfe1	standard conditions	5-9 somites	head development disrupted, abnormal	Fig. S1
itga5^tbfe1/tbfe1	standard conditions	14-19 somites	somitogenesis disrupted, abnormal	Fig. 3
itga5^tbfe1/tbfe1	standard conditions	14-19 somites	somitogenesis disrupted, abnormal	Fig. 3

1 - 5 of 5

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Mutations / Transgenics

Allele	Type	Affected Genomic Region
tbfe1	Point Mutation	itga5
tbfe2	Point Mutation	itga5
te314a	Point Mutation	tbx6
tg249	Point Mutation	dld

Human Disease / Model

Sequence Targeting Reagents

Target	Reagent	Reagent Type
efnb2a	MO2-efnb2a	MRPHLNO
epha4a	MO1-epha4a	MRPHLNO
fn1a	MO1-fn1a	MRPHLNO
fn1b	MO2-fn1b	MRPHLNO
itga5	MO1-itga5	MRPHLNO

Fish

Fish
dld^tg249/tg249
itga5^tbfe1/tbfe1
itga5^tbfe1/tbfe1
itga5^tbfe2/tbfe2
tbx6^{te314a/te314a}
WT
WT + MO1-epha4a
WT + MO2-efnb2a

Antibodies

Orthology

Engineered Foreign Genes

Mapping

Jülich et al., 2009 ZDB-PUB-090731-16 PMID:19641014

Control of extracellular matrix assembly along tissue boundaries via Integrin and Eph/Ephrin signaling

Jülich et al., 2009

ZDB-PUB-090731-16
PMID:19641014