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Rat glomerular mesangial cells require laminin-9 to migrate in response to insulin-like growth factor binding protein-5

Authors: 
Berfield AK, Hansen K, Abrass CK
Citation: 
Am J Physiol Cell Physiol. 2006 Oct;291(4):C589-99. Epub 2006 May 3.
Abstract: 
Temporal and spatial differences in extracellular matrix play critical roles in cell proliferation, differentiation and migration. Different migratory stimuli use different substrates and receptors to achieve cell migration. To understand the mechanism of insulin-like growth factor binding protein-5 (IGFBP-5)-induced migration in mesangial cells, the roles of integrins and substrates were examined. IGFBP-5 induced an increase in mRNA expression for laminin (LN) chains lama4, lamb2, and lamc1, suggesting that LN-9 might be required for migration. Antibodies to the LNalpha4 and LNbeta2 chains, but not LNbeta1, blocked IGFBP-5-induced migration. Anti-sense morpholino oligonucleotide inhibition of expression of LNalpha4 substantially reduced expression of LN-8/9 (alpha4beta1gamma1/alpha4beta2gamma1, 411/421) and prevented IGFBP-5-induced migration. Anti-sense inhibition of lamb2 reduced expression of LN-9. Absence of LN-9 prevented IGFBP-5-induced migration, which was not preserved by continued expression of LN-8. The requirement for LN-9 was further supported by studies of T98G cells, which express predominantly LN-8. IGFBP-5 had little effect on migration in these cells, but increased migration when T98G cells were plated on LN-8/9. IGFBP-5-mediated mesangial cell migration was inhibited by antibodies that block attachment to alpha6beta1 integrins, but was unaffected by antibodies and disintegrins that block binding to other integrins. Furthermore, in cells with anti-sense inhibited expression of LN-9, integrin alpha6beta1 was no longer detected on the cell surface. These studies demonstrate the specificity of migration induced by specific stimuli and for the first time demonstrate a unique function for LN-9 in mediating IGFBP-5-induced migration.
Organism or Cell Type: 
Cell culture: Rat glomerular mesangial cells
Delivery Method: 
Special Delivery