Scholars Archive

Title

Reduced Migration, Altered Matrix and Enhanced TGFβ1 Signaling are Signatures of Mouse Keratinocytes Lacking Sdc1

Authors

Mary Ann Stepp, George Washington University - School of Medicine and Health Sciences
Yueyuan Liu, George Washington University - School of Medicine and Health Sciences
Sonali Pal-Ghosh, George Washington University - School of Medicine and Health Sciences
Rosalyn A. Jurjus, George Washington University - School of Medicine and Health Sciences
Gauri Tadvalka, George Washington University - School of Medicine and Health Sciences
Adith Sekaran, George Washington University - School of Medicine and Health Sciences
Kristen LoSicco, George Washington University - School of Medicine and Health Sciences
Li Jiang, George Washington University
Melinda Larsen, University at Albany, State University of New YorkFollow
Luowei Li
Stuart H. Yuspa

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Document Type

Article

Publication Date

2007

DOI

10.1242/jcs.03480

Abstract

We have reported previously that syndecan-1 (Sdc1)-null mice show delayed re-epithelialization after skin and corneal wounding. Here, we show that primary keratinocytes obtained from Sdc1-null mice and grown for 3-5 days in culture are more proliferative, more adherent and migrate more slowly than wt keratinocytes. However, the migration rates of Sdc1-null keratinocytes can be restored to wild-type levels by replating Sdc1-null keratinocytes onto tissue culture plates coated with fibronectin and collagen I, laminin (LN)-332 or onto the matrices produced by wild-type cells. Migration rates can also be restored by treating Sdc1-null keratinocytes with antibodies that block α6 or αv integrin function, or with TGFβ1. Antagonizing either β1 integrin function using a function-blocking antibody or TGFβ1 using a neutralizing antibody reduced wild-type keratinocyte migration more than Sdc1-null keratinocyte migration. Cultures of Sdc1-null keratinocytes accumulated less collagen than wild-type cultures but their matrices contained the same amount of LN-332. The Sdc1-null keratinocytes expressed similar total amounts of eight different integrin subunits but showed increased surface expression of αvβ6, αvβ8, and α6β4 integrins compared with wild-type keratinocytes. Whereas wild-type keratinocytes increased their surface expression of α2β1, αvβ6, αvβ8, and α6β4 after treatment with TGFβ1, Sdc1-null keratinocytes did not. Additional data from a dual-reporter assay and quantification of phosphorylated Smad2 show that TGFβ1 signaling is constitutively elevated in Sdc1-null keratinocytes. Thus, our results identify TGFβ1 signaling and Sdc1 expression as important factors regulating integrin surface expression, activity and migration in keratinocyte and provide new insight into the functions regulated by Sdc1.

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Publisher Acknowledgement:
This is the Publisher’s PDF version. The version of record appears here

Mary Ann Stepp, Yueyuan Liu, Sonail Pal-Ghosh, Rosalyn A. Jurjus, Gauri Tadvalkar, Adith Sekaran, Kristen LoSicco, Li Jiang, Melinda Larsen, Luowei Li, and Stewart H. Yuspa. 2007. Reduced Migration, Altered Matrix and Enhanced TGFb1 Signaling are Signatures of Mouse Keratinocytes Lacking Sdc1. Journal of Cell Science 120(16): 2851-2863. doi: 10.1242/jcs.03480

Recommended Citation

Ann Stepp, Mary; Liu, Yueyuan; Pal-Ghosh, Sonali; A. Jurjus, Rosalyn; Tadvalka, Gauri; Sekaran, Adith; LoSicco, Kristen; Jiang, Li; Larsen, Melinda; Li, Luowei; and Yuspa, Stuart H., "Reduced Migration, Altered Matrix and Enhanced TGFβ1 Signaling are Signatures of Mouse Keratinocytes Lacking Sdc1" (2007). Biological Sciences Faculty Scholarship. 4.
https://scholarsarchive.library.albany.edu/biology_fac_scholar/4