Heparan sulfate saccharides modify focal adhesions: implication in mucopolysaccharidosis neuropathophysiology.

Mucopolysaccharidoses type III (MPSIII, Sanfilippo syndrome) are genetic diseases due to deficient heparan sulfate (HS) saccharide digestion by lysosomal exoglycanases. Progressive accumulation of undigested saccharides causes early-onset behavioural and cognitive symptoms. The precise role of these saccharides in the pathophysiological cascade is still unclear. We showed that exposure of wild-type neural cells to exogenous soluble HS fragments of at least eight saccharides activated integrin-based focal adhesions (FAs), which attach cells to the extracellular matrix. FAs were constitutively activated in MPSIII type B astrocytes or neural stem cells unless undigested saccharides were cleared by exogenous supply of the missing exoglycanase. Defective cell polarisation and oriented migration in response to focal extracellular stimuli in affected cells suggest improper sensing of the environment. We consistently observed abnormal organisation of the rostral migratory stream in the brain of adult mice with MPSIII type B. These results suggest that cell polarisation and oriented migration defects participate to the neurological disorders associated with Sanfilippo syndrome.

Antagonistic regulation of EMT by TIF1γ and Smad4 in mammary epithelial cells.

TGF-ß is a potent inducer of epithelial-to-mesenchymal transition (EMT), a process involved in tumour invasion. TIF1γ participates in TGF-ß signalling. To understand the role of TIF1γ in TGF-ß signalling and its requirement for EMT, we analysed the TGF-ß1 response of human mammary epithelial cell lines. A strong EMT increase was observed in TIF1γ-silenced cells after TGF-ß1 treatment, whereas Smad4 inactivation completely blocked this process. Accordingly, the functions of several TIF1γ target genes can be linked to EMT, as shown by microarray analysis. As a negative regulator of Smad4, TIF1γ could be crucial for the regulation of TGF-ß signalling. Furthermore, TIF1γ binds to and represses the plasminogen activator inhibitor 1 promoter, demonstrating a direct role of TIF1γ in TGF-ß-dependent gene expression. This study shows the molecular relationship between TIF1γ and Smad4 in TGF-ß signalling and EMT.