Mendes FA , Coelho Aguiar JM , Kahn SA , Reis AH , Dubois LG , Romão LF , Ferreira LS , Chneiweiss H , Moura Neto V , Abreu JG .

	Fig 2. Exogenous CTGF protein increases the number of Sox2-positive cells of a neural progenitor culture.Immunostaining showing Sox2 (A and D) expression of untreated and CTGF-treated cells. C and F show merged pictures of Sox2 immunostaining together with nuclei-DAPI staining. Scale bars 10 μm. G shows the percentage of cells that were positive for Sox2.
	Fig 3. Recombinant CTGF increases expression and deposition of fibronectin.Immunostaining and immunoblotting for fibronectin and laminin. (A-D) Untreated or CTGF-treated progenitor neural cells immunostained for fibronectin (A, B) and laminin (C, D). (E) Immunoblotting for fibronectin and laminin of untreated (lane 1) or CTGF-treated neural progenitor cells (lane 2). CTGF incubation of neural progenitor cells for 120 h increased the expression of fibronectin threefold (compare untreated versus CTGF bars of graph in E). Scale bar 50 μm.
	Fig 4. CTGF increases activation of p44/42 MAPK (ERK1/2).Immunoblot for phosphorylated p44/42 MAPK (ERK 1 and 2) of untreated or CTGF-treated neural progenitor cells. CTGF increased the expression of phosphorylated p44/42 MAPK almost sevenfold (compare lanes 1 and 2 and the graph of the densitometry). As a loading control we used total p44/42 MAPK and tubulin.
	Fig 5. CTGF does not increase p38 MAPK or p54/46 SAPK/JNK MAPK pathways.Immunoblot for phosphorylated p38 MAPK and phosphorylated p46/p54 MAPK of untreated or CTGF-treated neural progenitor cells. CTGF did not change the levels of expression of these proteins (compare lanes 1 and 2). As a loading control we used total p46/p54 MAPK and tubulin.
	Fig 6. Exogenous CTGF protein increases GFAP and reduces Sox2 expression in human cancer stem cells.Immunoblotting showing GFAP, β-tubulin III and Sox2 expression in untreated and 1 nM and 5 nM CTGF-treated cells. CTGF incubation of human glioma stem cells for 120 h increased GFAP and reduced Sox2 expression in a dose-dependent manner. Alpha-tubulin was used as a loading control. **P < 0.001 and *P < 0.005.
	Fig 7. Exogenous CTGF protein increases the number of GFAP-, CD133- and Nestin-positive cells of human cancer stem cells.Immunostaining showing GFAP (A and D), CD133 (H and K) and Nestin (O and R) expression of untreated and CTGF-treated astrocytes. C and F, J and M and Q and T show merged pictures of GFAP, CD133 and Nestin immunostaining together with nuclei-DAPI staining respectively. Scale bars 25 μm. G, N and U show the fluorescence intensity of cells that were stained with GFAP, CD133 and Nestin respectively.
	Fig 1. Exogenous CTGF protein increases the number of GFAP-positive cells of a neural progenitor culture.Double immunostaining showing GFAP (A and B green) and Nestin (C and D red) expression of untreated and CTGF-treated astrocytes. E and F show merged pictures of GFAP and Nestin immunostaining together with nuclei-DAPI staining. Scale bars 50 μm. G shows the percentage of cells that were unstained or stained with GFAP and/or Nestin. CTGF was able to increase the number of GFAP-positive cells and, more dramatically, the number of Nestin/GFAP-positive cells.

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