Brahimi-Horn, M. Giuliano, Sandy Saland, Estelle Lacas-Gervais, Sandra Sheiko, Tatiana Pelletier, Joffrey Bourget, Isabelle Bost, Frédéric Féral, Chloé Boulter, Etienne Tauc, Michel Ivan, Mircea Garmy-Susini, Barbara Popa, Alexandra Mari, Bernard Sarry, Jean-Emmanuel Craigen, William Pouysségur, Jacques Mazure, Nathalie Additional file 10: Figure S5. of Knockout of Vdac1 activates hypoxia-inducible factor through reactive oxygen species generation and induces tumor growth by promoting metabolic reprogramming and inflammation Glutathione peroxidase expression and the effect of ebselen. (A) Immunofluorescence to GPX7 in Wt and Vdac1 −/− MEF in Nx or Hx for 72 h. (B) Immunoblotting for HIF-1α of Wt and Vdac1 −/− MEF in the absence or presence of ebselen in normoxia. (C) Proliferation of Wt and Vdac1 −/− MEF in the absence or presence of ebselen in normoxia. (D) Viability of Wt and Vdac1 −/− MEF in the absence or presence of ebselen in normoxia. presence;ebselen;absence;inflammation Glutathione peroxidase expression;reactive oxygen species generation;72  h;normoxia;GPX 7;Wt;MEF;Vdac 1 activates hypoxia-inducible factor;HIF -1α;tumor growth 2015-08-26
    https://springernature.figshare.com/articles/journal_contribution/Additional_file_10_Figure_S5_of_Knockout_of_Vdac1_activates_hypoxia-inducible_factor_through_reactive_oxygen_species_generation_and_induces_tumor_growth_by_promoting_metabolic_reprogramming_and_inflammation/4475123
10.6084/m9.figshare.c.3646397_D1.v1