Figure 3
Figure 3. Annexin A2 is up-regulated during hypoxia through Hif-1α–mediated signaling. (A) RT-PCR determination of the fold change in Anxa2 and S100a10 mRNA levels in P12-P18 retinas from Anxa2+/+ mice after treatment with oxygen. GAPDH mRNA served as a loading control. (B) Representative immunoblot of Anxa2+/+ retinal A2 and p11 at P12, P14, P16, and P18 after treatment with oxygen (O2) or room air (RA). Actin was used as loading control. (C) Representative images of retinal sections from P17 Anxa2+/+ mice either maintained in RA or treated with O2 and stained with anti-A2 (red), isolectin B4 (green), and DAPI (blue). GCL indicates ganglion cell layer; INL, inner nuclei layer. Scale bars, 75 μm (magnification ×200). (D) Immunoblot of HIF-1α in P12, P14, P16, and P18 retinas from Anxa2+/+ mice maintained in RA or treated with O2. Actin served as the loading control. (E) Immunoblot and RT-PCR analyses of HIF-1α, A2, and p11 in HUVECs after treatment with either 0.5% O2 or 200μM CoCl2 for 16 hours. Actin served as the loading control. (F) Immunoblot and RT-PCR analyses of A2 and p11 in Hif1a+/+ and Hif1a −/− mouse embryonic fibroblasts after treatment with either 0.5% O2 or 200μM CoCl2 for 16 hours. Actin served as the loading control. (G) EMSA showing interaction between the HIF-1 complex and ANXA2 or VEGFA promoter probes. C indicates control; WT, ANXA2 or VEFGA probe containing wild-type HRE; MUT, ANXA2 or VEGFA probe containing mutant HRE; FP, free unbound probe. (H) ChIP assay showing interaction between HIF-1α and the ANXA2 promoter. Preimmune IgG and anti-RNA polymerase II served as negative and positive controls, respectively. (I) Luciferase assay showing activation of ANXA2 and VEGFA promoters by HIF-1 complex in HEK 293 cells (n = 3; *P < .05, **P < .01, and ***P < .001). The data are representative of 3 (A, C, D, G, H, and I) and 6 (B, E, and F) separate experiments.

Annexin A2 is up-regulated during hypoxia through Hif-1α–mediated signaling. (A) RT-PCR determination of the fold change in Anxa2 and S100a10 mRNA levels in P12-P18 retinas from Anxa2+/+ mice after treatment with oxygen. GAPDH mRNA served as a loading control. (B) Representative immunoblot of Anxa2+/+ retinal A2 and p11 at P12, P14, P16, and P18 after treatment with oxygen (O2) or room air (RA). Actin was used as loading control. (C) Representative images of retinal sections from P17 Anxa2+/+ mice either maintained in RA or treated with O2 and stained with anti-A2 (red), isolectin B4 (green), and DAPI (blue). GCL indicates ganglion cell layer; INL, inner nuclei layer. Scale bars, 75 μm (magnification ×200). (D) Immunoblot of HIF-1α in P12, P14, P16, and P18 retinas from Anxa2+/+ mice maintained in RA or treated with O2. Actin served as the loading control. (E) Immunoblot and RT-PCR analyses of HIF-1α, A2, and p11 in HUVECs after treatment with either 0.5% O2 or 200μM CoCl2 for 16 hours. Actin served as the loading control. (F) Immunoblot and RT-PCR analyses of A2 and p11 in Hif1a+/+ and Hif1a−/− mouse embryonic fibroblasts after treatment with either 0.5% O2 or 200μM CoCl2 for 16 hours. Actin served as the loading control. (G) EMSA showing interaction between the HIF-1 complex and ANXA2 or VEGFA promoter probes. C indicates control; WT, ANXA2 or VEFGA probe containing wild-type HRE; MUT, ANXA2 or VEGFA probe containing mutant HRE; FP, free unbound probe. (H) ChIP assay showing interaction between HIF-1α and the ANXA2 promoter. Preimmune IgG and anti-RNA polymerase II served as negative and positive controls, respectively. (I) Luciferase assay showing activation of ANXA2 and VEGFA promoters by HIF-1 complex in HEK 293 cells (n = 3; *P < .05, **P < .01, and ***P < .001). The data are representative of 3 (A, C, D, G, H, and I) and 6 (B, E, and F) separate experiments.

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