Fighting hypoxia in printed tissue
Unicellular organisms such as bacteria posses the ability to reproduce very quickly, when given the right conditions such as warmth, moisture and suitable nutrients (6) and enter an inactive state when these are limited. On the contrary, most multicellular systems depend on a steady, adequate supply of oxygen and nutrients essential for their survival and metabolic stability. ...
Hypoxia-inducible promoters
Constructs and methodology
In order to test hypoxia-dependent gene expression, we created luciferase constructs that allow the quantification of expression levels via a luciferase assay. The expression of these constructs is driven by a hypoxia-inducible promoter, which results in the translation of a luciferase and its secretion into the medium. By taking samples of the medium after 12 h and 24 h after the exposure of HEK293T cells to hypoxia and measuring luciferase activity by a corresponding assay, we are able to quantify hypoxia-dependent gene expression. In order to determine whether gene expression is really only responsive to hypoxia - but inactive during normal oxygen concentrations - a control at normal oxygen concentrations (X% oxygen) was furthermore run.
For the assay, a total of eight constructs were tested, six of which are luciferase constructs for the quantification of expression levels and two of which are VEGF-constructs that are used to confirm the expression of the actual growth factor by our cells. Luciferase constructs all contain the hypoxia promoter, a signal peptide, a coding sequence and a polyadenylation signal, but vary in the number of hypoxia-response elements.
Of the two constructs that do not contain a luciferase, but the actual growth factors (VEGF and PDGF), one is expressed via a hypoxia-promoter (4x HRE) and one via a CMV promoter as a positive control. Expression levels are hereby determined via an ELISA.
Results
Discussion
References