Hypoxia-induced synthesis of hemoglobin in the crustacean Daphnia magna is hypoxia-inducible factor-dependent

Of the four known globin genes that exist in the freshwater crustacean Daphnia magna, several are individually induced by hypoxia, lending pale normoxic animals a visible red color when challenged by oxygen deprivation. The promoter regions of the Daphnia globin genes each contain numerous hypoxia response elements (HREs) as potential binding sites for hypoxia-inducible factors (HIFs). Daphnia HIF, bound to human HRE sequences, was detected in extracts from hypoxic (red), but not normoxic (pale), animals. Taking advantage of the phylogenetically conserved HIF/HRE recognition, we employed heterologous transfections of HIF-expressing human and Drosophila cells to model HIF signaling in Daphnia. These experiments revealed that three functional HREs within the promoter of the D. magna globin-2 gene cooperate for maximal hypoxic induction of a downstream luciferase reporter gene. Two of these three cis-elements, at promoter positions -258 and -107, are able to specifically bind human, Drosophila, or Daphnia HIF complexes in vitro. The same two sites are also necessary for maximal induction of reporter transcription under low oxygen tension in the presence of either endogenous human or overexpressed Drosophila HIF proteins. The third motif of the globin-2 gene promoter, a CACGTG palindrome at position -146, functions as a docking site for an unknown constitutive transcription factor. In human cells, this -146 complex interferes with HIF occupancy at the adjacent -107 HRE and thus controls the extent of HIF-mediated hypoxic activation of the downstream target.