Mammalian two-hybrid assay showing redox control of HIF-like factor

Molecular characterization of hypoxia inducible factor-1 (HIF-1) from the white shrimp Litopenaeus vannamei and tissue-specific expression under hypoxia

Hypoxia inducible factor 1 (HIF-1) is a key transcription factor that regulates a variety of molecular responses to hypoxia. Some marine crustaceans experience changes of oxygen tension in their aquatic environment, but knowledge about the function and expression of HIF-1 is very limited. HIF-1 is a heterodimer composed by alpha and beta subunits. We report the complete cDNA sequences of HIF-1alpha and HIF-1beta from the white shrimp Litopenaeus vannamei. HIF-1alpha (LvHIF-1alpha) is 3672bp and codes for 1050 amino acids, while HIF-1beta is 2135bp (LvHIF-1beta) and 608 amino acids. Both, the alpha and beta subunits have the helix-loop-helix (bHLH) and PAS domains. HIF-1alpha also has the oxygen dependent degradation (ODD) and the C-terminal transactivation domain (C-TAD), important for regulation in normoxia. Phylogenetic analyses of the proteins indicate separation of invertebrates from vertebrates. Large differences of HIF-1alpha and HIF-1beta transcripts abundance were detected in gills, hepatopancreas and muscle under normoxia (6mg/L dissolved oxygen, DO) and hypoxia (2.5 and 1.5mg/L DO). HIF-1alpha was more abundant in gills and HIF-1beta in hepatopancreas. Large changes in response to hypoxia were detected for HIF-1alpha in gills, while HIF-1beta remained fairly constant. Glucose and lactate in hemolymph increased rapidly in hypoxia in all cases and up to 4.7 and 5.0-fold, respectively, in response to 1.5mg/L DO for 1h.

Transcriptional activators of helper T cell fate are required for establishment but not maintenance of signature cytokine expression

The stability of helper T cell fates is not well understood. Using conditional introduction of dominant-negative factors, we now show that T-bet and GATA-3 are far more critical in establishment than maintenance of IFN-gamma and IL-4 activity during Th1 and Th2 maturation, respectively. We also show that a genetic interaction between T-bet and its target Hlx seems to be required for Th1 maturation, but that Hlx may also be dispensable for maintenance of a transcriptionally permissive ifng gene. In parallel to progressive activator independence in the permissive lineage, the ifng gene becomes more recalcitrant to switching as the forbidden lineage matures. T-bet plus Hlx can disrupt ifng silencing when introduced into developing Th2 cells, but they fail to perturb ifng silencing in mature Th2 cells. In contrast, a hypermorphic allele of T-bet can reverse silencing of the ifng gene in mature Th2 cells. These results suggest that signature gene activity of helper T cells is initially plastic but later becomes epigenetically fixed and offer an initial strategy for inducing mature cells to switch their fate.