Hypoxia Responses in Physiology and Pathogenesis
Changes in tissue oxygen levels occur under pathological conditions and physiologically during development. The laboratory of Volker Haase studies hypoxia response pathways and their therapeutic applications.
Volker Haase Lab
advancing HIF biology and HIF-based therapies
The laboratory of Professor Volker H. Haase studies hypoxia response pathways and their therapeutic applications in erythropoiesis and iron metabolism, kidney injury and ischemic pre-conditioning, inflammation, kidney development and tumorigenesis. A major focus of the lab is on the interplay between hypoxic signaling, metabolism and cellular differentiation and its regulation by the prolyl hydroxylase domain (PHD) / hypoxia-inducible factor (HIF) / von Hippel-Lindau tumor suppressor (VHL) signaling axis. Haase group members take advantage of powerful cutting-edge mouse genetics, biochemical, metabolomic and single cell approaches to study oxygen and mitochondrial metabolism in kidney, urologic and other diseases. Click on links for information about career opportunities in the Haase lab and recent publications.
research news and where you can meet us
Paper published on the clinical effects of HIF-PHI vadadustat in hemodialysis patients
April 2018
Erythropoiesis-stimulating agents (ESAs) can correct anemia in chronic kidney disease (CKD) but are associated with increased risks of cardiovascular events. Vadadustat, an inhibitor of hypoxia-inducible factor prolyl-4-hydroxylase domain (HIF-PHD) dioxygenases, is an oral investigational agent in development for the treatment of anemia in patients with CKD. In a 16-week, open-label, multicenter, Phase 2 trial, Haase and colleagues evaluated vadadustat in 94 patients receiving maintenance hemodialysis previously maintained on ESA therapy. read more…
link to erythropoiesis, iron metabolism and renal anemia
link to teaching on renal anemia
Haase lab identifies a new role for HIF-PHD oxygen sensors in kidney development
December 2017
Insufficient oxygenation during pregnancy negatively influences kidney development, which predisposes to chronic kidney disease at later stages in life. Kobayashi et al. demonstrate that deletion of HIF prolyl-hydroxylase (PHD) 2 and 3, in FoxD1 lineage cells reduces kidney size and inhibits nephrogenesis in mice. Temporospatial expression pattern and studies of additional knockout mice suggest the involvement of hypoxia-inducible factor (HIF)-2.
link to commentary in KI
link to research themes in the Haase lab
Fondation D.E.V.E.N.I.R (Démarches Visant à enrayer l’Émergence des conséquences Néfastes de l’Insuffisance Rénale), 5ème Forum Éducationnel pour les Néphrologues, Ville de Québec, Canada
October 12-13, 2018
for program information please click here
Meet Haase Lab members at the American Society of Nephrology (ASN) annual meeting in San Diego, CA
October 25-28, 2018
More info regarding posters will follow soon.
Volker Haase to speak on “The Role of Interstitial Cell Oxygen Sensing in Nephrogenesis” in the educational session: “Old Cells in New Roles: Unusual Mechanisms in Kidney Remodeling”.
meeting info to follow soon