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HIF prolyl hydroxylase-3 mediates alpha-ketoglutarate-induced apoptosis and tumor suppression
Authors:Daniel A. Tennant  Eyal Gottlieb
Affiliation:(1) Cancer Research UK, The Beatson Institute for Cancer Research, Glasgow, UK;
Abstract:Many solid tumors consist of large regions of poorly perfused cells, resulting in areas of low oxygen (hypoxia) throughout the cell mass. Cells subjected to hypoxia turn on a complex set of responses that alter their metabolism, rebalance their survival mechanisms, increase their invasive capacity, and stimulate angiogenesis. This allows them to at least temporarily escape the nutrient starvation and cell death resulting from this hostile environment. Accordingly, the hypoxic regions of tumors are often sources of the most aggressive and therapy-resistant cells, and therefore those cells that drive tumorigenesis. The hypoxia inducible factor (HIF) prolyl hydroxylases (PHDs) are enzymes that are functionally inactivated in hypoxia, as they use both oxygen and α-ketoglutarate as substrates to hydroxylate target prolyl residues. Although HIF1α, the most highly characterized PHD target, orchestrates many of the cellular responses to hypoxia observed in tumors, PHDs themselves have previously been shown to regulate some hypoxia responses, including apoptosis, in a HIF-independent mechanism. We have previously shown that PHDs can be reactivated under hypoxia and that this results in a metabolic defect, both in vitro and in vivo. This led us to investigate whether chronic reactivation of these enzymes may inhibit tumor progression. We show here that esterified α-ketoglutarate given daily will induce apoptosis and inhibit tumor growth, in vivo. The effects are independent of HIF1α but dependent on the presence of PHD3. These data suggest that PHD3 may be a valid target in vivo for anti-tumor therapy.
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