Menuz Vincent, Howell Kate S, Gentina Sébastien, Epstein Sharon, Riezman Isabelle, Fornallaz-Mulhauser Monique, Hengartner Michael O, Gomez Marie, Riezman Howard, Martinou Jean-Claude
Department of Cell Biology, University of Geneva, CH-1211 Geneva 4, Switzerland.
Science. 2009 Apr 17;324(5925):381-4. doi: 10.1126/science.1168532.
Oxygen deprivation is rapidly deleterious for most organisms. However, Caenorhabditis elegans has developed the ability to survive anoxia for at least 48 hours. Mutations in the DAF-2/DAF-16 insulin-like signaling pathway promote such survival. We describe a pathway involving the HYL-2 ceramide synthase that acts independently of DAF-2. Loss of the ceramide synthase gene hyl-2 results in increased sensitivity of C. elegans to anoxia. C. elegans has two ceramide synthases, hyl-1 and hyl-2, that participate in ceramide biogenesis and affect its ability to survive anoxic conditions. In contrast to hyl-2(lf) mutants, hyl-1(lf) mutants are more resistant to anoxia than normal animals. HYL-1 and HYL-2 have complementary specificities for fatty acyl chains. These data indicate that specific ceramides produced by HYL-2 confer resistance to anoxia.
缺氧对大多数生物来说会迅速产生有害影响。然而,秀丽隐杆线虫已经进化出在缺氧环境下存活至少48小时的能力。DAF-2/DAF-16胰岛素样信号通路中的突变促进了这种存活能力。我们描述了一条涉及HYL-2神经酰胺合酶的信号通路,该通路独立于DAF-2发挥作用。神经酰胺合酶基因hyl-2的缺失会导致秀丽隐杆线虫对缺氧的敏感性增加。秀丽隐杆线虫有两种神经酰胺合酶,即hyl-1和hyl-2,它们参与神经酰胺的生物合成,并影响其在缺氧条件下的存活能力。与hyl-2(lf)突变体相反,hyl-1(lf)突变体比正常动物对缺氧更具抗性。HYL-1和HYL-2对脂肪酰链具有互补特异性。这些数据表明,由HYL-2产生的特定神经酰胺赋予了对缺氧的抗性。
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