Identification of a miRNA-mRNA Regulatory Networks in Placental Tissue Associated With Tibetan High Altitude Adaptation.

The Tibetan population has lived and successfully reproduced at high altitude for many generations. Studies have shown that Tibetans have various mechanisms for protection against high-altitude hypoxia, which are probably due, at least in part, to placental adaptation. However, comprehensive analyses of placentas in Tibetans are lacking.

Enhanced Placental Mitochondrial Respiration in Tibetan Women at High Altitude.

Living at high altitudes is extremely challenging as it entails exposure to hypoxia, low temperatures, and high levels of UV radiation. However, the Tibetan population has adapted to such conditions on both a physiological and genetic level over 30,000-40,000 years. It has long been speculated that fetal growth restriction is caused by abnormal placental development.

Protective Effects from the Ischemic/Hypoxic Stress Induced by Labor in the High-Altitude Tibetan Placenta.

Labor and vaginal delivery cause acute ischemic/hypoxic insult to the placenta. Previous studies demonstrate that placentas from high altitude non-natives showed blunted responses to ischemic/hypoxic insult caused by labor and vaginal birth, and there were some differences in the ATP/ADP production ratio. We hypothesized that adapted highlanders would not have a stress response to the acute hypoxia/ischemia of labor.

The Nobel Mabel. The woman who discovered that low oxygen stimulates hemoglobin production.

The research of Mabel Purefoy FitzGerald (1872-1973) was recently recognized by Sir Peter Ratcliffe in his public lecture at the awarding of the Nobel Prize in Physiology or Medicine as a critical step in the recent delineation of the oxygen sensing pathway. This brief article offers a tantalizing glimpse into the life of a woman whose scientific career spanned four countries, worked with eminent scientists and clinicians including Haldane and Osler, and published important physiologic discoveries. Her accomplishments and astounding life were lost to history for more than one hundred years and it is time to bring her back.

Energy status and HIF signalling in chorionic villi show no evidence of hypoxic stress during human early placental development.

Early human placental and embryonic development occurs in a physiologically low oxygen environment supported by histiotrophic secretions from endometrial glands. In this study, we compare the placental metabolomic profile in the first, second and third trimesters to determine whether the energy demands are adequately met in the first trimester. We investigated whether hypoxia-inducible factors, HIF-1α and/or HIF-2α, might regulate transcription during the first trimester.