Annals of Medicine (Jan 2021)

Increased expression of hypoxia-induced factor 1α mRNA and its related genes in myeloid blood cells from critically ill COVID-19 patients

  • Keiko Taniguchi-Ponciano,
  • Eduardo Vadillo,
  • Héctor Mayani,
  • César Raúl Gonzalez-Bonilla,
  • Javier Torres,
  • Abraham Majluf,
  • Guillermo Flores-Padilla,
  • Niels Wacher-Rodarte,
  • Juan Carlos Galan,
  • Eduardo Ferat-Osorio,
  • Francisco Blanco-Favela,
  • Constantino Lopez-Macias,
  • Aldo Ferreira-Hermosillo,
  • Claudia Ramirez-Renteria,
  • Eduardo Peña-Martínez,
  • Gloria Silva-Román,
  • Sandra Vela-Patiño,
  • Carlos Mata-Lozano,
  • Roberto Carvente-Garcia,
  • Lourdes Basurto-Acevedo,
  • Renata Saucedo,
  • Patricia Piña-Sanchez,
  • Antonieta Chavez-Gonzalez,
  • Daniel Marrero-Rodríguez,
  • Moisés Mercado

DOI
https://doi.org/10.1080/07853890.2020.1858234
Journal volume & issue
Vol. 53, no. 1
pp. 197 – 207

Abstract

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AbstractBackground COVID-19 counts 46 million people infected and killed more than 1.2 million. Hypoxaemia is one of the main clinical manifestations, especially in severe cases. HIF1α is a master transcription factor involved in the cellular response to oxygen levels. The immunopathogenesis of this severe form of COVID-19 is poorly understood.Methods We performed scRNAseq from leukocytes from five critically ill COVID-19 patients and characterized the expression of hypoxia-inducible factor1α and its transcriptionally regulated genes. Also performed metanalysis from the publicly available RNAseq data from COVID-19 bronchoalveolar cells.Results Critically-ill COVID-19 patients show a shift towards an immature myeloid profile in peripheral blood cells, including band neutrophils, immature monocytes, metamyelocytes, monocyte-macrophages, monocytoid precursors, and promyelocytes-myelocytes, together with mature monocytes and segmented neutrophils. May be the result of a physiological response known as emergency myelopoiesis. These cellular subsets and bronchoalveolar cells express HIF1α and their transcriptional targets related to inflammation (CXCL8, CXCR1, CXCR2, and CXCR4); virus sensing, (TLR2 and TLR4); and metabolism (SLC2A3, PFKFB3, PGK1, GAPDH and SOD2).Conclusions The up-regulation and participation of HIF1α in events such as inflammation, immunometabolism, and TLR make it a potential molecular marker for COVID-19 severity and, interestingly, could represent a potential target for molecular therapy.Key messagesCritically ill COVID-19 patients show emergency myelopoiesis.HIF1α and its transcriptionally regulated genes are expressed in immature myeloid cells which could serve as molecular targets.HIF1α and its transcriptionally regulated genes is also expressed in lung cells from critically ill COVID-19 patients which may partially explain the hypoxia related events.

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