Antioxidants (Dec 2021)

Cultivation of Cells in a Physiological Plasmax Medium Increases Mitochondrial Respiratory Capacity and Reduces Replication Levels of RNA Viruses

  • Michail V. Golikov,
  • Inna L. Karpenko,
  • Anastasiya V. Lipatova,
  • Olga N. Ivanova,
  • Irina T. Fedyakina,
  • Viktor F. Larichev,
  • Natalia F. Zakirova,
  • Olga G. Leonova,
  • Vladimir I. Popenko,
  • Birke Bartosch,
  • Sergey N. Kochetkov,
  • Olga A. Smirnova,
  • Alexander V. Ivanov

DOI
https://doi.org/10.3390/antiox11010097
Journal volume & issue
Vol. 11, no. 1
p. 97

Abstract

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Changes in metabolic pathways are often associated with the development of various pathologies including cancer, inflammatory diseases, obesity and metabolic syndrome. Identification of the particular metabolic events that are dysregulated may yield strategies for pharmacologic intervention. However, such studies are hampered by the use of classic cell media that do not reflect the metabolite composition that exists in blood plasma and which cause non-physiological adaptations in cultured cells. In recent years two groups presented media that aim to reflect the composition of human plasma, namely human plasma-like medium (HPLM) and Plasmax. Here we describe that, in four different mammalian cell lines, Plasmax enhances mitochondrial respiration. This is associated with the formation of vast mitochondrial networks and enhanced production of reactive oxygen species (ROS). Interestingly, cells cultivated in Plasmax displayed significantly less lysosomes than when any standard media were used. Finally, cells cultivated in Plasmax support replication of various RNA viruses, such as hepatitis C virus (HCV) influenza A virus (IAV), severe acute respiratory syndrome-related coronavirus 2 (SARS-CoV-2) and several others, albeit at lower levels and with delayed kinetics. In conclusion, studies of metabolism in the context of viral infections, especially those concerning mitochondria, lysosomes, or redox systems, should be performed in Plasmax medium.

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