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Targeting ATP2B1 impairs PI3K/Akt/FOXO signaling and reduces SARS-COV-2 infection and replication.

Pasqualino De AntonellisVeronica FerrucciMarco MiceliFrancesca BibboFatemeh AsadzadehFrancesca GoriniAlessia MattiviAngelo BocciaRoberta RussoImmacolata AndolfoVito Alessandro LasorsaSueva CantalupoGiovanna FuscoMaurizio ViscardiSergio BrandiPellegrino CerinoVittoria MonacoDong-Rac ChoiJae Ho CheongAchille IolasconStefano AmenteMaria MontiLuca L FavaMario CapassoHong-Yeoul KimMassimo Zollo
Published in: EMBO reports (2024)
ATP2B1 is a known regulator of calcium (Ca 2+ ) cellular export and homeostasis. Diminished levels of intracellular Ca 2+ content have been suggested to impair SARS-CoV-2 replication. Here, we demonstrate that a nontoxic caloxin-derivative compound (PI-7) reduces intracellular Ca 2+ levels and impairs SARS-CoV-2 infection. Furthermore, a rare homozygous intronic variant of ATP2B1 is shown to be associated with the severity of COVID-19. The mechanism of action during SARS-CoV-2 infection involves the PI3K/Akt signaling pathway activation, inactivation of FOXO3 transcription factor function, and subsequent transcriptional inhibition of the membrane and reticulum Ca 2+ pumps ATP2B1 and ATP2A1, respectively. The pharmacological action of compound PI-7 on sustaining both ATP2B1 and ATP2A1 expression reduces the intracellular cytoplasmic Ca 2+ pool and thus negatively influences SARS-CoV-2 replication and propagation. As compound PI-7 lacks toxicity in vitro, its prophylactic use as a therapeutic agent against COVID-19 is envisioned here.
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