LoMascolo Nj scite author profile

LoMascolo Nj

2Publications

5Citation Statements Received

88Citation Statements Given

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Loyola University Chicago

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Polyamines and eIF5A hypusination facilitate SREBP2 translation and cholesterol synthesis to enhance enterovirus attachment and infection

Firpo

Petit

et al. 2021

Preprint

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Metabolism is key to cellular processes that underlie the ability of a virus to productively infect. Polyamines are small metabolites vital for many host cell processes including proliferation, transcription, and translation. Polyamine depletion also inhibits virus infection via diverse mechanisms, including inhibiting polymerase activity and viral translation. We showed that Coxsackievirus B3 (CVB3) attachment requires polyamines; however, the mechanism was unknown. Here, we report polyamines’ involvement in translation, through a process called hypusination, promotes expression of cholesterol synthesis genes by supporting SREBP2 translation, the master transcriptional regulator of cholesterol synthesis genes. Measuring bulk transcription, we found polyamines support expression of cholesterol synthesis genes, regulated by SREBP2. Polyamine depletion inhibits CVB3 by depleting cellular cholesterol. Exogenous cholesterol rescues CVB3 attachment, and mutant CVB3 resistant to polyamine depletion exhibits resistance to cholesterol perturbation. This study provides a novel link between polyamine and cholesterol homeostasis, a mechanism through which polyamines impact CVB3 infection.

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Polyamines mediate enterovirus attachment directly and indirectly through cellular heparan sulfate synthesis

Bm¹,

et al. 2021

Preprint

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Productive viral infection begins with attachment to a susceptible cell, and viruses have evolved complex mechanisms to attach to and subsequently enter cells. Prior to engagement with a cellular receptor, viruses frequently interact with nonspecific attachment factors that can facilitate virus-receptor interactions and viral entry. Polyamines, small positively-charged molecules abundant in mammalian cells, mediate viral attachment, though the mechanism was not fully understood. Using the Coxsackievirus B3 (CVB3) enterovirus model system, we show that polyamines mediate viral attachment both directly and indirectly. The polyamine putrescine specifically enhances viral attachment to cells depleted of polyamines. Putrescine’s positive charge mediates its ability to enhance viral attachment, and polyamine analogs are less efficient at mediating viral attachment. In addition to this direct role of polyamines in attachment, polyamines facilitate the cellular expression of heparan sulfates, negatively-charged molecules found on the cell surface. In polyamine-depleted cells, heparan sulfates are depleted from the surface of cells, resulting in reduced viral attachment. We find that this is due to polyamines’ role in the process of hypusination of eukaryotic initiation factor 5A, which facilitates cellular translation. These data highlight the important role of polyamines in mediating cellular attachment, as well as their function in facilitating cellular heparan sulfate synthesis.

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LoMascolo Nj

Polyamines and eIF5A hypusination facilitate SREBP2 translation and cholesterol synthesis to enhance enterovirus attachment and infection

Polyamines mediate enterovirus attachment directly and indirectly through cellular heparan sulfate synthesis

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