Julie A. Shields scite author profile

Julie A. Shields

5Publications

16Citation Statements Received

112Citation Statements Given

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129

Affiliations

Tango Therapeutics (United States), Cornell University

Publications

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VRK1 Is a Synthetic–Lethal Target in VRK2-Deficient Glioblastoma

Shields

Meier

Bandi

et al. 2022

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Synthetic lethality is a genetic interaction that results in cell death when two genetic deficiencies co-occur but not when either deficiency occurs alone, which can be co-opted for cancer therapeutics. Pairs of paralog genes are among the most straightforward potential synthetic lethal interactions by virtue of their redundant functions. Here we demonstrate a paralog-based synthetic lethality by targeting vaccinia-related kinase 1 (VRK1) in glioblastoma (GBM) deficient of vaccinia-related kinase 2 (VRK2), which is silenced by promoter methylation in approximately two-thirds of GBM. Genetic knockdown of VRK1 in VRK2-null or VRK2-methylated cells resulted in decreased activity of the downstream substrate barrier to autointegration factor (BAF), a regulator of post-mitotic nuclear envelope formation. Reduced BAF activity following VRK1 knockdown caused nuclear lobulation, blebbing, and micronucleation, which subsequently resulted in G2/M arrest and DNA damage. The VRK1-VRK2 synthetic lethal interaction was dependent on VRK1 kinase activity and was rescued by ectopic expression of VRK2. In VRK2-methylated GBM cell line-derived xenograft (CDX) and patient-derived xenograft (PDX) models, knockdown of VRK1 led to robust tumor growth inhibition. These results indicate that inhibiting VRK1 kinase activity could be a viable therapeutic strategy in VRK2-methylated GBM.

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VRK1 is a Paralog Synthetic Lethal Target in VRK2-methylated Glioblastoma

Shields

Meier

Bandi

et al. 2022

Preprint

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Synthetic lethality - a genetic interaction that results in cell death when two genetic deficiencies co-occur but not when either deficiency occurs alone - can be co-opted for cancer therapeutics. A pair of paralog genes is among the most straightforward synthetic lethal interaction by virtue of their redundant functions. Here we demonstrate a paralog-based synthetic lethality by targeting Vaccinia-Related Kinase 1 (VRK1) in Vaccinia-Related Kinase 2 (VRK2)-methylated glioblastoma (GBM). VRK2 is silenced by promoter methylation in approximately two-thirds of GBM, an aggressive cancer with few available targeted therapies. Genetic knockdown of VRK1 in VRK2-null or VRK2-methylated cells results in decreased activity of the downstream substrate Barrier to Autointegration Factor (BAF), a regulator of post-mitotic nuclear envelope formation. VRK1 knockdown, and thus reduced BAF activity, causes nuclear lobulation, blebbing and micronucleation, which subsequently results in G2/M arrest and DNA damage. The VRK1-VRK2 synthetic lethal interaction is dependent on VRK1 kinase activity and is rescued by ectopic VRK2 expression. Knockdown of VRK1 leads to robust tumor growth inhibition in VRK2-methylated GBM xenografts. These results indicate that inhibiting VRK1 kinase activity could be a viable therapeutic strategy in VRK2-methylated GBM.

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Supplementary Figure from VRK1 Is a Synthetic–Lethal Target in VRK2-Deficient Glioblastoma

Shields¹,

Meier²,

Bandi³

et al. 2023

Preprint

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Supplementary Data from VRK1 Is a Synthetic–Lethal Target in VRK2-Deficient Glioblastoma

Shields¹,

Meier²,

Bandi³

et al. 2023

Preprint

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Supplementary Data from VRK1 Is a Synthetic–Lethal Target in VRK2-Deficient Glioblastoma

Shields¹,

Meier²,

Bandi³

et al. 2023

Preprint

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Julie A. Shields

VRK1 Is a Synthetic–Lethal Target in VRK2-Deficient Glioblastoma

VRK1 is a Paralog Synthetic Lethal Target in VRK2-methylated Glioblastoma

Supplementary Figure from VRK1 Is a Synthetic–Lethal Target in VRK2-Deficient Glioblastoma

Supplementary Data from VRK1 Is a Synthetic–Lethal Target in VRK2-Deficient Glioblastoma

Supplementary Data from VRK1 Is a Synthetic–Lethal Target in VRK2-Deficient Glioblastoma

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