Nisha G. Sosale scite author profile

Nisha G. Sosale

5Publications

76Citation Statements Received

94Citation Statements Given

How they've been cited

102

How they cite others

162

Affiliations

University of Virginia, University of Pennsylvania

Publications

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Calcium-stimulated disassembly of focal adhesions mediated by an ORP3/IQSec1 complex

D’Souza

Lim

Turgut

et al. 2020

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Coordinated assembly and disassembly of integrin-mediated focal adhesions (FAs) is essential for cell migration. Many studies have shown that FA disassembly requires Ca2+ influx, however our understanding of this process remains incomplete. Here, we show that Ca2+ influx via STIM1/Orai1 calcium channels, which cluster near FAs, leads to activation of the GTPase Arf5 via the Ca2+-activated GEF IQSec1, and that both IQSec1 and Arf5 activation are essential for adhesion disassembly. We further show that IQSec1 forms a complex with the lipid transfer protein ORP3, and that Ca2+ influx triggers PKC-dependent translocation of this complex to ER/plasma membrane (PM) contact sites adjacent to FAs. In addition to allosterically activating IQSec1, ORP3 also extracts PI4P from the PM, in exchange for phosphatidylcholine. ORP3-mediated lipid exchange is also important for FA turnover. Together, these findings identify a new pathway that links calcium influx to FA turnover during cell migration.

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Glioblastoma Cell Resistance to EGFR and MET Inhibition Can Be Overcome via Blockade of FGFR-SPRY2 Bypass Signaling

et al. 2020

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CX-5461 Treatment Leads to Cytosolic DNA-Mediated STING Activation in Ovarian Cancer

Cornelison

Biswas

Llaneza

et al. 2021

Cancers

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Epithelial ovarian cancer (EOC) is the deadliest of the gynecologic malignancies, with an overall survival rate of <30%. Recent research has suggested that targeting RNA polymerase I (POL I) with small-molecule inhibitors may be a viable therapeutic approach to combating EOC, even when chemoresistance is present. CX-5461 is one of the most promising POL I inhibitors currently being investigated, and previous reports have shown that CX-5461 treatment induces DNA damage response (DDR) through ATM/ATR kinase. Investigation into downstream effects of CX-5461 led us to uncovering a previously unreported phenotype. Treatment with CX-5461 induces a rapid accumulation of cytosolic DNA. This accumulation leads to transcriptional upregulation of ‘STimulator of Interferon Genes’ (STING) in the same time frame, phosphorylation of IRF3, and activation of type I interferon response both in vitro and in vivo. This activation is mediated and dependent on cyclic GMP–AMP synthase (cGAS). Here, we show THAT CX-5461 leads to an accumulation of cytosolic dsDNA and thereby activates the cGAS–STING–TBK1–IRF3 innate immune pathway, which induces type I IFN. CX-5461 treatment-mediated immune activation may be a powerful mechanism of action to exploit, leading to novel drug combinations with a chance of increasing immunotherapy efficacy, possibly with some cancer specificity limiting deleterious toxicities.

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Author response: Calcium-stimulated disassembly of focal adhesions mediated by an ORP3/IQSec1 complex

D’Souza

Lim

Turgut

et al. 2020

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Csig-14. Sprouty2 Differentially Regulates Signaling and Phenotypic Responses of Glioblastoma Cells to Dna Damaging Agents and Receptor Kinase Inhibitors

Sosale

Lazzara

2016

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Nisha G. Sosale

Calcium-stimulated disassembly of focal adhesions mediated by an ORP3/IQSec1 complex

Glioblastoma Cell Resistance to EGFR and MET Inhibition Can Be Overcome via Blockade of FGFR-SPRY2 Bypass Signaling

CX-5461 Treatment Leads to Cytosolic DNA-Mediated STING Activation in Ovarian Cancer

Author response: Calcium-stimulated disassembly of focal adhesions mediated by an ORP3/IQSec1 complex

Csig-14. Sprouty2 Differentially Regulates Signaling and Phenotypic Responses of Glioblastoma Cells to Dna Damaging Agents and Receptor Kinase Inhibitors

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