Vittoria Capria scite author profile

Vittoria Capria

2Publications

40Citation Statements Received

79Citation Statements Given

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Virginia Tech, Virginia–Maryland College of Veterinary Medicine

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NLRX1 suppresses tumorigenesis and attenuates histiocytic sarcoma through the negative regulation of NF-λB signaling

et al. 2016

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Histiocytic sarcoma is an uncommon malignancy in both humans and veterinary species. Research exploring the pathogenesis of this disease is scarce; thus, diagnostic and therapeutic options for patients are limited. Recent publications have suggested a role for the NLR, NLRX1, in acting as a tumor suppressor. Based on these prior findings, we hypothesized that NLRX1 would function to inhibit tumorigenesis and thus the development of histiocytic sarcoma. To test this, we utilized Nlrx1−/− mice and a model of urethane-induced tumorigenesis. Nlrx1−/− mice exposed to urethane developed splenic histiocytic sarcoma that was associated with significant up-regulation of the NF-λB signaling pathway. Additionally, development of these tumors was also significantly associated with the increased regulation of genes associated with AKT signaling, cell death and autophagy. Together, these data show that NLRX1 suppresses tumorigenesis and reveals new genetic pathways involved in the pathobiology of histiocytic sarcoma.

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NLRX1 attenuates tumorigenesis through the negative regulation of AKT and NF-κB signaling (TUM7P.924)

Allen

Simmons

Capria

et al. 2014

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Members of the NLR family of pattern recognition receptors are essential mediators of the host immune response. Recently, our lab and others identified a novel sub-group of NLRs that function as negative regulators of inflammation. One of the members of this sub-group, NLRX1, is a potent regulator of interferon, NF-κB and autophagy signaling. Each of these signaling pathways has been linked to diverse types of cancer. Thus, we hypothesized that NLRX1 attenuates tumorigenesis through the negative regulation of overzealous innate immune system signaling. To evaluate this hypothesis, we utilized a urethane based model of tumorigenesis and explored disease progression in Nlrx1-/- mice. Mice lacking NLRX1 exhibited dramatically increased morbidity and mortality and were found to develop a rare neoplasia, diagnosed as histiocytic sarcoma. Of the already rare histiocytic disorders in humans, histiocytic sarcoma is exceedingly uncommon and the rarity of this disease has resulted in a paucity of data pertaining to diagnostic and therapeutic options. Mechanistically, our data indicates that NLRX1 attenuates tumorigenesis through the negative regulation of AKT and NF-κB signaling. These pathways were found to be associated with macrophage hyperproliferation in the absence of NLRX1. Our data extends the function of NLRX1 beyond its currently characterized role in host-pathogen defense and reveals a significant contribution for this NLR in cancer pathobiology.

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Vittoria Capria

NLRX1 suppresses tumorigenesis and attenuates histiocytic sarcoma through the negative regulation of NF-λB signaling

NLRX1 attenuates tumorigenesis through the negative regulation of AKT and NF-κB signaling (TUM7P.924)

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