Rebeca Galisteo scite author profile

Vascular endothelial growth factor (VEGF) is a potent mitogen and permeability factor for endothelial cells that plays a central role in angiogenesis, vascular maintenance, inflammation, and cancer. VEGF also mediates the homeostatic adaptation to hypoxic conditions by promoting an increase in vascular density to compensate for decreased oxygenation. This process is triggered by an oxygen-sensitive transcription factor, hypoxia-inducible factor-1 (HIF1␣), which becomes active in hypoxic tissues, leading to the synthesis and secretion of VEGF. The role of HIF1␣ in other processes that involve angiogenesis such as in inflammation is less clear. Of interest, endothelial cells not only respond to but also store and secrete VEGF, which is required for the maintenance of the integrity of the vascular system. How this intracellular pool of VEGF is regulated is still not understood. Here, we found that CXCL8/IL8, a potent proangiogenic and inflammatory chemokine, up-regulates VEGF mRNA and protein levels in endothelial cells by acting on its cognate receptor, CXCR2, and that this results in the autocrine activation of VEGFR2. Surprisingly, this process does not involve HIF1␣ but instead requires the activation of the transcription factor NFB. Furthermore, we identified the components of the CBM complex, Carma3, Bcl10, and Malt1, as key mediators of the CXCL8/IL8-induced NFB activation and VEGF up-regulation. Together, these findings support the existence of an NFB-mediated pathway by which the proinflammatory chemokine CXCL8/IL8 controls the expression of VEGF in endothelial cells, thereby promoting the activation of VEGF receptors in an autocrine fashion.

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Decreased nonspecific adhesivity, receptor-targeted therapeutic nanoparticles for primary and metastatic breast cancer

Dancy

Wadajkar

Connolly

et al. 2020

Sci. Adv.

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Development of effective tumor cell–targeted nanodrug formulations has been quite challenging, as many nanocarriers and targeting moieties exhibit nonspecific binding to cellular, extracellular, and intravascular components. We have developed a therapeutic nanoparticle formulation approach that balances cell surface receptor-specific binding affinity while maintaining minimal interactions with blood and tumor tissue components (termed “DART” nanoparticles), thereby improving blood circulation time, biodistribution, and tumor cell–specific uptake. Here, we report that paclitaxel (PTX)–DART nanoparticles directed to the cell surface receptor fibroblast growth factor–inducible 14 (Fn14) outperformed both the corresponding PTX-loaded, nontargeted nanoparticles and Abraxane, an FDA-approved PTX nanoformulation, in both a primary triple-negative breast cancer (TNBC) model and an intracranial model reflecting TNBC growth following metastatic dissemination to the brain. These results provide new insights into methods for effective development of therapeutic nanoparticles as well as support the continued development of the DART platform for primary and metastatic tumors.

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An NF-κB gene expression signature contributes to Kaposi's sarcoma virus vGPCR-induced direct and paracrine neoplasia

Martin

Galisteo

et al. 2007

Oncogene

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Kaposi's sarcoma (KS) is the most frequent AIDS-associated malignancy, etiologically linked to the infection with the human herpesvirus 8 (HHV-8/KSHV). This member of the gamma-herpesviridae family encodes 81 open reading frames, several bearing oncogenic potential. A constitutively active virally encoded G protein-coupled receptor (vGPCR) readily induces KS-like lesions when expressed in endothelial cells in vivo, and unmasks the oncogenic potential of other HHV-8 genes in a paracrine fashion. How vGPCR causes endothelial cell transformation is still not fully understood. Using full-genome microarray analysis we show here that the expression of nuclear factor-kappaB (NF-kappaB)-regulated genes is a prominent feature triggered by vGPCR in cells expressing this viral oncogene and in cells exposed to vGPCR-induced secretions, thus mimicking its paracrine effect. Indeed, vGPCR activates the NF-kappaB pathway potently, and NF-kappaB activation is a hallmark of both human and experimental KS. Of interest, whereas constitutive NF-kappaB signaling is not sufficient to promote endothelial cells transformation, NF-kappaB function is strictly required for vGPCR-induced direct and paracrine neoplasia. Taken together, these results strongly support the role of NF-kappaB regulated genes in KS pathogenesis, thus providing the rationale for the development of novel mechanism-based therapies for this angioproliferative disease.

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Rebeca Galisteo

CXCL8/IL8 Stimulates Vascular Endothelial Growth Factor (VEGF) Expression and the Autocrine Activation of VEGFR2 in Endothelial Cells by Activating NFκB through the CBM (Carma3/Bcl10/Malt1) Complex

Decreased nonspecific adhesivity, receptor-targeted therapeutic nanoparticles for primary and metastatic breast cancer

An NF-κB gene expression signature contributes to Kaposi's sarcoma virus vGPCR-induced direct and paracrine neoplasia

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