Elizabeth K. Lee scite author profile

Necrotizing enterocolitis (NEC) is a devastating disease of premature infants characterized by severe intestinal necrosis and for which breast milk represents the most effective protective strategy. Previous studies have revealed a critical role for the lipopolysaccharide receptor toll-like receptor 4 (TLR4) in NEC development through its induction of mucosal injury, yet the reasons for which intestinal ischemia in NEC occurs in the first place remain unknown. We hypothesize that TLR4 signaling within the endothelium plays an essential role in NEC development by regulating perfusion to the small intestine via the vasodilatory molecule endothelial nitric oxide synthase (eNOS). Using a unique mouse system in which we selectively deleted TLR4 from the endothelium, we now show that endothelial TLR4 activation is required for NEC development and that endothelial TLR4 activation impairs intestinal perfusion without effects on other organs and reduces eNOS expression via activation of myeloid differentiation primary response gene 88. NEC severity was significantly increased in eNOS −/− mice and decreased upon administration of the phosphodiesterase inhibitor sildenafil, which augments eNOS function. Strikingly, compared with formula, human and mouse breast milk were enriched in sodium nitrate-a precursor for enteral generation of nitrite and nitric oxide-and repletion of formula with sodium nitrate/nitrite restored intestinal perfusion, reversed the deleterious effects of endothelial TLR4 signaling, and reduced NEC severity. These data identify that endothelial TLR4 critically regulates intestinal perfusion leading to NEC and reveal that the protective properties of breast milk involve enhanced intestinal microcirculatory integrity via augmentation of nitrate-nitrite-NO signaling.neonatal inflammation | prematurity | infant formula | neonatal nutrition | sepsis N ecrotizing enterocolitis (NEC) is the leading cause of death from gastrointestinal disease in the premature infant and is gradually increasing in frequency (1). The defining pathological feature of NEC is the presence of patchy areas of ischemia and necrosis of the small and large intestine (2). Although prematurity is the leading risk factor for NEC development, breast milk administration has been identified as the most important protective strategy (3). Importantly, the mechanisms that lead to the acute development of intestinal necrosis in the premature intestine and factors within breast milk that may prevent NEC remain largely unexplored.In seeking to understand the underlying biological mechanisms that lead to NEC, we and others have identified a critical role for the innate immune receptor toll-like receptor 4 (TLR4) in NEC pathogenesis, because mice deficient in TLR4 showed reduced mucosal inflammation and reduced intestinal necrosis in experimental NEC (4, 5). Microcirculatory perfusion of the premature intestine is primarily regulated by the vasodilator nitric oxide (NO), which is generated through the activity of endothelial NO synthase (eNOS) (6). ...

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Berzosertib plus gemcitabine versus gemcitabine alone in platinum-resistant high-grade serous ovarian cancer: a multicentre, open-label, randomised, phase 2 trial

Konstantinopoulos

Cheng

Hendrickson

et al. 2020

The Lancet Oncology

165

114

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PARP Inhibitor Resistance Mechanisms and Implications for Post-Progression Combination Therapies

Lee

Matulonis

2020

Cancers

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The use of PARP inhibitors (PARPi) is growing widely as FDA approvals have shifted its use from the recurrence setting to the frontline setting. In parallel, the population developing PARPi resistance is increasing. Here we review the role of PARP, DNA damage repair, and synthetic lethality. We discuss mechanisms of resistance to PARP inhibition and how this informs on novel combinations to re-sensitize cancer cells to PARPi.

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PARP inhibition and immune modulation: scientific rationale and perspectives for the treatment of gynecologic cancers

Lee

Konstantinopoulos

2020

Ther Adv Med Oncol

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Poly[adenosine diphosphate (ADP) ribose]polymerase (PARP) has multifaceted roles in the maintenance of genomic integrity, deoxyribonucleic acid (DNA) repair and replication, and the maintenance of immune-system homeostasis. PARP inhibitors are an attractive oncologic therapy, causing direct cancer cell cytotoxicity by propagating DNA damage and indirectly, by various mechanisms of immunostimulation, including activation of the cGAS/STING pathway, paracrine stimulation of dendritic cells, increased T-cell infiltration, and upregulation of death-ligand receptors to increase susceptibility to natural-killer-cell killing. However, these immunostimulatory effects are counterbalanced by PARPi-mediated upregulation of programmed cell-death-ligand 1 (PD-L1), which leads to immunosuppression. Combining PARP inhibition with immune-checkpoint blockade seeks to exploit the immune stimulatory effects of PARP inhibition while negating the immunosuppressive effects of PD-L1 upregulation.

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Combined PARP and Immune Checkpoint Inhibition in Ovarian Cancer

Lee

Konstantinopoulos

2019

Trends in Cancer

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Elizabeth K. Lee

Endothelial TLR4 activation impairs intestinal microcirculatory perfusion in necrotizing enterocolitis via eNOS–NO–nitrite signaling

Berzosertib plus gemcitabine versus gemcitabine alone in platinum-resistant high-grade serous ovarian cancer: a multicentre, open-label, randomised, phase 2 trial

PARP Inhibitor Resistance Mechanisms and Implications for Post-Progression Combination Therapies

PARP inhibition and immune modulation: scientific rationale and perspectives for the treatment of gynecologic cancers

Combined PARP and Immune Checkpoint Inhibition in Ovarian Cancer

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