Ellen Nadel scite author profile

We previously reported the delivery of endothelial progenitor cells (EPCs) embedded in hyaluronic acid-based (HA)-hydrogels protects renal function during acute kidney injury (AKI) and promotes angiogenesis. We attempted to further ameliorate renal dysfunction by coembedding EPCs with renal mesenchymal stem cells (MSCs), while examining their paracrine influence on cytokine/chemokine release and proinflammatory macrophages. A live/dead assay determined whether EPC-MSC coculturing improved viability during lipopolysaccharide (LPS) treatment, and HA-hydrogel-embedded delivery of cells to LPS-induced AKI mice was assessed for effects on mean arterial pressure (MAP), renal blood flow (RBF), circulating cytokines/chemokines, serum creatinine, proteinuria, and angiogenesis (femoral ligation). Cytokine/chemokine release from embedded stem cells was examined, including effects on macrophage polarization and release of proinflammatory molecules. EPC-MSC coculturing improved stem cell viability during LPS exposure, an effect augmented by MSC hypoxic preconditioning. The delivery of coembedded EPCs with hypoxic preconditioned MSCs to AKI mice demonstrated additive improvement (compared with EPC delivery alone) in medullary RBF and proteinuria, with comparable effects on serum creatinine, MAP, and angiogenesis. Exposure of proinflammatory M1 macrophages to EPC-MSC conditioned medium changed their polarization to anti-inflammatory M2. Incubation of coembedded EPCs-MSCs with macrophages altered their release of cytokines/chemokines, including enhanced release of anti-inflammatory interleukin (IL)-4 and IL-10. EPC-MSC delivery to endotoxemic mice elevated the levels of circulating M2 macrophages and reduced the circulating cytokines/chemokines. In conclusion, coembedding EPCs-MSCs improved their resistance to stress, impelled macrophage polarization from M1 to M2 while altering their cytokine/chemokines release, reduced circulating cytokines/chemokines, and improved renal and vascular function when MSCs were hypoxically preconditioned. Significance This report provides insight into a new therapeutic approach for treatment of sepsis and provides a new and improved strategy using hydrogels for the delivery of stem cells to treat sepsis and, potentially, other injuries and/or diseases. The delivery of two different stem cell lines (endothelial progenitor cells and mesenchymal stem cells; delivered alone and together) embedded in a protective bioengineered scaffolding (hydrogel) offers many therapeutic benefits for the treatment of sepsis. This study shows how hydrogel-delivered stem cells elicit their effects and how hydrogel embedding enhances the therapeutic efficacy of delivered stem cells. Hydrogel-delivered stem cells influence the components of the overactive immune system during sepsis and work to counterbalance the release of many proinflammatory and prodamage substances from immune cells, thereby improving the associated vascular and kidney damage.

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Endothelial Peroxisomal Dysfunction and Impaired Pexophagy Promotes Oxidative Damage in Lipopolysaccharide-Induced Acute Kidney Injury

Vasko

Ratliff

Bohr

et al. 2013

Antioxidants & Redox Signaling

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Aims: We examined that (a) how the endotoxic stress affects peroxisomal function and autophagic degradation of peroxisomes-pexophagy, (b) how a superimposed dysfunction of lysosomes and pexophagy modifies responses to lipopolysaccharide (LPS), and (c) the mechanisms of peroxisomal contribution to renal injury. To accomplish this, we used lysosome-defective Lyst-mice in vivo and primary endothelial cells in vitro, and compared the responses with wild-type (WT) littermates. Results: LPS induced pexophagic degradation, followed by proliferation of peroxisomes in WT mice, which was abolished in Lyst-mice. Lyst-mice exhibited impaired activation of catalase, which together with preserved hydrogen peroxide-generating b-oxidation resulted in redox disequilibrium. LPS treatment induced a heightened inflammatory response, increased oxidative damage, and aggravated renal injury in Lyst-mice. Similarly, as in vivo, LPS-activated lysosomal (LYS) pexophagy and transiently repressed peroxisomes in vitro, supported by reduced peroxisomal density in the vicinity of lysosomes. Peroxisomal dynamics was also abolished in lysosome-defective cells, which accumulated peroxisomes with compromised functions and intraorganellar redox imbalance. Innovation: We demonstrated that pexophagy is a default response to endotoxic injury. However, when LYS dysfunction (a frequent companion of chronic diseases) is superimposed, recycling and functioning of peroxisomes are impaired, and an imbalance between hydrogen peroxide-generating b-oxidation and hydrogen peroxide-detoxifying catalase ensues, which ultimately results in peroxisomal burnout. Conclusion: Our data strongly suggest that pexophagy, a cellular mechanism per se, is essential in functional maintenance of peroxisomes during LPS exposure. Inhibition of pexophagy results in accumulation of impaired peroxisomes, redox disequilibrium, and aggravated renal damage. Antioxid. Redox Signal. 19,[211][212][213][214][215][216][217][218][219][220][221][222][223][224][225][226][227][228][229][230]

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Improving Prenatal Care for Minority Women

Gennaro

Melnyk

O’Connor

et al. 2016

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Since the inception of prenatal care in the early 1900s, the focus of care has been on risk reduction rather than on health promotion. Prenatal care began as individualized care, but more recently group prenatal care has been documented to be very successful in improving birth outcomes. For all women, an emphasis on improving health behaviors is important at this critical time while women are engaging regularly with the health care system. An emphasis on mental health promotion may decrease some of the disparities in birth outcomes that are well documented between minority and majority women, as minority women are known to experience increased levels of stress, anxiety, and depression. Providing support for pregnant women and incorporating knowledge and skills through prenatal care may promote both physical and mental health in minority women.

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Ellen Nadel

The Secretome of Hydrogel-Coembedded Endothelial Progenitor Cells and Mesenchymal Stem Cells Instructs Macrophage Polarization in Endotoxemia

Endothelial Peroxisomal Dysfunction and Impaired Pexophagy Promotes Oxidative Damage in Lipopolysaccharide-Induced Acute Kidney Injury

Improving Prenatal Care for Minority Women

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