We report the case of a 14-year-old boy with history of microangiopathic hemolytic crises secondary to atypical hemolytic uremic syndrome presenting with new-onset decreased vision, flashes, and ...floaters in his left eye. The patient had a history of chronic retinal detachment in the right eye and retinal neovascularization in the left eye treated with panretinal photocoagulation at age 5. He was now found to have a new combined tractional-rhegmatogenous retinal detachment in the left eye. Despite surgical reattachment of the retina, he had progressive retinal and optic nerve ischemia, with resultant left eye visual acuity of light perception. To our knowledge, this is the first reported case of proliferative retinopathy and tractional and rhegmatogenous retinal detachments in a pediatric patient with atypical hemolytic uremic syndrome.
Over the past decades hemophilia has been transformed from a debilitating disease to a manageable condition. However, the current treatment options are expensive, complex, and inaccessible to a large ...portion of the global population. Moreover, the development of antibodies to replacement factors, termed inhibitors, is a common complication that not only renders conventional prophylaxis regimens ineffective but also increases the annual bleeding rate in affected patients. Fortunately, much progress has been made toward developing a curative gene therapy treatment for hemophilia and these efforts have led to a series of human trials with promising results. This review seeks to address some of the new issues raised by recent progress in the field, including the differences between available recombinant adeno-associated viral (rAAV) vectors, the etiology of transaminitis following vector administration, and techniques to induce long-term factor expression. We also address other unresolved questions, including strategies to overcome pre-existing neutralizing antibodies to AAV, approaches that can make vector re-administration possible, and whether gene therapy can be used to induce factor tolerance and treat inhibitors. Finally, we discuss logistical and ethical issues related to hemophilia gene therapy including how to accurately measure therapeutic outcomes, when to consider treatment of pediatric patients, and how to equitably price the medication to ensure fair compensation while maximizing accessibility. As the field marches forward from clinical trials towards clinical application, answers to these questions will determine the future of gene therapy for hemophilia.
Platelets and neutrophils contribute to the development of acute lung injury (ALI). However, the mechanism by which platelets make this contribution is incompletely understood. We investigated ...whether the two most abundant platelet chemokines, CXCL7, which induces neutrophil chemotaxis and activation, and CXCL4, which does neither, mediate ALI through complementary pathogenic pathways. To examine the role of platelet-derived chemokines in the pathogenesis of ALI using Cxcl7
and Cxcl4
knockout mice and mice that express human CXCL7 or CXCL4, we measured levels of chemokines in these mice. ALI was then induced by acid aspiration, and the severity of injury was evaluated by histology and by the presence of neutrophils and protein in the bronchoalveolar lavage fluid. Pulmonary vascular permeability was studied in vivo by measuring extravasation of fluorescently labeled dextran. Murine CXCL7, both recombinant and native protein released from platelets, can be N-terminally processed by cathepsin G to yield a biologically active CXCL7 fragment. Although Cxcl7
mice are protected from lung injury through the preservation of endothelial/epithelial barrier function combined with impaired neutrophils transmigration, Cxcl4
mice are protected through improved barrier function without affecting neutrophils transmigration to the airways. Sensitivity to ALI is restored by transgenic expression of CXCL7 or CXCL4. Platelet-derived CXCL7 and CXCL4 contribute to the pathogenesis of ALI through complementary effects on neutrophil chemotaxis and through activation and vascular permeability.
Neutrophils are critical mediators of host defense in pathogen-induced and sterile inflammation. Excessive neutrophil activation has been associated with increased host pathology through collateral ...organ damage. The beneficial aspects of neutrophil activation, particularly in sterile inflammation, are less well defined. We observed accumulation of nuclear debris in the lungs of neutropenic mice exposed to acid-induced injury compared with wild type. Size analysis of DNA debris showed that neutropenic mice were unable to degrade extracellular DNA fragments. In addition, we found that neutrophils are able to differentially express DNA-degrading and repair-associated genes and proteins. Once neutrophils are at sites of lung inflammation, they are able to phagocytose and degrade extracellular DNA. This neutrophil-dependent DNA degradation occurs in a MyD88-dependent pathway. The increased DNA debris in neutropenic mice was associated with dysregulated alveolar repair and the phenotype is rescued by intratracheal administration of DNase I. Thus, we show a novel mechanism as part of the inflammatory response, in which neutrophils engulf and degrade extracellular DNA fragments and allow for optimal organ repair.
•Neutrophils acquire the ability to engulf and breakdown extracellular DNA at sites of inflammation, which helps with optimal repair.•DNase I is able to rescue the phenotype of DNA-debris accumulation in neutropenic mice exposed to acid-induced injury.
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Neutrophils can release DNA and granular cytoplasmic proteins that form smooth filaments of stacked nucleosomes (NS). These structures, called neutrophil extracellular traps (NETs), are involved in ...multiple pathological processes, and NET formation and removal are clinically significant. The monoclonal antibody 2C5 has strong specificity toward intact NS but not to individual NS components, indicating that 2C5 could potentially target NS in NETs. In this study, NETs were generated
using neutrophils and HL-60 cells differentiated into granulocyte-like cells. The specificity of 2C5 toward NETs was evaluated by ELISA, which showed that it binds to NETs with the specificity similar to that for purified nucleohistone substrate. Immunofluorescence showed that 2C5 stains NETs in both static and perfused microfluidic cell cultures, even after NET compaction. Modification of liposomes with 2C5 dramatically enhanced liposome association with NETs. Our results suggest that 2C5 could be used to identify and visualize NETs and serve as a ligand for NET-targeted diagnostics and therapies.
Platelets Can Soak It Up and Then Spit It Out Gollomp, Kandace; Friedman, David F.; Poncz, Mortimer
Arteriosclerosis, thrombosis, and vascular biology,
11/2018, Letnik:
38, Številka:
11
Journal Article
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