scRNA-seq profiling of human granulocytes reveals expansion of developmentally flexible neutrophil precursors with mixed neutrophil and eosinophil properties in asthma.

Neutrophils and eosinophils share common hematopoietic precursors and usually diverge into distinct lineages with unique markers before being released from their hematopoietic site, which is the bone marrow (BM). However, previous studies identified an immature Ly6g(+) Il-5Rα(+) neutrophil population in mouse BM, expressing both neutrophil and eosinophil markers suggesting hematopoietic flexibility. Moreover, others have reported neutrophil populations expressing eosinophil-specific cell surface markers in tissues and altered disease states, confusing the field regarding eosinophil origins, function, and classification. Despite these reports, it is still unclear whether hematopoietic flexibility exists in human granulocytes. To answer this, we utilized single-cell RNA sequencing (scRNA-seq) and CITE-seq to profile human BM and circulating neutrophils and eosinophils at different stages of differentiation and determine whether neutrophil plasticity plays role in asthmatic inflammation. We show that immature metamyelocyte neutrophils in humans expand during severe asthmatic inflammation and express both neutrophil and eosinophil markers. We also show an increase in tri-lobed eosinophils with mixed neutrophil and eosinophil markers in allergic asthma and that IL-5 promotes differentiation of immature blood neutrophils into tri-lobed eosinophilic phenotypes suggesting a mechanism of emergency granulopoiesis to promote myeloid inflammatory or remodeling response in patients with chronic asthma. By providing insights into unexpectedly flexible granulocyte biology and demonstrating emergency hematopoiesis in asthma, our results highlight the importance of granulocyte plasticity in eosinophil development and allergic diseases.

[The impact of detecting endothelial dysfunction in atherosclerosis: Role of positron emission tomography (PET)]. / El impacto de la detección de disfunción endotelial en la aterosclerosis: estudio mediante tomografía por emisión de positrones.

The endothelium plays an important role in the regulation of the intracellular fluid, vascular permeability, and modulation of vascular focal tone and angiogenesis. Endothelial dysfunction is manifested by the loss of the endothelium ability to modulate physiology changes in its vascular bed, and actually it is considered a prognostic marker of coronary artery disease. The relevance of assessing endothelial dysfunction relies in that it has been observed in different pathologies like DM, dyslipidemia, hypertension, tabaquism and in immunologic diseases like antiphospholipid syndrome and systemic lupus. PET is a non invasive method that allows the absolute quantification of myocardial blood flow during rest, stress and adrenergic stimulation, which allows to asses endothelial function. Therefore PET is a useful diagnostic technique to identify patients with endothelial dysfunction, and in the assessment of its response to administered therapy, allowing an optimal control and prevention of secondary adverse events of these diseases.

El impacto de la detección de disfunción endotelial en la aterosclerosis: estudio mediante tomografía por emisión de positrones / Impact of the detection of endothelial dysfunction in atherosclerosis: Assessment by positron emission tomography

El endotelio juega un papel importante en la regulación del líquido intracelular, la permeabilidad vascular, en la modulación del tono vascular focal y la angiogénesis. La disfunción endotelial se manifiesta por la pérdida de la capacidad del endotelio de modular el comportamiento fisiológico del lecho vascular y actualmente se considera un marcador pronóstico de la enfermedad arterial coronaria. La relevancia de estudiar la disfunción endotelial radica en que ésta se ha observado en diversas patologías como diabetes mellitas (DM), dislipidemia, hipertensión arterial sistémica, tabaquismo o en enfermedades inmunológicas como síndrome antifosfolípido y lupus eritematoso sistémico. La Tomografía por Emisión de Positrones (PET) es un método no invasivo que permite cuantificar en términos absolutos el flujo miocárdico en reposo, esfuerzo y durante la estimulación adrenérgica, siendo considerado en la actualidad el estándar de oro para valorar la función endotelial. Por lo tanto el PET es una herramienta diagnóstica muy útil en identificar a los pacientes con disfunción endotelial y en evaluar la respuesta a la terapia administrada en enfermedades que se acompañen de ésta. Permitiendo un control óptimo y prevención de eventos adversos de estas enfermedades.

The endothelium plays an important role in the regulation of the intracellular fluid, vascular permeability, and modulation of vascular focal tone and angiogenesis. Endothelial dysfunction is manifested by the loss of the endothelium ability to modulate physiology changes in its vascular bed, and actually it is considered a prognostic marker of coronary artery disease. The relevance of assessing endothelial dysfunction relies in that it has been observed in different pathologies like DM, dyslipidemia, hypertension, tabaquism and in immunologic diseases like antiphospholipid syndrome and systemic lupus. PET is a non invasive method that allows the absolute quantification of myocardial blood flow during rest, stress and adrenergic stimulation, which allows to asses endothelial function. Therefore PET is a useful diagnostic technique to identify patients with endothelial dysfunction, and in the assessment of its response to administered therapy, allowing an optimal control and prevention of secondary adverse events of these diseases.

Importancia de la detección de viabilidad miocárdica: evaluación con tomografía por emisión de positrones con 18F-FDG / Value of the assessment of myocardial viability: evaluation with positron emission tomography 18F-FDG

It used to be thought that the consequences of coronary artery disease were final, and that the prognosis of the patient was limited to the extent of the ventricular dysfunction. This paradigm changed radically when the concept of hibernating myocardium was introduced, which states the existence of tissue that can regain contractile function after being re-vascularized. This introduced a new concept in cardiology: myocardial viability. This work presents a clear example of the importance of detecting myocardial viability in selected patients, due to the impact not only in treatment but in prognosis as well. It is also emphasized that positron emission tomography (PET) is the gold standard method to detect myocardial viability.

[Value of the assessment of myocardial viability: evaluation with positron emission tomography 18F-FDG]. / Importancia de la detección de viabilidad miocárdica: evaluación con tomografía por emisión de positrones con 18F-FDG.

It used to be thought that the consequences of coronary artery disease were final, and that the prognosis of the patient was limited to the extent of the ventricular dysfunction. This paradigm changed radically when the concept of hibernating myocardium was introduced, which states the existence of tissue that can regain contractile function after being re-vascularized. This introduced a new concept in cardiology: myocardial viability. This work presents a clear example of the importance of detecting myocardial viability in selected patients, due to the impact not only in treatment but in prognosis as well. It is also emphasized that positron emission tomography (PET) is the gold standard method to detect myocardial viability.