TNFRSF1B Signaling Blockade Protects Airway Epithelial Cells from Oxidative Stress.

Progressive respiratory airway destruction due to unresolved inflammation induced by periodic infectious exacerbation episodes is a hallmark of cystic fibrosis (CF) lung pathology. To clear bacteria, neutrophils release high amounts of reactive oxygen species (ROS), which inflict collateral damage to the neighboring epithelial cells causing oxidative stress. A former genome-wide small interfering RNA (siRNA) screening in CF submucosal gland cells, instrumental for mucociliary clearance, proposed tumor necrosis factor receptor superfamily member 1B (TNFRSF1B; TNFR2) as a potential hit involved in oxidative stress susceptibility. Here, we demonstrate the relevance of TNFRSF1B transcript knock-down for epithelial cell protection under strong oxidative stress conditions. Moreover, a blockade of TNFR signaling through its ligand lymphotoxin-α (LTA), overexpressed in airway epithelial cells under oxidative stress conditions, using the anti-tumor necrosis factor (TNF) biologic etanercept significantly increased the viability of these cells from a toxic oxidizing agent. Furthermore, bioinformatic analyses considering our previous RNA interference (RNAi) screening output highlight the relevance of TNFRSF1B and of other genes within the TNF pathway leading to epithelial cell death. Thus, the inhibition of the LTα3-TNFR2 axis could represent a useful therapeutic strategy to protect the respiratory airway epithelial lining from the oxidative stress challenge because of recurrent infection/inflammation cycles faced by CF patients.

Impact of Coronavirus-19 Pandemic and Lockdown on Admissions for Ischemic Heart Disease.

Background: In early 2020, the SARS-CoV-2 pandemic caused an unprecedented overload for the health service. A decrease in admissions for Acute Coronary Syndrome (ACS) was reported during lockdown, although many aspects remain to be clarified. The main objective of this study was to evaluate the impact of the pandemic and of lockdown itself in this area. Methods: We performed a retrospective observational study based on data from patients who visited the emergency department of a tertiary hospital with chest pain during 2018-2020, as well as those who were admitted for ACS. Personal details, date of admission, additional test results (laboratory and echocardiography), and therapy were recorded. Patients were divided into 3 groups: preCOVID (n=1,301), lockdown (n=45), and postlockdown (n=343). Results: Fewer visits to the emergency department for chest pain and admissions for ACS were recorded during lockdown (48.6% and 51.1% respectively, p<0.05). Patients who were admitted during lockdown were characterized by poorer control of cardiovascular risk factors, visited later (more evolving infarctions: 2.7% vs. 14.3%, p<0.05), experienced more echocardiographic complications during admission, and had more than 3-fold mortality rates (both in-hospital and postdischarge). Conclusion: The COVID-19 pandemic and lockdown itself had a negative effect on ischemic heart disease beyond SARS-CoV-2 infection.

Guía práctica sobre la evaluación inicial, seguimiento y tratamiento de los incidentalomas adrenales. Grupo de patología adrenal de la Sociedad Española de Endocrinología y Nutrición / Practical guide on the initial evaluation, follow-up, and treatment of adrenal incidentalomas Adrenal Diseases Group of the Spanish Society of Endocrinology and Nutrition

La evaluación inicial de los incidentalomas adrenales se centra en dos objetivos: descartar malignidad y descartar funcionalidad. Para ello se debe realizar una historia clínica detallada, obtener una valoración radiológica adecuada y un estudio bioquímico-hormonal completo. La entidad que más dudas genera, por la falta de consenso en su definición, es la secreción autónoma de cortisol. Nuestra recomendación es que, salvo para valores de cortisol < 1,8 μg/dl en el test de supresión con dexametasona que descartan secreción autónoma de cortisol, y ≥ 5 μg/dl que establecen el diagnóstico; se debe emplear una definición combinada de test de supresión con dexametasona ≥ 3 μg/dl y al menos uno de los siguientes: cortisol libre urinario elevado, ACTH < 10 pg/ml o cortisol nocturno (sérico y/o salival) elevado para establecer el diagnóstico de secreción autónoma de cortisol. En el seguimiento se debe repetir el test de supresión con dexametasona, generalmente de forma anual, individualizando en función de los resultados de las pruebas previas y de la presencia de comorbilidades potencialmente relacionadas con el hipercortisolismo. La prueba radiológica inicial de elección para la caracterización de los incidentalomas adrenales es la tomografía axial computarizada sin contraste, pero no existe acuerdo unánime sobre el seguimiento posterior. Nuestra recomendación general es repetir la prueba de imagen a los 6-12 meses del diagnóstico (en función de las características radiológicas de la lesión). Si la lesión se mantiene estable y no existen características indeterminadas, no serían necesarios más estudios radiológicos. Consideramos que los pacientes con secreción autónoma de cortisol con comorbilidades potencialmente relacionadas con el hipercortisolismo, especialmente si existe un control deficiente y se trata de pacientes jóvenes, se pueden beneficiar de una suprarrenalectomía unilateral. La indicación de suprarrenalectomía unilateral es clara en pacientes con síndromes hormonales manifiestos o sospecha de malignidad. Como conclusión, los incidentalomas adrenales deben ser valorados de forma integral, teniendo en cuenta las posibles manifestaciones clínicas y comorbilidades relacionadas con síndromes hormonales o malignidad; un estudio hormonal completo (teniendo en cuenta las situaciones que pueden conllevar resultados falsamente positivos y negativos) y radiológico adecuado. En base a los resultados de la evaluación inicial se planificará el seguimiento y/o tratamiento

Initial evaluation of adrenal incidentalomas should be aimed at ruling out malignancy and functionality. For this, a detailed clinical history should be taken, and an adequate radiographic assessment and a complete blood chemistry and hormone study should be performed. The most controversial condition, because of the lack of consensus in its definition, is autonomous cortisol secretion. Our recommendation is that, except when cortisol levels < 1.8 μg/dL in the dexamethasone suppression test rule out diagnosis and levels ≥ 5 μg/dL establish the presence of autonomous cortisol secretion, diagnosis should be based on a combined definition of dexamethasone suppression test ≥ 3 μg/dL and at least one of the following: elevated urinary free cortisol, ACTH level < 10 pg/mL, or elevated nocturnal cortisol (in serum and/or saliva). During follow-up, dexamethasone suppression test should be repeated, usually every year, on an individual basis depending on the results of prior tests and the presence of comorbidities potentially related to hypercortisolism. The initial radiographic test of choice for characterization of adrenal incidentalomas is a computed tomography scan without contrast, but there is no unanimous agreement on subsequent monitoring. Our general recommendation is a repeat imaging test 6-12 months after diagnosis (based on the radiographic characteristics of the lesion). If the lesion remains stable and there are no indeterminate characteristics, no additional radiographic studies would be needed. We think that patients with autonomous cortisol secretion with comorbidities potentially related to hypercortisolism, particularly if they are young and there is a poor control, may benefit from unilateral adrenalectomy. The indication for unilateral adrenalectomy is clear in patients with overt hormonal syndromes or suspected malignancy. In conclusion, adrenal incidentalomas require a comprehensive evaluation that takes into account the possible clinical signs and comorbidities related to hormonal syndromes or malignancy; a complete hormone profile (taking into account the conditions that may lead to falsely positive and negative results); and an adequate radiographic study. Monitoring and/or treatment will be decided based on the results of the initial evaluation

Practical guide on the initial evaluation, follow-up, and treatment of adrenal incidentalomas Adrenal Diseases Group of the Spanish Society of Endocrinology and Nutrition. / Guía práctica sobre la evaluación inicial, seguimiento y tratamiento de los incidentalomas adrenales. Grupo de patología adrenal de la Sociedad Española de Endocrinología y Nutrición.

Initial evaluation of adrenal incidentalomas should be aimed at ruling out malignancy and functionality. For this, a detailed clinical history should be taken, and an adequate radiographic assessment and a complete blood chemistry and hormone study should be performed. The most controversial condition, because of the lack of consensus in its definition, is autonomous cortisol secretion. Our recommendation is that, except when cortisol levels <1.8µg/dL in the dexamethasone suppression test rule out diagnosis and levels ≥5µg/dL establish the presence of autonomous cortisol secretion, diagnosis should be based on a combined definition of dexamethasone suppression test ≥3µg/dL and at least one of the following: elevated urinary free cortisol, ACTH level <10 pg/mL, or elevated nocturnal cortisol (in serum and/or saliva). During follow-up, dexamethasone suppression test should be repeated, usually every year, on an individual basis depending on the results of prior tests and the presence of comorbidities potentially related to hypercortisolism. The initial radiographic test of choice for characterization of adrenal incidentalomas is a computed tomography scan without contrast, but there is no unanimous agreement on subsequent monitoring. Our general recommendation is a repeat imaging test 6-12 months after diagnosis (based on the radiographic characteristics of the lesion). If the lesion remains stable and there are no indeterminate characteristics, no additional radiographic studies would be needed. We think that patients with autonomous cortisol secretion with comorbidities potentially related to hypercortisolism, particularly if they are young and there is a poor control, may benefit from unilateral adrenalectomy. The indication for unilateral adrenalectomy is clear in patients with overt hormonal syndromes or suspected malignancy. In conclusion, adrenal incidentalomas require a comprehensive evaluation that takes into account the possible clinical signs and comorbidities related to hormonal syndromes or malignancy; a complete hormone profile (taking into account the conditions that may lead to falsely positive and negative results); and an adequate radiographic study. Monitoring and/or treatment will be decided based on the results of the initial evaluation.

Speciation, phenotypic variation and plasticity: what can endocrine disruptors tell us?

Phenotype variability, phenotypic plasticity, and the inheritance of phenotypic traits constitute the fundamental ground of processes such as individuation, individual and species adaptation and ultimately speciation. Even though traditional evolutionary thinking relies on genetic mutations as the main source of intra- and interspecies phenotypic variability, recent studies suggest that the epigenetic modulation of gene transcription and translation, epigenetic memory, and epigenetic inheritance are by far the most frequent reliable sources of transgenerational variability among viable individuals within and across organismal species. Therefore, individuation and speciation should be considered as nonmutational epigenetic phenomena.