Oxidative stress and inflammation mediate the effect of air pollution on cardio‐ and cerebrovascular disease: A prospective study in nonsmokers

Air pollution is associated with a broad range of adverse health effects, including mortality and morbidity due to cardio‐ and cerebrovascular diseases (CCVD), but the molecular mechanisms involved are not entirely understood. This study aims to investigate the involvement of oxidative stress and inflammation in the causal chain, and to identify intermediate biomarkers that are associated retrospectively with the exposure and prospectively with the disease. We designed a case‐control study on CCVD nested in a cohort of 18,982 individuals from the EPIC‐Italy study. We measured air pollution, inflammatory biomarkers, and whole‐genome DNA methylation in blood collected up to 17 years before the diagnosis. The study sample includes all the incident CCVD cases among former‐ and never‐smokers, with available stored blood sample, that arose in the cohort during the follow‐up. We identified enrichment of altered DNA methylation in “ROS/Glutathione/Cytotoxic granules” and “Cytokine signaling” pathways related genes, associated with both air pollution (multiple comparisons adjusted p for enrichment ranging from 0.01 to 0.03 depending on pollutant) and with CCVD risk (P = 0.04 and P = 0.03, respectively). Also, Interleukin‐17 was associated with higher exposure to NO₂ (P = 0.0004), NO_x (P = 0.0005), and CCVD risk (OR = 1.79; CI 1.04–3.11; P = 0.04 comparing extreme tertiles). Our findings indicate that chronic exposure to air pollution can lead to oxidative stress, which in turn activates a cascade of inflammatory responses mainly involving the “Cytokine signaling” pathway, leading to increased risk of CCVD. Inflammatory proteins and DNA methylation alterations can be detected several years before CCVD diagnosis in blood samples, being promising preclinical biomarkers. Environ. Mol. Mutagen. 59:234–246, 2018. © 2017 Wiley Periodicals, Inc.     

Effects of clonidine and sumatriptan on postprandial gastric volume response, antral contraction waves and emptying: an MRI study

Abstract Gastric emptying (GE) may be driven by tonic contraction of the stomach (‘pressure pump’) or antral contraction waves (ACW) (‘peristaltic pump’). The mechanism underlying GE was studied by contrasting the effects of clonidine (α₂‐adrenergic agonist) and sumatriptan (5‐HT₁ agonist) on gastric function. Magnetic resonance imaging provided non‐invasive assessment of gastric volume responses, ACW and GE in nine healthy volunteers. Investigations were performed in the right decubitus position after ingestion of 500 mL of 10% glucose (200 kcal) under placebo [0.9% NaCl intravenous (IV) and subcutaneous (SC)], clonidine [0.01 mg min^?1 IV, max 0.1 mg (placebo SC)] or sumatriptan [6 mg SC (placebo IV)]. Total gastric volume (TGV) and gastric content volume (GCV) were assessed every 5 min for 90 min, interspersed with dynamic scan sequences to measure ACW activity. During gastric filling, TGV increased with GCV indicating that meal volume dictates initial relaxation. Gastric contents volume continued to increase over the early postprandial period due to gastric secretion surpassing initial gastric emptying. Clonidine diminished this early increase in GCV, reduced gastric relaxation, decreased ACW frequency compared with placebo. Gastric emptying (GE) rate increased. Sumatriptan had no effect on initial GCV, but prolonged gastric relaxation and disrupted ACW activity. Gastric emptying was delayed. There was a negative correlation between gastric relaxation and GE rate (r² = 49%, P < 0.001), whereas the association between ACW frequency and GE rate was inconsistent and weak (r² = 15%, P = 0.05). These findings support the hypothesis that nutrient liquid emptying is primarily driven by the ‘pressure pump’ mechanism.