Smoking and vaping alter genes related to mechanisms of SARS-CoV-2 susceptibility and severity.

Evidence for the impact of smoking on COVID-19 is contradictory, and there is little research on vaping. Here we provide greater clarity on mechanisms perturbed by tobacco cigarette, electronic cigarette and nicotine exposures that may impact the risks of infection and/or disease severity.Following PRISMA guidelines, OVID and Web of Science databases were searched. Study design and exposure-induced gene expression changes were extracted. Each study was quality assessed and higher confidence scores were assigned to genes consistently changed across multiple studies following the same exposure. These genes were used to explore pathways significantly altered following exposure.125 studies provided data on 480 genes altered by exposure to tobacco cigarettes, e-cigarettes, nicotine or SARS-CoV-2. Genes involved in both SARS-CoV-2 viral-entry and inflammation were changed following exposure. Pathway analysis revealed that many of those genes with high confidence scores are involved in common cellular processes relating to hyperinflammatory immune responses.Exposure to tobacco cigarettes, e-cigarettes, or nicotine, may therefore impact initial host-pathogen interactions and disease severity. Smokers and vapers of e-cigarettes with nicotine, could potentially be at increased risk of SARS-CoV-2 infection, associated cytokine storm, and acute respiratory distress syndrome. However, further research is required, particularly on e-cigarettes, to determine the biological mechanisms involved in perturbation of viral-entry genes and host-pathogen interactions and subsequent responses within the respiratory tract. This will improve our physiological understanding of the impact of smoking and vaping on COVID-19, informing public health advice and providing improved guidance for management of SARS-CoV-2 and other respiratory viruses

Curcuminoid Binding to Embryonal Carcinoma Cells: Reductive Metabolism, Induction of Apoptosis, Senescence, and Inhibition of Cell Proliferation

Curcumin preparations typically contain a mixture of polyphenols, collectively referred to as curcuminoids. In addition to the primary component curcumin, they also contain smaller amounts of the co-extracted derivatives demethoxycurcumin and bisdemethoxycurcumin. Curcuminoids can be differentially solubilized in serum, which allows for the systematic analysis of concentration-dependent cellular binding, biological effects, and metabolism. Technical grade curcumin was solubilized in fetal calf serum by two alternative methods yielding saturated preparations containing either predominantly curcumin (60%) or bisdemethoxycurcumin (55%). Continual exposure of NT2/D1 cells for 4–6 days to either preparation in cell culture media reduced cell division (1–5 µM), induced senescence (6–7 µM) or comprehensive cell death (8–10 µM) in a concentration-dependent manner. Some of these effects could also be elicited in cells transiently exposed to higher concentrations of curcuminoids (47 µM) for 0.5–4 h. Curcuminoids induced apoptosis by generalized activation of caspases but without nucleosomal fragmentation. The equilibrium binding of serum-solubilized curcuminoids to NT2/D1 cells incubated with increasing amounts of curcuminoid-saturated serum occurred with apparent overall dissociation constants in the 6–10 µM range. However, the presence of excess free serum decreased cellular binding in a hyperbolic manner. Cellular binding was overwhelmingly associated with membrane fractions and bound curcuminoids were metabolized in NT2/D1 cells via a previously unidentified reduction pathway. Both the binding affinities for curcuminoids and their reductive metabolic pathways varied in other cell lines. These results suggest that curcuminoids interact with cellular binding sites, thereby activating signal transduction pathways that initiate a variety of biological responses. The dose-dependent effects of these responses further imply that distinct cellular pathways are sequentially activated and that this activation is dependent on the affinity of curcuminoids for the respective binding sites. Defined serum-solubilized curcuminoids used in cell culture media are thus suitable for further investigating the differential activation of signal transduction pathways

Diagnostic Accuracy of Maternal Serum Macrophage Inhibitory Cytokine-1 and Pregnancy-Associated Plasma Protein-A at 6-10 Weeks of Gestation to Predict Miscarriage

OBJECTIVE: To determine whether serum macrophage inhibitory cytokine-1, pregnancy-associated plasma protein-A (PAPP-A), anandamide, or β-human chorionic gonadotropin (hCG) measured in an asymptomatic population in the middle of the first trimester with a viable fetus predicts subsequent miscarriage. METHODS: We undertook a prospective cohort study at Mercy Hospital for Women between 2004 and 2008. Participants (N=782) were recruited from prenatal clinics, where samples were taken from asymptomatic women at 6 0/7 to 10 6/7 weeks of gestation. We collected samples from only those women for whom we were able to obtain ultrasound evidence of a singleton with fetal cardiac activity. Serum macrophage inhibitory cytokine-1, PAPP-A, anandamide, and β-hCG concentrations were assayed. RESULTS: Twenty-one (2.7%) miscarried and 761 did not. Among those who miscarried, macrophage inhibitory cytokine-1 and PAPP-A were significantly decreased at 63% (multiples of the median (MOM) 0.63, 25th-75th percentiles 0.33-0.88) and 23% (MOM 0.23, 25th-75th percentiles 0.12-0.48) of levels seen among those with ongoing pregnancies (P<.001 for both comparisons). In contrast, neither serum β-hCG (MOM 0.99, 25th-75th percentiles 0.46-1.86) nor anandamide (MOM 1.07, 25th-75th percentiles 0.87-1.19) was elevated or decreased among those who miscarried compared with those with ongoing pregnancies. At a fixed 10% false-positive rate (90% specificity), a test combining macrophage inhibitory cytokine-1 and PAPP-A yielded 63% sensitivity and a 6.6 positive likelihood ratio in predicting miscarriage. CONCLUSION: Low serum levels of macrophage inhibitory cytokine-1 and PAPP-A measured from asymptomatic women at 6-10 weeks of gestation with viable pregnancies can predict subsequent miscarriage. These analytes are likely to have an important biological role in early pregnancy and are likely to be useful clinical biomarkers for miscarriage and other early pregnancy complications. LEVEL OF EVIDENCE: II

Anandamide Levels Fluctuate in the Bovine Oviduct during the Oestrous Cycle

Mammalian oviduct acts as a reservoir for spermatozoa and provides an environment in which they may compete for the opportunity to fertilize the oocyte. Whilst in the oviduct spermatozoa undergo capacitation essential for fertilization. Sperm-oviduct interaction is essential for sperm capacitation and is a tightly regulated process influenced by the local microenvironment. Previously we reported that the endocannabinoid anandamide (AEA) regulates sperm release from epithelial oviductal cells by promoting sperm capacitation. The aims of this work were to measure the AEA content and to characterize the main AEA metabolic pathway in the bovine oviduct and determine how these change through the oestrous cycle. In this study, the levels of AEA and two other N-acylethanolamines, N-oleoylethanolamine and N-palmitoylethanolamine, were measured in bovine oviduct collected during different stages of oestrous cycle by ultra high performance liquid chromatography tandem mass spectrometry. Results indicated that intracellular oviductal epithelial levels of all three N-acylethanolamines fluctuate during oestrous cycle. Anandamide from oviductal fluid also varied during oestrous cycle, with the highest values detected during the periovulatory period. Endocannabinoid levels from ipsilateral oviduct to ovulation were higher than those detected in the contralateral one, suggesting that levels of oviductal AEA may be regulated by ovarian hormones. The expression and localization of N-acylethanolamines metabolizing enzymes in bovine oviduct were also determined by RT-PCR, Western blot, and immunohistochemistry but no change was found during the oestrous cycle. Furthermore, nanomolar levels of AEA were detected in follicular fluids, suggesting that during ovulation the mature follicle may contribute to oviductal AEA levels to create an endocannabinoid gradient conducive to the regulation of sperm function for successful fertilization