IL-4 and IL-13 induce equivalent expression of traditional M2 markers and modulation of reactive oxygen species in human macrophages.

In cardiovascular disease, pathological and protective roles are reported for the Th2 cytokines IL-4 and IL-13, respectively. We hypothesised that differential effects on macrophage function are responsible. Type I and II receptor subunit (IL-2Rγ, IL-4Rα and IL-13Rα1) and M2 marker (MRC-1, CCL18, CCL22) expression was assessed via RT-qPCR in IL-4- and IL-13-treated human primary macrophages. Downstream signalling was evaluated via STAT1, STAT3 and STAT6 inhibitors, and IL-4- and IL-13-induced reactive oxygen species (ROS) generation assessed. IL-4 and IL-13 exhibited equivalent potency and efficacy for M2 marker induction, which was attenuated by STAT3 inhibition. Both cytokines enhanced PDBu-stimulated superoxide generation however this effect was 17% greater with IL-4 treatment. Type I IL-4 receptor expression was increased on M1-like macrophages but did not lead to a differing ability of these cytokines to modulate M1-like macrophage superoxide production. Overall, this study did not identify major differences in the ability of IL-4 and IL-13 to modulate macrophage function, suggesting that the opposing roles of these cytokines in cardiovascular disease are likely to be via actions on other cell types. Future studies should directly compare IL-4 and IL-13 in vivo to more thoroughly investigate the therapeutic validity of selective targeting of these cytokines.

Reports analysis of psychotropic drugs related adverse reactions in Australia and Poland during the COVID 19 pandemic.

BACKGROUND: The COVID-19 pandemic has caused significant changes to the global health care system AIMS: It is unknown whether the COVID-19 pandemic influenced the occurrence of adverse drug reactions (ADR) of antidepressive agents, benzodiazepines, and antipsychotics plus mood stabilizers (AaMS). The study was designed in order to compare the incidence of ADR during the COVID-19 pandemic with the period preceding the pandemic in Poland and Australia, different in terms of their COVID-19 prevention strategy. METHOD: We analysed ADR from the three surveyed pharmacological groups of drugs observed in Poland and Australia in the period prior to, and during the COVID-19 pandemic RESULTS: In Poland, a noticeable increase in the reported ADR of the assessed drug groups was observed during the COVID-19 pandemic. The highest was for antidepressive agents, but the reporting of ADR for benzodiazepines and AaMS drugs also increased significantly. In the case of ADR in Australian patients, the increase in the number of reported ADR for antidepressive agents was modest compared to that seen in Poland, but still noticeable, and there was a significant increase in ADR for benzodiazepines CONCLUSIONS: This study showed that the COVID-19 pandemic has had an impact on the incidence of ADR reported among both Polish and Australian patients but the modality of this was different.

Animal models of pulmonary hypertension: Getting to the heart of the problem.

Despite recent therapeutic advances, pulmonary hypertension (PH) remains a fatal disease due to the development of right ventricular (RV) failure. At present, no treatments targeted at the right ventricle are available, and RV function is not widely considered in the preclinical assessment of new therapeutics. Several small animal models are used in the study of PH, including the classic models of exposure to either hypoxia or monocrotaline, newer combinational and genetic models, and pulmonary artery banding, a surgical model of pure RV pressure overload. These models reproduce selected features of the structural remodelling and functional decline seen in patients and have provided valuable insight into the pathophysiology of RV failure. However, significant reversal of remodelling and improvement in RV function remains a therapeutic obstacle. Emerging animal models will provide a deeper understanding of the mechanisms governing the transition from adaptive remodelling to a failing right ventricle, aiding the hunt for druggable molecular targets. LINKED ARTICLES: This article is part of a themed issue on Preclinical Models for Cardiovascular disease research (BJP 75th Anniversary). To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v179.5/issuetoc.

Innovative Anti-Inflammatory and Pro-resolving Strategies for Pulmonary Hypertension: High Blood Pressure Research Council of Australia Award 2019.

Pulmonary hypertension is a rare, ostensibly incurable, and etiologically diverse disease with an unacceptably high 5-year mortality rate (≈50%), worse than many cancers. Irrespective of pathogenic origin, dysregulated immune processes underlie pulmonary hypertension pathobiology, particularly pertaining to pulmonary vascular remodeling. As such, a variety of proinflammatory pathways have been mooted as novel therapeutic targets. One such pathway involves the family of innate immune regulators known as inflammasomes. In addition, a new and emerging concept is differentiating between anti-inflammatory approaches versus those that promote pro-resolving pathways. This review will briefly introduce inflammasomes and examine recent literature concerning their role in pulmonary hypertension. Moreover, it will explore the difference between inflammation-suppressing and pro-resolution approaches and how this links to inflammasomes. Finally, we will investigate new avenues for targeting inflammation in pulmonary hypertension via more targeted anti-inflammatory or inflammation resolving strategies.

Targeting the NLRP3 inflammasome to treat cardiovascular fibrosis.

Cardiovascular fibrosis refers to the scar tissue that develops in the injured heart and blood vessels from an aberrant wound healing response to organ injury or insult. Established fibrosis becomes a hallmark of chronic disease progression and a key contributor to tissue stiffness and dysfunction, which ultimately leads to heart failure. As wound healing and fibrotic responses to myocardial injury are multifactorial processes, current therapies that only target specific contributing factors to disease pathogenesis offer limited overall anti-fibrotic efficacy. As such, recent attention has turned to targeting the body's immune system, which orchestrates the wound healing response to tissue injury. This review focuses on the increasing body of work that has identified the NLRP3 inflammasome, a multiprotein oligomer complex responsible for activation of inflammatory responses via its production of IL-1ß and IL-18, as an immune system-initiated facilitator of cardiovascular healing, but also an important contributor to tissue scarring following its persistent activation. The review summarises the factors that can elicit priming and activation of the inflammasome complex, how the activated inflammasome complex contributes to cardiovascular pathophysiology and fibrosis progression, and the molecular mechanisms involved from various cell culture and animal model studies that have utilised genetic deletion or pharmacological inhibition of specific components of the inflammasome. Finally, it outlines currently known and previously unrecognised cardiovascular receptors that may be pharmacologically targeted to ablate the contribution of the NLRP3 inflammasome to cardiovascular diseases characterised by fibrosis, by compounds that may be developed as effective adjunct therapies to current standard of care medication.

Inflammasomes: a novel therapeutic target in pulmonary hypertension?

Pulmonary hypertension (PH) is a rare, progressive pulmonary vasculopathy characterized by increased mean pulmonary arterial pressure, pulmonary vascular remodelling and right ventricular failure. Current treatments are not curative, and new therapeutic strategies are urgently required. Clinical and preclinical evidence has established that inflammation plays a key role in PH pathogenesis, and recently, inflammasomes have been suggested to be central to this process. Inflammasomes are important regulators of inflammation, releasing the pro-inflammatory cytokines IL-1ß and IL-18 in response to exogenous pathogen- and endogenous damage-associated molecular patterns. These cytokines are elevated in PH patients, but whether this is a consequence of inflammasome activation remains to be determined. This review will briefly summarize current PH therapies and their pitfalls, introduce inflammasomes and the mechanisms by which they promote inflammation and, finally, highlight the preclinical and clinical evidence for the potential involvement of inflammasomes in PH pathobiology and how they may be targeted therapeutically. LINKED ARTICLES: This article is part of a themed section on Immune Targets in Hypertension. To view the other articles in this section visit http://onlinelibrary.wiley.com/doi/10.1111/bph.v176.12/issuetoc.

Emergency management communication on university Web sites: A 7-year study.

In the last several years, disasters-both manmade and natural-have taken their toll on college campuses. Extant research shows that college campuses have greatly increased their emergency management efforts. One area in which colleges and universities have made strides is emergency management communication. There has been some research examining emergency management communication across campuses, but there is still much to learn. This research fills a gap in this area by investigating the use of university Web sites to disseminate emergency management information to the university stakeholders. Data were gathered in 2007 and 2014 from the Web sites of public, 4-year universities in Indiana. The results show that universities are using the Internet to communicate emergency management information to their stakeholders. Among the most common categories of information available on the Web sites are links to other agencies, university response information, and threat levels. Implications for future research are discussed.