A pandemic lesson for global lung diseases: exacerbations are preventable.

A dramatic global reduction in the incidence of common seasonal respiratory viral infections has resulted from measures to limit the transmission of SARS2-Cov-19 during the pandemic . This has been accompanied by falls reaching 50% internationally in the incidence of acute exacerbations of pre-existing chronic respiratory diseases that include asthma, Chronic Obstructive Pulmonary Disease (COPD) and Cystic Fibrosis (CF). At the same time, the incidence of acute bacterial pneumonia and sepsis has fallen steeply world-wide. Such findings demonstrate the profound impact of common respiratory viruses on the course of these global illnesses. Reduced transmission of common respiratory bacterial pathogens and their interactions with viruses appear also as central factors. This review summarises pandemic changes in exacerbation rates of asthma, COPD, Cystic Fibrosis (CF) and pneumonia. We draw attention to the substantial body of knowledge about respiratory virus infections in these conditions, and that it has not yet translated into clinical practice. Now the large-scale of benefits that could be gained by managing these pathogens is unmistakable, we suggest the field merits substantial academic and industrial investment. We consider how pandemic-inspired measures for prevention and treatment of common infections should become a cornerstone for managing respiratory diseases. This article is open access and distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivatives License 4.0 (http://creativecommons.org/licenses/by-nc-nd/4.0/)

In vitro and in vivo antifungal profile of a novel and long acting inhaled azole, PC945, on Aspergillus fumigatus infection

The profile of PC945, a novel triazole antifungal, designed for administration via inhalation, hasbeen assessed in a range of in vitro and in vivo studies. PC945 was characterized as a potent, tight-binding inhibitor of Aspergillus fumigatus sterol 14α-demethylase (CYP51A and CYP51B)activity.In addition, when A. fumigatus hyphae or human bronchial cells were treated with PC945, and thenwashed, PC945 was found to be quickly absorbed into both target and non-target cells and toproduce persistent antifungal effects. In temporarily neutropenic immunocompromised miceinfected with A. fumigatus intranasally, 50% of the animals survived until day 7 when treatedintranasally with PC945 at 0.56 μg/mouse, while posaconazole showed similar effects (44%) at14 μg/mouse. This profile affirms that topical treatment with PC945 should provide potentantifungal activity in the lung

In Vitro and In Vivo Efficacy of a Novel and Long-Acting Fungicidal Azole, PC1244, on Aspergillus fumigatus Infection

The antifungal effects of the novel triazole, PC1244, designed for topical or inhaled administration, againstA. fumigatushave been tested in a range ofin vitroandin vivostudies. PC1244 demonstrated potent antifungal activities against clinicalA. fumigatusisolates (N=96) with a MIC range of 0.016--0.25 μg/ml, whereas the MIC range for voriconazole was 0.25--0.5 μg/ml. PC1244 was a strong tight-binding inhibitor of recombinantA. fumigatusCYP51A and CYP51B (sterol 14α-demethylase) enzymes and strongly inhibited ergosterol synthesis inA. fumigatuswith an IC50of 8 nM. PC1244 was effective against a broad spectrum of pathogenic fungi (MIC ranged from <0.0078∼2 μg/ml), especially onAspergillus terreus,Trichophyton rubrum,Candida albicans,Candida glabrata,Candida krusei,Cryptococcus gattii,Cryptococcus neoformans and Rhizopus oryzaePC1244 also proved to be quickly absorbed into bothA. fumigatushyphae and bronchial epithelial cells, producing persistent antifungal effects. In addition, PC1244 showed fungicidal activity (MFC, 2 μg/ml), which was 8-fold more potent than voriconazole.In vivo, once daily intranasal administration of PC1244 (3.2 ∼ 80μg/mL) to temporarily neutropenic, immunocompromised mice 24h after inoculation with itraconazole-susceptibleA. fumigatussubstantially reduced fungal load in the lung, galactomannan in serum and circulating inflammatory cytokines. Furthermore, 7 days extended prophylaxis with PC1244 showed superiorin vivoeffects when compared against 1 day of prophylactic treatment, suggesting accumulation of the effects of PC1244. Thus, PC1244 has the potential to be a novel therapy for the treatment ofA. fumigatusinfection in the lungs of humans

The effects of serum, lithium, ethacrynic acid, and a low external concentration of potassium on specific [3H]-ouabain binding to human lymphocytes after incubation for 3 days.

We have quantified specific [3H]-ouabain binding sites in normal human lymphocytes, and have measured the changes in the numbers of those sites which occur in response to various stimuli. We have confirmed previous findings that incubation for 72 h in the presence of fetal calf serum causes an increase in [3H]-ouabain binding, and that this does not occur if the cells are incubated in fetal calf serum which has first been dialysed. During incubation of the lymphocytes for 3 days in the presence of dialysed fetal calf serum each of the following stimuli caused an increase in specific [3H]-ouabain binding: addition of ethacrynic acid (1 mumol l-1), addition of lithium (1 mmol l-1), and reduction of the external potassium concentration (to 0.75 mmol l-1). By analogy with the similar results in HeLa cells reported by others, we suggest that the increase in [3H]-ouabain binding may, in the case of ethacrynic acid and the reduction of the external potassium concentration, be initiated by an increase in the intracellular sodium concentration. The mechanisms whereby fetal calf serum and lithium cause an increase in [3H]-ouabain binding are not clear