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Radiotherapy can be limited by pneumonitis, which is impacted by innate immunity, including pathways regulated by TRAIL death receptor DR5. We investigated whether DR5 agonists could rescue mice from toxic effects of radiation and found that 2 different agonists, parenteral PEGylated trimeric TRAIL (TLY012) and oral TRAIL-inducing compound (TIC10/ONC201), could reduce pneumonitis, alveolar wall thickness, and oxygen desaturation. Lung protection extended to late effects of radiation including less fibrosis at 22 weeks in TLY012-rescued survivors versus unrescued surviving irradiated mice. Wild-type orthotopic breast tumor-bearing mice receiving 20 Gy thoracic radiation were protected from pneumonitis with disappearance of tumors. At the molecular level, radioprotection appeared to be due to inhibition of CCL22, a macrophage-derived chemokine previously associated with radiation pneumonitis and pulmonary fibrosis. Treatment with anti-CCL22 reduced lung injury in vivo but less so than TLY012. Pneumonitis severity was worse in female versus male mice, and this was associated with increased expression of X-linked TLR7. Irradiated mice had reduced esophagitis characterized by reduced epithelial disruption and muscularis externa thickness following treatment with the ONC201 analog ONC212. The discovery that short-term treatment with TRAIL pathway agonists effectively rescues animals from pneumonitis, dermatitis, and esophagitis following high doses of thoracic radiation exposure has important translational implications.

Treating Veterans with chronic obstructive pulmonary disease complicated by pulmonary hypertension (COPD‐PH) using phosphodiesterase type‐5 inhibitor pharmacotherapy is common, but efficacy data are lacking. To address this further, patients with COPD‐PH from five Department of Veterans Affairs hospitals were randomized (1∶1) to receive placebo or oral tadalafil (40 mg/day) for 12 months. The primary endpoint was changed from baseline in 6‐min walk distance at 12 months. Secondary endpoints included change from baseline in pulmonary vascular resistance, mean pulmonary artery pressure, and symptom burden by the University of California San Diego shortness of breath questionnaire scale at 6 months. A total of 42 subjects (all male; 68 ± 7.6 years old) were randomized to placebo (N = 14) or tadalafil (N = 28). The group imbalance was related to under‐enrollment. Compared to placebo, no significant difference was observed in the tadalafil group for change from the primary endpoint or change in mean pulmonary artery pressure or pulmonary vascular resistance from baseline at 6 months. A clinically meaningful improvement was observed in the secondary endpoint of shortness of breath questionnaire score in the tadalafil versus placebo group at 6 months. There was no significant difference in major adverse events between treatment groups, and tadalafil was well tolerated overall. For Veterans with COPD‐PH enrolled in this study, once‐daily treatment with tadalafil did not improve 6‐min walk distance or cardiopulmonary hemodynamics although a decrease in shortness of breath was observed. Under‐enrollment and imbalanced randomization confound interpreting conclusions from this clinical trial and limit the generalization of our findings.

Because a primary focus of Centers of Biomedical Research Excellence (COBRE) is the development of junior-level investigators into competent and successful research scientists, evaluation of their skills, mentoring experiences, and usefulness of COBRE services is paramount to the transition of the Center to a self-sustaining, collaborative, multidisciplinary research environment. A formative evaluation, focused on the processes of a COBRE, was undertaken and is presented here. Two instruments, one for completion by junior investigators and one for completion by mentors, were developed for the purpose of evaluating this COBRE. Areas of inquiry were relationships between junior investigators and mentors, research self-efficacy, mentee progress, and satisfaction with the COBRE. All eight of the COBRE's current junior investigators and six of their mentors completed the online questionnaires. Junior investigators were very positive about mentors and vice versa. Junior investigators were least positive about their progress as academicians and most positive about their abilities to develop collaborations with other scholars/professionals. Mentors felt as though junior investigators could benefit most by increasing the number of publications they had generated. Activities provided by the CardioPulmonary Vascular Biology (CPVB) COBRE were extremely positive. Junior investigators felt as though the scientific, academic, and professional development opportunities afforded by this COBRE were integral to their success as researchers; however they would like more assistance developing professional networks (i.e., serving on committees of professional societies). Leadership of the CPVB COBRE may consider expanding the role of their advisory committee to ensure these opportunities are provided.

Noninvasive imaging markers may be helpful in identifying higher‐risk patients with various lung diseases. Pulmonary artery to aorta ratio (PA/A ratio) on computed tomography (CT) is an indicator of pulmonary hypertension, but its relationship with other hemodynamic, imaging, and physiologic measurements, functional status, and outcomes requires further investigation. We set out to determine if the PA/A ratio is related to components of right ventricular (RV) afterload (pulmonary vascular resistance (PVR), PA compliance), lung diffusion capacity, radiographic emphysema, or honeycombing on chest CT, six‐minute‐walk distance, and transplant‐free survival in COPD and/or interstitial lung disease (ILD). Data including PA/A ratio, hemodynamics, imaging, physiologic measurements, and survival in Redefining Pulmonary Hypertension through Pulmonary Vascular Disease Phenomics (PVDOMICS) cohort participants with COPD, ILD, or both were analyzed in regression and survival models to determine the association between PA/A ratio and various outcomes. We found that PA/A ratio analyzed as a continuous variable or dichotomized (> 0.9 vs. ≤ 0.9) was associated with higher PVR and lower PA compliance in fully adjusted models. Having either a PA/A ratio > 0.9 or a more elevated PVR was associated with worse transplant‐free survival, while PA compliance was not associated with survival. PVR did not appear to mediate the relationship of PA/A ratio with survival. PA/A ratio did not correlate with six‐minute walk distance or presence of emphysema or honeycombing, but was related to lower lung diffusion capacity. In conclusion, PA/A ratio on CT is related to aspects of RV afterload and to survival in COPD and ILD.

The Division of Lung Diseases of the National Heart, Lung, and Blood Institute, with the Office of Rare Diseases Research, held a workshop to identify priority areas and strategic goals to enhance and accelerate research that will result in improved understanding of the lung vasculature, translational research needs, and ultimately the care of patients with pulmonary vascular diseases. Multidisciplinary experts with diverse experience in laboratory, translational, and clinical studies identified seven priority areas and discussed limitations in our current knowledge, technologies, and approaches. The focus for future research efforts include the following: (1) better characterizing vascular genotype-phenotype relationships and incorporating systems biology approaches when appropriate; (2) advancing our understanding of pulmonary vascular metabolic regulatory signaling in health and disease; (3) expanding our knowledge of the biologic relationships between the lung circulation and circulating elements, systemic vascular function, and right heart function and disease; (4) improving translational research for identifying disease-modifying therapies for the pulmonary hypertensive diseases; (5) establishing an appropriate and effective platform for advancing translational findings into clinical studies testing; and (6) developing the specific technologies and tools that will be enabling for these goals, such as question-guided imaging techniques and lung vascular investigator training programs. Recommendations from this workshop will be used within the Lung Vascular Biology and Disease Extramural Research Program for planning and strategic implementation purposes.

In patients with chronic obstructive pulmonary disease (COPD), moderate or severe pulmonary hypertension (COPD-PH) is associated with increased rates of morbidity and mortality. Despite this, approaches to treatment and the efficacy of phosphodiesterase type 5 inhibition (PDE-5i) in COPD-PH are unresolved. We present the clinical rationale and study design to assess the effect of oral tadalafil on exercise capacity, cardiopulmonary hemodynamics, and clinical outcome measures in COPD-PH patients. Male and female patients 40–85 years old with GOLD stage 2 COPD or higher and pulmonary hypertension diagnosed on the basis of invasive cardiac hemodynamic assessment (mean pulmonary artery pressure [mPAP] >30 mmHg, pulmonary vascular resistance [PVR] >2.5 Wood units, and pulmonary capillary wedge pressure ≤18 mmHg at rest) will be randomized at a 1∶1 ratio to receive placebo or oral PDE-5i with tadalafil (40 mg daily for 12 months). The primary end point is change from baseline in 6-minute walk distance at 12 months. The secondary end points are change from baseline in PVR and mPAP at 6 months and change from baseline in peak volume of oxygen consumption ( ) during exercise at 12 months. Changes in systemic blood pressure and/or oxyhemoglobin saturation (Sao 2) at rest and during exercise will function as safety outcome measures. TADA-PHiLD (TADAlafil for Pulmonary Hypertension assocIated with chronic obstructive Lung Disease) is the first sufficiently powered randomized clinical trial testing the effect of PDE-5i on key clinical and drug safety outcome measures in patients with at least moderate PH due to COPD.

Cancer therapy is often limited by toxicity from pneumonitis. This often-lethal side effect is known to be impacted by innate immunity, and in particular the pathways regulated by the TRAIL death receptor DR5. We investigated whether DR5 agonists could rescue mice from the lethal effects of radiation. We found that two different agonists, parenteral PEGylated trimeric-TRAIL (TLY012) and oral TRAIL-Inducing Compound #10 (TIC10/ONC201), could achieve this goal. Both compounds could completely protect mice from lethality by reducing pneumonitis, alveolar-wall thickness, and oxygen desaturation. At the molecular level, this protection appeared to be due to the inhibition of CCl22, a macrophage-derived chemokine previously associated with radiation pneumonitis and pulmonary fibrosis. The discovery that short-term treatment with TRAIL pathway agonists effectively rescues animals from high doses of radiation exposure has important translational implications. Prevention of lethality, pneumonitis, lung fibrosis and skin dermatitis post-ψ-irradiation by short- term treatment with innate immune TRAIL pathway agonists