Top read articles in the last 30 days
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Abstract
Neutrophils dominate the early immune response in pathogen-induced acute lung injury, but efforts to harness their responses have not led to therapeutic advancements. Neutrophil extracellular traps (NETs) have been proposed as an innate defense mechanism responsible for pathogen clearance, but there are concerns that NETs may induce collateral damage to host tissues. Here, we detected NETs in abundance in mouse models of severe bacterial pneumonia/acute lung injury and in human subjects with acute respiratory distress syndrome (ARDS) from pneumonia or sepsis. Decreasing NETs reduced lung injury and improved survival after DNase I treatment or with partial protein arginine deiminase 4 deficiency (PAD4+/–). Complete PAD4 deficiency (PAD4–/–) reduced NETs and lung injury but was counterbalanced by increased bacterial load and inflammation. Importantly, we discovered that the lipoxin pathway could be a potent modulator of NET formation, and that mice deficient in the lipoxin receptor (Fpr2–/–) produced excess NETs leading to increased lung injury and mortality. Lastly, we observed in humans that increased plasma NETs were associated with ARDS severity and mortality, and lower plasma DNase I levels were associated with the development of sepsis-induced ARDS. We conclude that a critical balance of NETs is necessary to prevent lung injury and to maintain microbial control, which has important therapeutic implications.
Authors
Emma Lefrançais, Beñat Mallavia, Hanjing Zhuo, Carolyn S. Calfee, Mark R. Looney
Total views: 5526
Abstract
Immune checkpoint inhibitor (ICI) treatment has recently become a first-line therapy for many non–small cell lung cancer (NSCLC) patients. Unfortunately, most NSCLC patients are refractory to ICI monotherapy, and initial attempts to address this issue with secondary therapeutics have proven unsuccessful. To identify entities precluding CD8+ T cell accumulation in this process, we performed unbiased analyses on flow cytometry, gene expression, and multiplexed immunohistochemical data from a NSCLC patient cohort. The results revealed the presence of a myeloid-rich subgroup, which was devoid of CD4+ and CD8+ T cells. Of all myeloid cell types assessed, neutrophils were the most highly associated with the myeloid phenotype. Additionally, the ratio of CD8+ T cells to neutrophils (CD8/PMN) within the tumor mass optimally distinguished between active and myeloid cases. This ratio was also capable of showing the separation of patients responsive to ICI therapy from those with stable or progressive disease in 2 independent cohorts. Tumor-bearing mice treated with a combination of anti-PD1 and SX-682 (CXCR1/2 inhibitor) displayed relocation of lymphocytes from the tumor periphery into a malignant tumor, which was associated with induction of IFN-γ–responsive genes. These results suggest that neutrophil antagonism may represent a viable secondary therapeutic strategy to enhance ICI treatment outcomes.
Authors
Julia Kargl, Xiaodong Zhu, Huajia Zhang, Grace H. Y. Yang, Travis J. Friesen, Melissa Shipley, Dean Y. Maeda, John A. Zebala, Jill McKay-Fleisch, Gavin Meredith, Afshin Mashadi-Hossein, Christina Baik, Robert H. Pierce, Mary W. Redman, Jeffrey C. Thompson, Steven M. Albelda, Hamid Bolouri, A. McGarry Houghton
Total views: 1960
Abstract
BACKGROUND. The circadian system entrains behavioral and physiological rhythms to environmental cycles and modern lifestyles disrupt this entrainment. We investigated a timed exercise intervention to phase shift the internal circadian rhythm. METHODS. In fifty-two young, sedentary adults, dim light melatonin onset (DLMO) was measured before and after five days of morning (10h after DLMO; n = 26) or evening (20h after DLMO; n = 26) exercise. Phase shifts were calculated as the difference in DLMO before and after exercise. RESULTS. Morning exercise induced phase advance shifts (0.62 ± 0.18h) that were significantly greater than phase shifts from evening exercise (-0.02 ± 0.18h; P = 0.01). Chronotype also influenced the effect of timed exercise. For later chronotypes, both morning and evening exercise induced phase advances (0.54 ± 0.29h and 0.46 ±0.25h, respectively). In contrast, earlier chronotypes had phase advances from morning exercise (0.49 ± 0.25h), but phase delays from evening exercise (-0.41 ± 0.29h). CONCLUSION. Late chronotypes, who experience the most severe circadian misalignment, may benefit from phase advances induced by exercise in the morning or evening, but evening exercise may exacerbate circadian misalignment in early chronotypes. Thus, personalized exercise timing prescription based on chronotype could alleviate circadian misalignment in young adults. TRIAL REGISTRATION. www.clinicaltrials.gov, NCT # NCT04097886.FUNDING. National Institutes of Health grants UL1TR001998 and TL1TR001997, the Barnstable Brown Diabetes and Obesity Center, the Pediatric Exercise Physiology Laboratory Endowment, the Arvle and Ellen Turner Thacker Research Fund, and the University of Kentucky.
Authors
J. Matthew Thomas, Philip A. Kern, Heather M. Bush, Kristen J. McQuerry, W. Scott Black, Jody L. Clasey, Julie S. Pendergast
Total views: 1077
Abstract
BACKGROUND. Weight gain and metabolic changes during treatment with antidepressant drugs have emerged as an important concern, particularly in long-term treatment. It is still a matter of ongoing debate whether weight gain and metabolic perturbations with antidepressant use are the consequence of increased appetite and weight gain, respectively, or represents direct pharmacological effects of the drug on metabolism. METHODS. We therefore conducted a proof-of-concept, open-label clinical trial, hypothesizing that in exceptionally healthy men no change of metabolic parameters would occur under mirtazapine, when environmental factors such as nutrition, sleep, and physical exercise were controlled and kept constant. Over a 3-week preparation phase, 10 healthy, young men were attuned to a standardized diet adjusted to their individual caloric need, to a regular sleep/wake cycle and moderate exercise. Continuing this protocol, we administered 30 mg mirtazapine daily for 7 days. RESULTS. While no significant weight gain or changes in resting energy expenditure were observed under these conditions, hunger and appetite for sweets increased with mirtazapine, accompanied by a shift in energy substrate partitioning towards carbohydrate substrate preference as assessed by indirect calorimetry. Furthermore, with mirtazapine, insulin and C-peptide release increased in response to a standardized meal. CONCLUSION. Our findings provide important insights into weight-independent metabolic changes associated with mirtazapine and allow a better understanding of the long-term metabolic effects observed in patients treated with antidepressant drugs. TRIAL REGISTRATION. ClinicalTrials.gov NCT00878540. FUNDING. Nothing to declare.
Authors
Johannes M. Hennings, Sarah Heel, Katharina Lechner, Manfred Uhr, Tatjana Dose, Ludwig Schaaf, Florian Holsboer, Susanne Lucae, Stephany Fulda, Stefan Kloiber
Total views: 1050
Abstract
Clinical and preclinical studies show tissue-specific differences in tumorigenesis. Tissue specificity is controlled by differential gene expression. We prioritized genes that encode secreted proteins according to their preferential expression in normal lungs to identify candidates associated with lung cancer. Indeed, most of the lung-enriched genes identified in our analysis have known or suspected roles in lung cancer. We focused on the gene encoding neuron-derived neurotrophic factor (NDNF), which had not yet been associated with lung cancer. We determined that NDNF was preferentially expressed in the normal adult lung and that its expression was decreased in human lung adenocarcinoma and a mouse model of this cancer. Higher expression of NDNF was associated with better clinical outcome of patients with lung adenocarcinoma. Purified NDNF inhibited proliferation of lung cancer cells, whereas silencing NDNF promoted tumor cell growth in culture and in xenograft models. We determined that NDNF is downregulated through DNA hypermethylation near CpG island shores in human lung adenocarcinoma. Furthermore, the lung cancer–related DNA hypermethylation sites corresponded to the methylation sites that occurred in tissues with low NDNF expression. Thus, by analyzing the tissue-specific secretome, we identified a tumor-suppressive factor, NDNF, which is associated with patient outcomes in lung adenocarcinoma.
Authors
Ya Zhang, Xuefeng Wu, Yan Kai, Chia-Han Lee, Fengdong Cheng, Yixuan Li, Yongbao Zhuang, Javid Ghaemmaghami, Kun-Han Chuang, Zhuo Liu, Yunxiao Meng, Meghana Keswani, Nancy R. Gough, Xiaojun Wu, Wenge Zhu, Alexandros Tzatsos, Weiqun Peng, Edward Seto, Eduardo M. Sotomayor, Xiaoyan Zheng
Total views: 1004
Abstract
Despite an unprecedented 2 decades of success, the combat against malaria — the mosquito-transmitted disease caused by Plasmodium parasites — is no longer progressing. Efforts toward eradication are threatened by the lack of an effective vaccine and a rise in antiparasite drug resistance. Alternative approaches are urgently needed. Repurposing of available, approved drugs with distinct modes of action are being considered as viable and immediate adjuncts to standard antimicrobial treatment. Such strategies may be well suited to the obligatory and clinically silent first phase of Plasmodium infection, where massive parasite replication occurs within hepatocytes in the liver. Here, we report that the widely used antidiabetic drug, metformin, impairs parasite liver stage development of both rodent-infecting Plasmodium berghei and human-infecting P. falciparum parasites. Prophylactic treatment with metformin curtails parasite intracellular growth in vitro. An additional effect was observed in mice with a decrease in the numbers of infected hepatocytes. Moreover, metformin provided in combination with conventional liver- or blood-acting antimalarial drugs further reduced the total burden of P. berghei infection and substantially lessened disease severity in mice. Together, our findings indicate that repurposing of metformin in a prophylactic regimen could be considered for malaria chemoprevention.
Authors
Iset Medina Vera, Margarida T. Grilo Ruivo, Leonardo F. Lemos Rocha, Sofia Marques, Sangeeta N. Bhatia, Maria M. Mota, Liliana Mancio-Silva
Total views: 906
Abstract
Background. Current clinical biomarkers for the PD-1 blockade therapy are insufficient because they rely only on the tumor properties such as PD-L1 expression frequency and the amount of tumor mutation burden. Identifying reliable responsive biomarkers based on the host immunity is necessary to improve the predictive values. Methods. We investigated the levels of plasma metabolites and T cell properties including energy metabolism markers in the blood of patients with non-small cell lung cancer before and after treatment with nivolumab (n = 55). Predictive value of combination markers statistically selected were evaluated by cross validation and linear discriminant analysis on discovery and validation cohorts, respectively. Correlation between plasma metabolites and T cell markers were investigated. Results. The four metabolites derived from microbiome (hippuric acid), fatty acid oxidation (butyrylcarnitine) and redox (cystine and glutathione disulfide) provided high response probability (AUC = 0.91). Similarly, a combination of four T cell markers, those related to mitochondrial activation (PGC-1 expression and reactive oxygen species), and the frequencies of CD8+ PD-1high and CD4+ T cells demonstrated even higher prediction value (AUC = 0.96). Among the pool of all selected markers, the four T cell markers were exclusively selected as the highest predictive combination probably due to their linkage to the above mentioned metabolite markers. In a prospective validation set (n = 24) these four cellular markers showed a high accuracy rate for the clinical responses of the patients (AUC = 0.92). Conclusion. Combination of biomarkers reflecting host immune activity is quite valuable for the responder prediction.
Authors
Ryusuke Hatae, Kenji Chamoto, Young Hak Kim, Kazuhiro Sonomura, Kei Taneishi, Shuji Kawaguchi, Hironori Yoshida, Hiroaki Ozasa, Yuichi Sakamori, Maryam Akrami, Sidonia Fagarasan, Izuru Masuda, Yasushi Okuno, Fumihiko Matsuda, Toyohiro Hirai, Tasuku Honjo
Total views: 854
Abstract
Gigaxonin (also known as KLHL16) is an E3 ligase adaptor protein that promotes the ubiquitination and degradation of intermediate filament (IF) proteins. Mutations in human gigaxonin cause the fatal neurodegenerative disease giant axonal neuropathy (GAN), in which IF proteins accumulate and aggregate in axons throughout the nervous system, impairing neuronal function and viability. Despite this pathophysiological significance, the upstream regulation and downstream effects of normal and aberrant gigaxonin function remain incompletely understood. Here, we report that gigaxonin is modified by O-linked β-N-acetylglucosamine (O-GlcNAc), a prevalent form of intracellular glycosylation, in a nutrient- and growth factor–dependent manner. MS analyses of human gigaxonin revealed 9 candidate sites of O-GlcNAcylation, 2 of which — serine 272 and threonine 277 — are required for its ability to mediate IF turnover in gigaxonin-deficient human cell models that we created. Taken together, the results suggest that nutrient-responsive gigaxonin O-GlcNAcylation forms a regulatory link between metabolism and IF proteostasis. Our work may have significant implications for understanding the nongenetic modifiers of GAN phenotypes and for the optimization of gene therapy for this disease.
Authors
Po-Han Chen, Jimin Hu, Jianli Wu, Duc T. Huynh, Timothy J. Smith, Samuel Pan, Brittany J. Bisnett, Alexander B. Smith, Annie Lu, Brett M. Condon, Jen-Tsan Chi, Michael Boyce
Total views: 838
Abstract
Anti-PD1 therapy has become an immunotherapeutic backbone for treating many cancer types. While many studies have aimed to characterize the immune response to anti-PD1 therapy in the tumor and in the peripheral blood, relatively less is known about the changes in the tumor draining lymph nodes (TDLNs). TDLNs are primary sites of tumor antigen exposure that are critical to both regulation and cross-priming of the antitumor immune response. We employed multi-panel mass cytometry to obtain a high-parameter proteomic (39 total unique markers) immune profile of the TDLN in a well-studied PD1-responsive immunocompetent mouse model. Based on combined hierarchal gating and unsupervised clustering analyses, we found that anti-PD1 therapy enhances remodeling of both B and T cell compartments toward memory phenotypes. Functionally, expression of checkpoint markers was increased in conjunction with production of IFNγ, TNFα, or IL2 in key cell types, including B and T cell subtypes and rarer subsets such as Tregs and NKT cells. A deeper profiling of the immunologic changes that occur in the TDLN milieu during effective anti-PD1 therapy may lead to the discovery of novel biomarkers for monitoring response and provide key insights toward developing combination immunotherapeutic strategies.
Authors
Won Jin Ho, Mark Yarchoan, Soren Charmsaz, Rebecca M. Munday, Ludmila Danilova, Marcelo B. Sztein, Elana J. Fertig, Elizabeth M. Jaffee
Total views: 821
Abstract
Conventional treatments for inflammatory bowel disease (IBD) have multiple potential side effects. Therefore, alternative treatments are desperately needed. This work demonstrated that systemic administration of exosomes from human bone marrow–derived mesenchymal stromal cells (MSC-Exos) substantially mitigated colitis in various models of IBD. MSC-Exos treatment downregulated inflammatory responses, maintained intestinal barrier integrity, and polarized M2b macrophages but did not favor intestinal fibrosis. Mechanistically, infused MSC-Exos acted mainly on colonic macrophages, and macrophages from colitic colons acquired obvious resistance to inflammatory restimulation when prepared from mice treated with MSC-Exos versus untreated mice. The beneficial effect of MSC-Exos was blocked by macrophage depletion. Also, the induction of IL-10 production from macrophages was partially involved in the beneficial effect of MSC-Exos. MSC-Exos were enriched in proteins involved in regulating multiple biological processes associated with the anticolitic benefit of MSC-Exos. Particularly, metallothionein-2 in MSC-Exos was required for the suppression of inflammatory responses. Taken together, MSC-Exos are critical regulators of inflammatory responses and may be promising candidates for IBD treatment.
Authors
Huashan Liu, Zhenxing Liang, Fengwei Wang, Chi Zhou, Xiaobin Zheng, Tuo Hu, Xiaowen He, Xianrui Wu, Ping Lan
Total views: 749
