Research Progress on the Microenvironment and Immunotherapy of Advanced Non-Small Cell Lung Cancer With Liver Metastases

Lung cancer is a malignant tumor with the highest morbidity and mortality, and more than 75% of patients are diagnosed at an advanced stage. Liver metastases occur in 20% of non-small cell lung cancer patients, and their prognosis are poor. In recent years, immune checkpoint inhibitor monotherapy and combination therapy have made breakthrough progress in advanced Non-small cell lung cancer (NSCLC) patients. However, compared with the overall population, the liver metastases population was an independent prognostic factor for poor immunotherapy response. Whether and how immunotherapy can work in NSCLC patients with liver metastases is a major and unresolved challenge. Although more and more data have been disclosed, the research progress of NSCLC liver metastasis is still limited. How liver metastasis modulates systemic antitumor immunity and the drug resistance mechanisms of the liver immune microenvironment have not been elucidated. We systematically focused on non-small cell lung cancer patients with liver metastases, reviewed and summarized their pathophysiological mechanisms, immune microenvironment characteristics, and optimization of immunotherapy strategies

Important clinical research progress in lung cancer in 2022

Lung cancer remains the malignant tumor with the highest morbidity and mortality in China, among which non-small cell lung cancer (NSCLC) accounts for more than 80%. Clinical studies related to adjuvant immunotherapy and neoadjuvant immunotherapy in perioperative NSCLC have been updated. In terms of targeted therapy, the research and development of drugs for rare and difficult-to-treat targets continues to be hot, and the research and development of antibody-drug conjugate gradually becomes hot, which is expected to open a new track for the diagnosis and treatment of lung cancer. Rare target diagnosis and treatment of NSCLC has gradually entered an era of precision and standardization. In terms of immunotherapy for patients with advanced NSCLC, the new regimen of combined immunotherapy is expected to further improve the efficacy. This review, with the focus on advanced NSCLC, summarized the development of NSCLC, discussed current problems and challenges, and proposed prospects on future directions

The volatility spillover effect of the European Union (EU) carbon financial market

Acknowledgements The authors acknowledge the valuable comments and suggestions provided by our colleagues. The authors are grateful to the anonymous reviewers, whose comments have helped us improve the manuscript. Funding This research is partially funded by the National Natural Science Foundation of China (71473010), Capacity Building of Science and Technology Innovation Services (Research Category) in 2019—Beijing Basic Research Business Expenses in Beijing University of Technology (011000546320503) and (011000546320532). Data availability The Data availability come from Table A1. Data source.Peer reviewedPostprin

Review of the correlation between Chinese medicine and intestinal microbiota on the efficacy of diabetes mellitus

Diabetes mellitus is a serious metabolic disorder that can lead to a number of life-threatening complications. Studies have shown that intestinal microbiota is closely related to the development of diabetes, making it a potential target for the treatment of diabetes. In recent years, research on the active ingredients of traditional Chinese medicine (TCM), TCM compounds, and prepared Chinese medicines to regulate intestinal microbiota and improve the symptoms of diabetes mellitus is very extensive. We focus on the research progress of TCM active ingredients, herbal compounds, and prepared Chinese medicines in the treatment of diabetes mellitus in this paper. When diabetes occurs, changes in the abundance and function of the intestinal microbiota disrupt the intestinal environment by disrupting the intestinal barrier and fermentation. TCM and its components can increase the abundance of beneficial bacteria while decreasing the abundance of harmful bacteria, regulate the concentration of microbial metabolites, improve insulin sensitivity, regulate lipid metabolism and blood glucose, and reduce inflammation. TCM can be converted into active substances with pharmacological effects by intestinal microbiota, and these active substances can reverse intestinal microecological disorders and improve diabetes symptoms. This can be used as a reference for diabetes prevention and treatment

Advances in fatty acid metabolism reprogramming of lung cancer

Lung cancer is the most common malignant tumor and the leading cause of cancer-related mortality. Although the development of targeted therapy and immunotherapy has significantly improved the efficacy and prognosis of lung cancer patients, the overall 5-year survival rate is still lower than 20%. Therefore, in-depth exploration of the pathogenesis of lung cancer has important clinical significance for the development of new diagnosis and treatment strategies and further improvement of patient survival. Metabolic reprogramming is a crucial way for tumors to maintain malignant biological behavior. Previous studies have shown that fatty acid metabolism reprogramming has profound effects on tumorigenesis and progression of lung cancer, suggesting that targeting lung cancer fatty acid metabolism might be an important direction for the development of new anti-tumor regimens. This paper, focusing on the reprogramming of fatty acid metabolism, reviewed the relationship between fatty acid metabolism and lung cancer progression from the aspects of the key protein molecules involved in each procedure of fatty acid metabolism (including uptake, synthesis, storage and decomposition), and discussed the application status and challenges of anti-tumor therapy targeting fatty acid metabolism, expecting to provide clues and insights for the development of novel treatment regimen for lung cancer

C. elegans fatty acid two-hydroxylase regulates intestinal homeostasis by affecting heptadecenoic acid production

Background/Aims: The hydroxylation of fatty acids at the C-2 position is the first step of fatty acid α-oxidation and generates sphingolipids containing 2-hydroxy fatty acyl moieties. Fatty acid 2-hydroxylation is catalyzed by Fatty acid 2-hydroxylase (FA2H) enzyme. However, the precise roles of FA2H and fatty acid 2-hydroxylation in whole cell homeostasis still remain unclear. Methods: Here we utilize Caenorhabditis elegans as the model and systemically investigate the physiological functions of FATH-1/C25A1.5, the highly conserved worm homolog for mammalian FA2H enzyme. Immunostaining, dye-staining and translational fusion reporters were used to visualize FATH-1 protein and a variety of subcellular structures. The “click chemistry” method was employed to label 2-OH fatty acid in vivo. Global and tissue-specific RNAi knockdown experiments were performed to inactivate FATH-1 function. Lipid analysis of the fath-1 deficient mutants was achieved by mass spectrometry. Results: C. elegans FATH-1 is expressed at most developmental stages and in most tissues. Loss of fath-1 expression results in severe growth retardation and shortened lifespan. FATH-1 function is crucially required in the intestine but not the epidermis with stereospecificity. The “click chemistry” labeling technique showed that the FATH-1 metabolites are mainly enriched in membrane structures preferable to the apical side of the intestinal cells. At the subcellular level, we found that loss of fath-1 expression inhibits lipid droplets formation, as well as selectively disrupts peroxisomes and apical endosomes. Lipid analysis of the fath-1 deficient animals revealed a significant reduction in the content of heptadecenoic acid, while other major FAs remain unaffected. Feeding of exogenous heptadecenoic acid (C17: 1), but not oleic acid (C18: 1), rescues the global and subcellular defects of fath-1 knockdown worms. Conclusion: Our study revealed that FATH-1 and its catalytic products are highly specific in the context of chirality, C-chain length, spatial distribution, as well as the types of cellular organelles they affect. Such an unexpected degree of specificity for the synthesis and functions of hydroxylated FAs helps to regulate protein transport and fat metabolism, therefore maintaining the cellular homeostasis of the intestinal cells. These findings may help our understanding of FA2H functions across species, and offer potential therapeutical targets for treating FA2H-related diseases

Investment efficiency of the new energy industry in China

This paper evaluates the investment efficiency of the new energy industry in China and investigates factors that explain variations in investment efficiency across firms and over time. Applying a four-stage semi-parametric DEA analysis framework to a sample of listed new energy firms over the period 2012-2015, we find that the overall investment efficiency of the new energy industry is relatively low, with an average total technical efficiency of 44%, pure technical efficiency of 48%, and scale efficiency of 90%. We also find that new energy firms’ investment efficiency is affected by both macroeconomic conditions and firm-specific characteristics. Our results are robust and have significant implications for policy makers and firm managers

Past, present, and future of gastrointestinal microbiota research in cats

The relationship between microbial community and host has profound effects on the health of animals. A balanced gastrointestinal (GI) microbial population provides nutritional and metabolic benefits to its host, regulates the immune system and various signaling molecules, protects the intestine from pathogen invasion, and promotes a healthy intestinal structure and an optimal intestinal function. With the fast development of next-generation sequencing, molecular techniques have become standard tools for microbiota research, having been used to demonstrate the complex intestinal ecosystem. Similarly to other mammals, the vast majority of GI microbiota in cats (over 99%) is composed of the predominant bacterial phylaFirmicutes,Bacteroidetes,Actinobacteria, andProteobacteria. Many nutritional and clinical studies have shown that cats' microbiota can be affected by several different factors including body condition, age, diet, and inflammatory diseases. All these factors have different size effects, and some of these may be very minor, and it is currently unknown how important these are. Further research is needed to determine the functional variations in the microbiome in disease states and in response to environmental and/or dietary modulations. Additionally, further studies are also needed to explain the intricate relationship between GI microbiota and the genetics and immunity of its host. This review summarizes past and present knowledge of the feline GI microbiota and looks into the future possibilities and challenges of the field