Cancer Pathways Research Articles

Exploring angiogenic pathways in breast cancer: Clinicopathologic correlations and prognostic implications based on gene expression profiles from a large-scale genomic dataset

Exploring angiogenic pathways in breast cancer: Clinicopathologic correlations and prognostic implications based on gene expression profiles from a large-scale genomic dataset

Implementation of an electronic prospective surveillance model for cancer rehabilitation: a mixed methods study protocol

IntroductionAn electronic prospective surveillance model (ePSM) uses patient-reported outcomes to monitor impairments along the cancer pathway for timely management. Randomised controlled trials show that ePSMs can effectively manage cancer-related impairments....

Urethral caruncles

Key content: Urethral caruncle is a common post‐menopausal finding. This common benign lesion can be mistaken as a malignancy. Management should be based on the patient's symptoms. Vaginal estrogen should be considered as first‐line management before surgical excision. Learning objectives: To evaluate the symptomatic presentation of urethral caruncle. To establish the differential diagnosis of a mass in the urethra. To review the management options of urethral caruncle including medical and surgical excision. To highlight primary care management of urethral caruncle. Ethical issues: Owing to poor recognition of urethral caruncle, many patients are put through the emotional distress of referral to cancer pathways. Surgery should be considered first line for large urethral caruncle or in symptomatic patients.

The role of KRT7 in metastasis and prognosis of pancreatic cancer

PurposeThe aim of this study is to delve into the value of N6-Methyladenosine (m6A)-associated genes (MAGs) in pancreatic cancer (PC) prognosis.MethodsPC sequencing data and corresponding clinicopathological information were retrieved from GEO and TCGA databases. We filtered 19 MAGs in PC specimens and implemented functional annotation in biology. Later, the m6A modification pattern was stratified into m6Acluster A-B according to MAG expression levels, and further categorized into genecluster A-C based on differentially expressed genes between m6Acluster A and B. Next, a MAG-based prognostic prediction model was established by the least absolute shrinkage and selection operator (LASSO) regression analysis and multivariate Cox regression analysis. At last, the role of KRT7 in PC were explored.ResultsWe found m6Acluster A pattern presented enrichment pathways associated with cell apoptosis, proliferation, migration, and cancer pathways. Additionally, high-risk group displayed more dismal prognosis and a higher programmed death-ligand 1 expression. The survival prediction ability of the model was verified in three independent PC GEO datasets. KRT7 is the most momentous risk gene in the established prognostic model. Among 18 clinical samples, the KRT7 protein in the surviving patient samples is lower than that in the deceased patient samples. We also identified elevated expression of KRT7 in PC tumor tissues compared to normal tissues using GEPIA 2. Then, the metastasis of PC cells was promoted by overexpressed KRT7 in vitro and in vivo. And IGF2BP3 upregulated KRT7 by increasing the mRNA stability of KRT7.ConclusionsThe PPM built based on CXCL5, LY6K and KRT7 is an encouraging biomarker to define the prognosis. Additionally, IGF2BP3 promoted KRT7 by stabilizing mRNA of KRT7. And KRT7 promoted the metastasis of PC cells by promoting EMT.

Low Magnetic Field Exposure Alters Prostate Cancer Cell Properties.

Prostate cancer is the second most common neoplasia and fifth-leading cause of cancer death in men worldwide. Electromagnetic and magnetic fields have been classified as possible human carcinogens, but current understanding of molecular and cellular pathways involved is very limited. Effects due to extremely low magnetic/hypomagnetic fields (LMF) are furthermore poorly understood. Extracellular vesicles (EVs) are crucial mediators of cellular communication with multifaceted roles in cancer progression, including via transport and uptake of various protein and microRNA (miRNA) EV-cargoes. miRNAs regulate gene expression and are implicated in cancer-related processes such as proliferation, metastasis, and chemoresistance. This study investigated the effects of LMF exposure (20 nT) by magnetic shielding on the prostate cancer cell line PC3 compared to the prostate epithelial cell line PNT2 under short-term (4 h) conditions. We examined EV profiles following a 4 h LMF exposure alongside associated functional enrichment KEGG and GO pathways for the EV proteomes. The 4 h LMF exposure significantly reduced cellular EV release and modified PC3 EV cargoes to a more inflammatory and metastatic profile, with 16 Disease Pathways and 95 Human Phenotypes associated specifically with the LMF-treated PC3 EV proteomes. These included cancerous, metabolic, blood, skin, cardiac and skeletal Disease Pathways, as well as pain and developmental disorders. In the normal PNT2 cells, less EV protein cargo was observed following LMF exposure compared with cells not exposed to LMF, and fewer associated functional enrichment pathways were identified. This pointed to some differences in various cellular functions, ageing, defence responses, oxidative stress, and disease phenotypes, including respiratory, digestive, immune, and developmental pathways. Furthermore, we analysed alterations in matrix metalloproteinases (MMPs) and miRNAs linked to metastasis, as this is crucial in cancer aggressiveness. The 4 h LMF exposure caused a significant increase in MMP2 and MMP9, as well as in onco-miRs miR-155, miR-210, miR-21, but a significant reduction in tumour-suppressor miRs (miR-200c and miR-126) in the metastatic PC3 cells, compared with normal PNT2 cells. In addition, 4 h LMF exposure significantly induced cellular invasion of PC3 cells. Overall, our findings suggest that changes in magnetic field exposures modulate EV-mediated and miR-regulatory processes in PCa metastasis, providing a basis for exploring novel therapeutic strategies.

Mainstream Germline Genetic Testing with Expanded Eligibility for Early Breast Cancer Patients in a Large Integrated Health System.

This study evaluated a new mainstream genetic testing pathway for hereditary cancer, with expanded eligibility for early-stage breast cancer patients. The study compared multigene panel (62 genes) germline testing uptake and results for breast cancer patients at 4 pilot sites (n = 502 patients) and 10 non-pilot sites (n = 1792 patients) within Kaiser Permanente Northern California from December 2020, to June 2021. At the pilot sites, breast care coordinators (BCCs) offered and consented patients for testing, with eligibility expanded to include all patients age 65 years or younger. At the non-pilot sites, eligible patients were referred to genetics for pre-test counseling, ordering, and follow-up evaluation with the standard guideline that included all patients age 45 years or younger. Demographic and disease characteristics were similar at the pilot and non-pilot sites. At the pilot verses non-pilot sites, a higher percentage of patients was tested overall (61.6% vs 31.7%) and across all age groups. The median time from breast biopsy to test result also was reduced (22 vs 33 days, respectively). A higher percentage of patients at the pilot sites was identified as having a pathogenic/likely pathogenic variant (PV/LPV) in a breast cancer-related gene (3.6% vs 1.6%). Although the percentage of total patients tested was nearly twofold higher at the pilot sites than at the non-pilot sites, the percentage of total patients seen by genetics was estimated to be similar (33.7% vs 31.7%). Mainstream genetic testing of breast cancer patients facilitated by BCCs makes it feasible for a large health care system to expand germline genetic testing to early breast cancer patients age 65 years or younger.

Dendrobine Suppresses Tumor Growth by Regulating the PD-1/PD-L1 Checkpoint Pathway in Lung Cancer

Background: Dendrobine is a bioactive alkaloid isolated from Dendrobium nobile. Studies have evaluated the anti-tumor effect of dendrobine in cancers, including lung cancer. However, the mechanism of dendrobine inhibiting tumors requires further study. Methods: Bioinformatics was performed to screen the potential targets of dendrobine. The in-tersection of dendrobine and lung cancer targets was performed for KEGG analysis. CCK-8 was used to detect cell viability after dendrobine treatment. A xenograft mouse model was es-tablished to explore the effect of dendrobine on lung cancer. The percentages of PD-L1+, CD4+, CD8+, CD11b+, CD25+FOXP3+ cells, the expression of Ki-67 and caspase-3, the ex-pression of pathway-related proteins, the levels of IL-2, IFN-γ, and TGF-β, and the changes of indicators of liver and renal function were measured. Results: Dendrobine regulated the PD1/PD-L1 checkpoint signaling pathway and affected the occurrence and development of lung cancer. Dendrobine decreased the cell viability of lung cancer. Dendrobine and anti-PD-L1 decreased tumor growth, increased caspase-3 expression, and reduced Ki-67 expression in tumor tissues. Dendrobine and anti-PD-L1 suppressed pro-tein expression of PD-L1, p-JAK1/JAK1, and p-JAK2/JAK2 in tumor tissues. Greatly, den-drobine and anti-PD-L1 decreased the percentages of PD-L1+, CD11b+, and CD25+FOXP3+ cells, increased the percentages of CD4+ and CD8+cells, and enhanced the levels of IL-2, IFN-γ, and TGF-β in tumor tissues. Dendrobine demonstrated no hepatorenal toxicity to the tumor mice. The combination of dendrobine and anti-PD-L1 greatly strengthened the effects of dendrobine on tumors. Conclusion: Dendrobine inhibited tumor immune escape by suppressing the PD-1/PD-L1 checkpoint pathway, thus restricting tumor growth of lung cancer. conclusion: Dendrobiine inhibited tumor immune escape by suppressing PD-1/PD-L1 checkpoint pathway, thus restricting tumor growth of lung cancer. other: N/A

From pathogenesis to treatment: the impact of bacteria on cancer.

The intricate relationship between cancer and bacteria has garnered increasing attention in recent years. While traditional cancer research has primarily focused on tumor cells and genetic mutations, emerging evidence highlights the significant role of microbial communities within the tumor microenvironment in cancer development and progression. This review aims to provide a comprehensive overview of the current understanding of the complex interplay between cancer and bacteria. We explore the diverse ways in which bacteria influence tumorigenesis and tumor behavior, discussing direct interactions between bacteria and tumor cells, their impact on tumor immunity, and the potential modulation of the tumor microenvironment. Additionally, we delve into the mechanisms through which bacterial metabolites and extracellular products May affect cancer pathways. By conducting a thorough analysis of the existing literature, we underscore the multifaceted and intricate relationship between bacteria and cancer. Understanding this complex interplay could pave the way for novel therapeutic approaches and preventive strategies in cancer treatment.

An Integrated Approach of Network Pharmacology, Bioinformatics, Molecular Docking, and Experimental Verification Uncovers Prunellae Spica as the potential Medicine of Prognosis Improvement for Oral Squamous Cell Carcinoma.

Prunellae Spica (PS), the spike from Prunella vulgaris L., is a traditional Chinese medicine that can treat Oral Squamous Cell Carcinoma (OSCC), whereas its molecular mechanisms and effects on the prognosis of patients remain unclear. Our study aimed to identify potential anti-OSCC targets of PS and explore its mechanisms and effects on prognosis through network pharmacology, bioinformatics analysis, molecular docking, and in vitro cell assays. Sixty-two potential targets of 11 active anti-OSCC ingredients of PS were identified, with Quercetin, the core ingredient of PS, exhibiting the most significant number of OSCC-related targets. GO analysis indicated that the primary biological processes involved in OSCC treatment by PS were the cellular response to nitrogen compound, response to xenobiotic stimulus, and cellular response to organonitrogen compound. KEGG analysis revealed that Pathways in cancer were the top highly enriched signaling pathway in the treatment of OSCC by PS. DisGeNET analysis is mainly about Lip and Oral Cavity Carcinoma. More importantly, 6 of the 62 targets were markedly related to prognosis. Molecular docking revealed high affinities between the key component and the prognosis-related target proteins. Treatment of OSCC cell line SCC-25 with Quercetin could inhibit malignant biological behaviors, such as cell proliferation, colony formation, invasion, and migration, as well as affect the targets related to prognosis and promote autophagy. Overall, these results suggest that PS plays a significant role in treating and improving the prognosis of OSCC by directly influencing various processes in OSCC.

Anti-tumor Mechanism of Camellia nitidissima Based on Network Pharmacology and Molecular Docking

Background: Modern pharmacological research indicated that Camellia nitidissima (CAM) had significant anti-tumor activity, but the investigation of its mechanism was still lacking. Objective: The multi-component, multi-target and multi-pathway mechanism of CAM against tumor was investigated based on network pharmacology and molecular docking. Methods: The active ingredients and targets of CAM were selected through a literature search, Traditional Chinese Medicine Systems Pharmacology database and PharmMapper database, and tumor-related targets were selected by GeneCards database, then to obtain the anti-tumor related targets of CAM. The protein interaction relationship was obtained through STRING database, protein-protein interaction network was constructed using Cytoscape 3.7.2 software, and enrichment analysis of GO and KEGG was conducted. AutoDock Tools 1.5.6 software was used to verify the molecular docking between the key ingredients and the key targets. Results: Catechin, epicatechin and luteolin were identified as the key anti-tumor related ingredients, and ESR1, EGFR, MAPK8, MAPK10, AR, PGR, F2 and PIK3CG were identified as the key targets. The GO entries mainly involved metabolic process, cellular process, response to stimulus, organelle, cytosol, etc. The KEGG enrichment showed that the key pathways included pathways in cancer, prostate cancer, pancreatic cancer, breast cancer, estrogen signaling pathway, MAPK signaling pathway, PI3K-Akt signaling pathway, etc. KEGG pathway maps indicated that the anti-tumor effect of CAM may be mainly achieved by intervening related targets in the following pathways: AR-HSP/AR-AR/PSA/proliferation and evading apoptosis; F2/GPCR/…/ROCK/tissue invasion and metastasis; F2/GPCR/…/Raf/MAPK signaling pathway/proliferation and sustained angiogenesis; EGFR/PI3K-Akt signaling pathway/proliferation, evading apoptosis and sustained angiogenesis; EGFR/Grb2/…/Raf/MAPK signaling pathway/proliferation and sustained angiogenesis; ER/Estrogen signaling pathway/proliferation; PR/PR-COR/Wnts-RANKL/proliferation; oxidative stress (.O₂-, .OH, H₂O₂)/KEAP1/NRF2/.../proliferation and evading apoptosis. The results of molecular docking showed that the key active ingredients had a good binding activity with each key target. Conclusion: It was predicted that the main active ingredients of CAM could bind to tumor-related targets, such as receptor and coagulation-promoting factor, scavenge free radicals, and then interfere with the occurrence and development of tumors.

Characteristics of Oxidative Phosphorylation-Related Subtypes and Construction of a Prognostic Signature in Ovarian Cancer.

Ovarian cancer is associated with a high mortality rate. Oxidative Phosphorylation (OXPHOS) is an active metabolic pathway in cancer; nevertheless, its role in ovarian cancer continues to be ambiguous. Therefore, the objective of this study was to identify the prognostic value of OXPHOS-related genes and the immune landscape in ovarian cancer. We obtained public ovarian cancer-related datasets from The Cancer Genome Atlas (TCGA) and Gene Expression Omnibus (GEO) databases and recognized OXPHOS-related genes from the GeneCards database and literature. Cox regression analyses were conducted to identify prognostic OXPHOS-related genes and develop a prognostic nomogram based on the OXPHOS score and clinicopathological features of patients. Functional enrichment analyses were employed to identify related processes. A 12-gene signature was identified to classify the ovarian cancer patients into high- and low-risk groups. The Immunophenoscore (IPS) was higher in the OXPHOS score-high group than in the OXPHOS score-low group, suggesting a better response to immune checkpoint inhibitors. Functional enrichment analyses unveiled that OXPHOS-related genes were considerably abundant in a series of immune processes. The calibration curves of the constructed prognostic nomograms at 1, 2, and 3 years exhibited strong concordance between the anticipated and observed survival probabilities of ovarian cancer patients. We have constructed a prognostic model containing 12 OXPHOS-related genes and demonstrated its strong predictive value in ovarian cancer patients. OXPHOS has been found to be closely linked to immune infiltration and the reaction to immunotherapy, which may contribute to improving individualized treatment and prognostic evaluation in ovarian cancer.

Tackling triple negative breast cancer with HDAC inhibitors: 6 is the isoform!

Triple negative breast cancer (TNBC) is a highly aggressive breast cancer subtype characterized by the lack in the expression of estrogen and progesterone receptors, and human epidermal growth factor receptors 2. TNBC stands out among other breast cancers subtypes for its high aggressiveness and invasiveness, and for the limited therapeutic options available, which justify the poor survival rates registered for this breast cancer subtype. Compelling new evidence pointed out the role of epigenetic modifications in cancer, prompting tumor cell uncontrolled proliferation, epithelial-to-mesenchymal transition, and metastatic events. In this review we showcase the latest evidence supporting the involvement of histone deacetylase 6 (HDAC6) in cancer pathways strictly related to TNBC subtype, also tracking the latest advancements in the identification of novel HDAC6 inhibitors which showed efficacy in TNBC models, offering insights into the potential of targeting this key epigenetic player as an innovative therapeutic option for the treatment of TNBC.

Diagnostic application of the ColonFlag AI tool in combination with faecal immunochemical test in patients on an urgent lower gastrointestinal cancer pathway

ObjectiveColorectal cancer (CRC) is the fourth most common cancer in the UK. Patients with symptoms suggestive of CRC should be referred for urgent investigation. However, gastrointestinal symptoms are often non-specific...

Network pharmacology study and in vitro experimental validation of Xiaojianzhong decoction against gastric cancer.

Cancer is one of the most serious threats to human health worldwide. Conventional treatments such as surgery and chemotherapy are associated with some drawbacks. In recent years, traditional Chinese medicine treatment has been increasingly advocated by patients and attracted attention from clinicians, and has become an indispensable part of the comprehensive treatment for gastric cancer. To investigate the mechanism of Xiaojianzhong decoction (XJZ) in the treatment of gastric cancer (GC) by utilizing network pharmacology and experimental validation, so as to provide a theoretical basis for later experimental research. We analyzed the mechanism and targets of XJZ in the treatment of GC through network pharmacology and bioinformatics. Subsequently, we verified the impact of XJZ treatment on the proliferative ability of GC cells through CCK-8, apoptosis, cell cycle, and clone formation assays. Additionally, we performed Western blot analysis and real-time quantitative PCR to assess the protein and mRNA expression of the core proteins. XJZ mainly regulates IL6, PTGS2, CCL2, MMP9, MMP2, HMOX1, and other target genes and pathways in cancer to treat GC. The inhibition of cell viability, the increase of apoptosis, the blockage of the cell cycle at the G0/G1 phase, and the inhibition of the ability of cell clone formation were observed in AGS and HGC-27 cells after XJZ treatment. In addition, XJZ induced a decrease in the mRNA expression of IL6, PTGS2, MMP9, MMP2, and CCL2, and an increase in the mRNA expression of HOMX1. XJZ significantly inhibited the expression of IL6, PTGS2, MMP9, MMP2, and CCL2 proteins and promoted the expression of the heme oxygenase-1 protein. XJZ exerts therapeutic effects against GC through multiple components, multiple targets, and multiple pathways. Our findings provide a new idea and scientific basis for further research on the molecular mechanisms underlying the therapeutic effects of XJZ in the treatment of GC.

Characterization of natural compounds derived from diatom C. gracilis as potential therapeutic agents: An in-silico networking and docking study

Marine diatom Chaetoceros gracilis have been known as the key player regulating the nutritional content of aquaculture species. Being able to synthesize an array of high value bioactive compounds like amino acids, lipids, terpenoids and polysaccharides, it also serves as potential therapeutic and nutraceutical agent. This in silico-based study elucidates the interactive association of different compounds, proteins and pathways of the diatom C. gracilis through an integrated network pharmacology and molecular docking approach. According to the Network analysis of the 41 compounds detected, saturated hydrocarbons, diterpenoids and phenolic compounds scored the highest degree (score > 140). These compounds were further coded for approximately 349 protein targets and almost 490 different pathways. HSP90AA1, STAT3, HIF1A, MTOR, ESR1, PIK3CA, MAPK1 and PTGS2 secured highest degree of protein-protein interaction according to STRING database. The gene enrichment analysis further revealed that these proteins were closely associated with metabolic pathways like Pathways in cancer, neuroactive ligand-receptor interaction, calcium and cAMP signaling pathway, PI3K-Akt signaling pathway, Alzheimer's disease and pathways of neurodegeneration which played an instrumental role in the metabolism of diseases and disorders like cancers of breast, prostrate, and liver, schizophrenia and other mental and hypertensive disorders. Furthermore, the molecular docking and toxicity assessment of a few novel compounds was done with mTOR and HSP90AA1 which revealed promising and stable interactions. Thus, this study provides the first in silico insight outlining the anti-cancerous and neuroprotective potential of novel bioactive compounds derived from marine diatom C.gracilis.

Turkish coffee has an antitumor effect on breast cancer cells in vitro and in vivo

BackgroundBreast cancer is the most diagnosed cancer in women. Its pathogenesis includes several pathways in cancer proliferation, apoptosis, and metastasis. Some clinical data have indicated the association between coffee consumption and decreased cancer risk. However, little data is available on the effect of coffee on breast cancer cells in vitro and in vivo.MethodsIn our study, we assessed the effect of Turkish coffee and Fridamycin-H on different pathways in breast cancer, including apoptosis, proliferation, and oxidative stress. A human breast cancer cell line (MCF-7) was treated for 48 h with either coffee extract (5% or 10 v/v) or Fridamycin-H (10 ng/ml). Ehrlich solid tumors were induced in mice for in vivo modeling of breast cancer. Mice with Ehrlich solid tumors were treated orally with coffee extract in drinking water at a final concentration (v/v) of either 3%, 5%, or 10% daily for 21 days. Protein expression levels of Caspase-8 were determined in both in vitro and in vivo models using ELISA assay. Moreover, P-glycoprotein and peroxisome proliferator-activated receptor gamma (PPAR-γ) protein expression levels were analyzed in the in vitro model. β-catenin protein expression was analyzed in tumor sections using immunohistochemical analysis. In addition, malondialdehyde (MDA) serum levels were analyzed using colorimetry.ResultsBoth coffee extract and Fridamycin-H significantly increased Caspase-8, P-glycoprotein, and PPAR-γ protein levels in MCF-7 cells. Consistently, all doses of in vivo coffee treatment induced a significant increase in Caspase-8 and necrotic zones and a significant decrease in β- catenin, MDA, tumor volume, tumor weight, and viable tumor cell density.ConclusionThese findings suggest that coffee extract and Fridamycin-H warrant further exploration as potential therapies for breast cancer.

Unconventional p65/p52 NF-κB module regulates key tumor microenvironment-related genes in breast tumor-associated macrophages (TAMs)

The complex heterogeneity of tumor microenvironment (TME) of triple-negative breast cancer (TNBC) presents a significant obstacle to cytotoxic immune response and successful treatment, building up one of the most hostile oncological phenotypes. Among the most abundant TME components, tumor-associated macrophages (TAMs) have pivotal pro-tumoral functions, involving discordant roles for the nuclear factor kappa-B (NF-κB) transcription factors and directing to higher levels of pathway complexity.In both resting macrophages and TAMs, we recently revealed the existence of the uncharacterized NF-κB p65/p52 dimer. In the present study, we demonstrated its enhanced active nuclear localization in TAMs and validated selected immune target genes as directly regulated by dimer binding on DNA sequences.We demonstrated by ChIP-qPCR that p65/p52 enrichment on HSPG2 and CSF-1 regulatory regions is strictly dependent on macrophage polarization and tumor environment.Our data provide novel mechanisms of transcriptional regulation in TAMs, orchestrated by the varied and dynamic nature of NF-κB combinations, which needs to be considered when targeting this pathway in cancer therapies.Our results offer p65/p52, together with identified regulatory regions on genes impacting macrophage behavior and tumor biology, as novel molecular targets for TNBC, aimed at modulating TAMs functions towards anti-tumoral phenotypes and thus improving cancer treatment outcomes.

Network pharmacological mechanism analysis and evidence-based medical validation of Dahuang Mudan Decoction in the treatment of acute pancreatitis.

Dahuang Mudan Decoction is commonly used in China for the treatment of acute pancreatitis. Nevertheless, the therapeutic efficacy of the drug remains a subject of debate, and its active ingredients and potential therapeutic targets remain to be determined. The present study used a network pharmacological approach to investigate the active ingredients and possible targets of the drug, and illustrated the clinical effectiveness of Dahuang Mudan Decoction in the treatment of acute pancreatitis by meta-analysis. The present study investigated the active ingredients of the constituent herbs of Dahuang Mudan Decoction using the TCMID database. In order to further identify molecular targets, Swiss Target Prediction, OMIM and Genecards databases was be used. The present study used metascape database for gene ontology function enrichment analysis and Kyoto Genome Encyclopedia pathway enrichment analysis. A gene interaction network diagram was established for predicting the main targets and mechanism of action to Dahuang Mudan Decoction for acute pancreatitis. To further illustrate the validity of the gene targets and the clinical efficacy of the drug, 13 relevant studies were included for meta-analysis and analyzed using the Cochrane Collaboration's Review Manager 5.4 software. After a thorough screening process, the present study identified three main components of Dahuang Mudan Decoction: kaempferol, quercetin and eupatin. These three major components have the potential to target 5 important proteins: AKT1, TNF-a, IL-6, TP53, HIF1A. In addition, pathway analyses by the Kyoto Genome Encyclopedia showed that Dahuang Mudan Decoction is active through the Pathways in cancer, AGE-RAGE signaling pathway in diabetic complications, PI3K-Akt signaling pathway, etc signaling pathway to act on acute pancreatitis. The results of meta-analysis showed that compared with the control group, the experimental group had superior performance in terms of overall treatment efficacy, reduction of hospital stays and inflammatory factor levels after treatment. In summary, network pharmacological studies have shown that Dahuang Mudan Decoction affects acute pancreatitis through different components, targets, and mechanisms. In addition, the meta-analysis study strongly supported the effectiveness of Dahuang Mudan Decoction in the treatment of acute pancreatitis.

The Adenosinergic Pathway in Non-Small Cell Lung Cancer.

Immune checkpoint inhibitors (ICIs) targeting PD-(L)1 and CTLA-4 have revolutionized the systemic treatment of non-small cell lung cancer (NSCLC), achieving impressive results. However, long-term clinical benefits are only seen in a minority of patients. Extensive research is being conducted on novel potential immune checkpoints and the mechanisms underlying ICI resistance. The tumor microenvironment (TME) plays a critical role in modulating the immune response and influencing the efficacy of ICIs. The adenosinergic pathway and extracellular adenosine (eADO) are potential targets to improve the response to ICIs in NSCLC patients. First, this review delves into the adenosinergic pathway and the impact of adenosine within the TME. Second, we provide an overview of relevant preclinical and clinical data on molecules targeting this pathway, particularly focusing on NSCLC.

Network pharmacology and phytochemical composition combined with validation in vivo and in vitro reveal the mechanism of platycodonis radix ameliorating PM2.5-induced acute lung injury

Ethnopharmacological relevancePlatycodonis radix (PR), the root of Platycodon grandiflorus (Jacq.) A. DC., is a traditional Chinese medicine recognized for its dual role as both a medicinal and dietary substance, exhibiting significant anti-inflammatory properties. It is frequently utilized in the treatment of lung diseases. However, the molecular mechanisms by which PR exerts its effects in the treatment of acute lung injury (ALI) remain unclear. Aim of the studyThis study presents a novel strategy that integrates network pharmacology, molecular docking, untargeted metabolomics analysis and experimental validation to investigate the molecular mechanisms through which PR treats ALI. Materials and methodInitially, the bioactive components of PR, along with its targets and pathways in the treatment of ALI, were identified using network pharmacology. Following this, preliminary validation was conducted through molecular docking. The active ingredients in the aqueous extract of PR were characterized using HPLC-MS. Finally, in vivo and in vitro experiments were performed to further validate the findings from the network pharmacology. ResultsA total of 14 bioactive components and 156 effective targets were identified using the TCMSP, DisGeNET, Genecard, OMIM databases and Venny 2.1.0. Protein-protein interaction (PPI) analysis revealed 22 core targets including TP53, AKT1, STAT3 and JUN. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analyses indicated that these targets primarily participate in the regulation of cellular apoptosis, lung cancer and inflammatory pathways. Molecular docking demonstrated that four bioactive components exhibited strong affinities with their respective docking targets. LC-MS analysis confirmed that the aqueous extract of PR contained 87 components, including two active ingredients identified through network pharmacology and molecular docking. Preliminary validation was conducted in mice with ALI induced by acute PM2.5 exposure, revealing that the aqueous extract of PR reduced inflammatory factor levels in bronchoalveolar lavage fluid, enhanced antioxidant capacity in lung tissue, and decreased lung cell apoptosis in PM2.5-exposed mice. Notably, PR alleviated PM2.5-induced ALI through the STAT3, JUN, and AKT1 signaling pathways. Similarly, the results of in vitro intervention experiments further confirmed that the aqueous extract of PR protected pulmonary epithelial cells against PM2.5 exposure through activating AKT1 sinalling pathway, and inhibiting STAT3 and JUN signalling pathways. ConclusionThis study identifies the active components of PR and elucidates the molecular mechanisms by which PR alleviates ALI, specifically by inhibiting the phosphorylation levels of STAT3 and c-JUN, or by activating the phosphorylation level of AKT1. These results provide a foundational basis for the application of PR in the treatment or prevention of lung injuries induced by particulate matter.