📋 Browse Articles

Contact sports, including rugby union, are associated with higher rates of neurodegenerative dementia, due to various underlying pathologies such as Alzheimer's disease (AD) and chronic traumatic encephalopathy (CTE). New ultrasensitive multiplexed immunoassays may clarify disease mechanisms after repetitive head impacts (RHI) and traumatic brain injury, potentially aiding risk-stratification, early diagnosis and dementia treatment. Midlife participants in the ABHC cohort underwent plasma biomarker quantification (NULISA - NUcleic acid Linked Immuno-Sandwich Assay; n=124 markers), 3T MRI, trauma exposure ascertainment and phenotyping. Regressions quantified exposure-specific protein expression, relationship to trauma (including position) and brain atrophy, using cluster analysis to test correlates of traumatic encephalopathy syndrome (TES). 197 former elite rugby players and 33 controls were assessed. 24 (12.2%) met criteria for TES but none had dementia. Ex-players returned reduced plasma glial fibrillary acidic protein (GFAP), kallikrein-6 (KLK6) and synaptosomal-associated protein 25 (SNAP25). Ex-forwards specifically showed reduced plasma beta-site amyloid precursor protein cleaving enzyme 1 (BACE1), amyloid beta-38 (Aβ38), and increased phospho-tau Ex-players showed distinctive plasma biomarker changes, more prominently in ex-forwards, possibly reflecting greater RHI exposure. Plasma KLK6, an endothelial serine protease, was reduced across the ex-player group, with potential diagnostic or prognostic utility in future. Reduced GFAP and SNAP25 in ex-forwards has an uncertain basis, while elevated p-tau- Show less

Dibutyl phthalate (DBP) is a member of phthalate esters which are considered as potent environmental toxicant owing to their damaging effects on different organs including testis. Glabridin (GLN) is a polyphenolic substance that is found in the roots of Glycyrrhiza glabra and exhibits a wide range of pharmacological activities. This research investigation explored the ameliorative potential of GLN against DBP instigated testicular toxicity. Forty-eight male Sprague Dawley rats were categorized into control, DBP (200 mg/kg), DBP (200 mg/kg) + GLN (50 mg/kg), and GLN (50 mg/kg) group. We found that DBP administration exacerbated the gene expression of β-catenin, WNT1, and TCF7L2 while suppressed the gene expression of APC, AXIN1 as well as GSK3β. Furthermore, DBP exposure promoted the levels of reactive oxygen species (ROS) and malondialdehyde (MDA) while suppressing the activities of superoxide dismutase (SOD), heme oxygenase-1 (HO-1), glutathione reductase (GSR), glutathione Peroxidase (GPx), catalase (CAT), and glutathione (GSH). Moreover, DPB administration exacerbated Caspase-9, Bax and Caspase-3 while diminishing Bcl-2 concentrations. A notable escalation was observed in the levels of interleukin-6 (IL-6), tumor necrosis factor- α (TNF-α), cyclooxygenase-2 (COX-2), interleukin-1β (IL-1β), and nuclear factor- kappa B (NF-κB) following the administration of DBP. Besides, DBP intoxication distorted the normal morphology of testicular tissues. Nonetheless, GLN therapy significantly alleviated testicular impairments via regulating aforementioned biochemical and histological abnormalities. These findings suggest he palliative efficacy of GLN against DPN induced testicular damages thereby recommending the use of GLN to promote reproductive health in male. Show less

To characterize ultra-processed food (UPF) circulating metabolic signatures associated with Crohn's disease (CD) and to localize key metabolic mediators linking UPF intake to CD risk. Prospective cohort study. Two large multi-center cohorts (UK Biobank [UKB] and Whitehall II [WHII] study) across the UK and an Eastern multi-center cohort ONE-IBD Study from China. UK Biobank discovery cohort (n=10,229) for signature derivation, internal validation cohort (n=91,306), external validation cohort Whitehall-II (n=7,893), and three additional cohorts (two Western and ONE-IBD) for validation of key metabolic drivers. Primary outcomes were UPF-related circulating metabolic signatures and their associations with CD risk; secondary outcomes included evidence supporting causal roles of candidate metabolites and genetic pathways assessed by Mendelian randomization, colocalization, and gene-environment analysis. A UPF metabolic signature of 73 metabolites was constructed and validated across cohorts (Spearman ρ: 0.20-0.25). More pronounced UPF metabolic signature was associated with increased CD risk (HR The adverse effects of UPF on CD risk may be driven by a relative deficiency of protective metabolites such as DHA, apart from additive harm to metabolic depletion. This reframes UPF-related risk and highlighting potential targets for precision nutrition in CD prevention. Show less

Liver metastasis is the predominant cause of mortality among individuals diagnosed with colorectal cancer (CRC). However, the mechanisms underlying the tumor-microenvironment interactions that promote this process remain poorly defined. Here, we developed an integrative multiomics framework to dissect the cellular and molecular determinants of colorectal cancer liver metastasis (CRLM). By analyzing 1,156 metastasis-associated genes, we identified three molecular subtypes with distinct prognostic and immunometabolic features: C1 with mixed phenotypes and favorable survival, C2 with metabolic activation and immune suppression, and C3 with immune activation and signaling dysregulation, which had the poorest outcomes. Mechanistically, we discovered that SPP1⁺ macrophages secrete PDGFB, which activates PDGFRB signaling in FADS1⁺ tumor cells to trigger epithelial-mesenchymal transition (EMT) and promote liver metastasis. This macrophage-tumor crosstalk was validated by single-cell transcriptomics, genetic perturbation, and coculture experiments. Collectively, our findings define a macrophage-derived PDGFB-PDGFRB axis that drives CRC liver metastasis and highlight a potential therapeutic target for overcoming metastatic progression and immune resistance. Show less

Hypertrophic cardiomyopathy (HCM) is caused by mutations in sarcomere-related genes, with MYBPC3 being the most common. Documenting potential genotype-phenotype associations may allow for more personalized genetic counselling. Observational case-control, cohort, and cross-sectional studies reporting genotype-phenotype associations and the occurrence of predefined events were selected from Cochrane and Medline databases. A random- effects meta-analysis was conducted. Twenty-four studies were included, with 3869 patients enrolled. The mean age at diagnosis of HCM associated with mutations in the MYBPC3 gene was 39.8 years (95 % CI 32.96 to 46.55), and the mean maximum left ventricular thickness was 20.4 mm (95 % CI 19.72 to 21.06). Proportion rates were 12.6 % (95 % CI 5.7 to 21.5 %) for septal reduction therapy, 20.4 % (95 % CI 11.9 to 30.2 %) for the development of heart failure New York Heart Association (NYHA) III/IV functional class, 16.1 % (95 % CI 10.3 to 22.6 %) for the occurrence of atrial fibrillation, and 26 % (95 % CI 17.0 to 36.1 %) for ventricular tachycardia. Cardioverter-defibrillators were implanted in 31.4 % (95 % CI 18.6 to 45.6 %) for secondary prevention, and sudden cardiac arrest occurred in 14.7 % (95 % CI 7.8 to 23.0 %) of patients. Cardiovascular death occurred in 8.6 % of patients over a median of 73 months of follow-up. This is the largest meta-analysis of MYBPC3 HCM patients to date. We were able to obtain data on the proportion rates of events in this population, which allows to answer some questions about the clinical course of HCM disease associated with mutations in the MYBPC3 gene more clearly. We found not only a late disease onset and low mortality risk, but importantly, a non-negligible risk of developing severe heart failure throughout life. Show less

The global prevalence of metabolic dysfunction-associated steatotic liver disease (MASLD) continues to rise, and the accurate, non-invasive assessment of liver fibrosis remains an important clinical challenge. This study aimed to identify ferroptosis biomarkers associated with MASLD-related liver fibrosis progression, explore their potential biological links with MRI-derived parameters, and provide new clues for developing non-invasive diagnostic strategies for ferroptosis. A MASLD-related liver fibrosis model was established using 30 Sprague-Dawley (SD) rats. Hub differentially expressed ferroptosis-related genes (DE-FRGs) were identified through the integration of weighted gene co-expression network analysis (WGCNA), differential expression analysis, and LASSO regression. The role of ferroptosis in MASLD was evaluated using transmission electron microscopy (TEM) and measurements of glutathione (GSH) and Fe²⁺ content. T2*, R2*, and proton density fat fraction (PDFF) were obtained through magnetic resonance imaging (MRI) and were analyzed for correlations with hub DE-FRGs and Fe²⁺ levels. A total of eight hub DE-FRGs were identified: Pck2, Idh2, Nr1d1, Fads1, Sat1, Abhd12, Got1, and Srebf1. Enrichment analyses revealed that these hub DE-FRGs were predominantly implicated in carbohydrate response, amino acid biosynthesis, insulin resistance, and the AMPK signaling pathway. TEM and biochemical markers analyses demonstrated an association between MASLD-related liver fibrosis and ferroptosis. MRI‑derived parameters were significantly correlated with Fe²⁺ levels and the expression of hub DE-FRGs. This study preliminarily identified hub DE-FRGs associated with liver fibrosis in MASLD and their signaling pathways, verified indirect indicators related to ferroptosis, and proposed their potential correlation with MRI-derived parameters. Show less

Perirenal fat deposition significantly impacts sheep carcass quality and economic efficiency. To elucidate the underlying genetic regulation, we performed a genome-wide association study (GWAS) on 556 Hu sheep and a comparative transcriptome analysis on 24 Hu sheep (12 with high- and 12 with low-perirenal fat deposition), all with accurate phenotypic records. Furthermore, hub genes and tissue-specific genes (TSGs) were discerned through weighted gene co-expression network analysis (WGCNA) and by leveraging RNA-Seq data from 12 tissues, respectively. qRT-PCR is used to validate the accuracy of RNA-Seq data. GWAS identified significant SNPs near genes including SETD4, TIMP2, SOCS3, and DNAH17. Comparative transcriptome analysis of HPF and LPF groups identified 2072 differentially expressed genes (DEGs), which were significantly associated with lipid storage (LPL), fatty acid homeostasis (APOE, GOT1), and biosynthesis (ACACA). A total of 2333 differential alternative splicing events were identified in 1169 genes, with skipped exons (SE, 30.65 %) being the most common. GO analysis of these SEs showed links to RNA splicing and lipid metabolism, with genes like BSCL2, DGAT1, PLIN5, and PNPLA2 involved in lipid droplet organization and triglyceride storage. WGCNA revealed key modules that were positively and negatively correlated with perirenal fat deposition, emphasizing hub genes (SAR1B, THRSP, ACSS2, KIF5B) associated with lipid droplet organization and metabolism. The integrated analysis of GWAS and RNA-seq identified TIMP2, SOCS3, and DNAH17 as potential key genes involved in regulating perirenal fat deposition in sheep. An association analysis of 372 Hu sheep populations identified significant links (P < 0.05) between perirenal fat deposition traits and mutations in the TIMP2 (g.9759169 G > A) and DNAH17 (g.9494469C > T) genes. Crucially, tissue-specific gene analysis across 12 tissues identified 448 perirenal fat TSGs, of which 75 were also differentially expressed genes (e.g., LPL, THRSP, LEP, ADRB3). In conclusion, our multi-omics study identified key genes influencing perirenal fat deposition in sheep. Notably, mutations in TIMP2 and DNAH17 could serve as candidate markers for enhancing carcass quality through marker-assisted selection. Show less

Hypertrophic cardiomyopathy (HCM) is a common genetic heart disease characterized by left ventricular (LV) hypertrophy that cannot be fully explained by abnormal loading conditions. To describe the clinical spectrum, morphological variants and sarcomere gene mutations in patients with HCM from northwestern Mexico. We conducted a prospective, cross-sectional study of patients diagnosed with HCM by echocardiography. Morphological variants were classified as: asymmetric septal, concentric, mid-cavity, lateral, and apical according to the location of the greatest LV thickening. Next-generation sequencing was performed with a predesigned panel of 19 genes associated with HCM. A total of 110 patients (47.3% women; median age 58) were enrolled. Apical HCM was the most frequent morphological variant (42%), followed by asymmetric septal HCM (35%). Patients with apical HCM were older than those with other variants (p = 0.002). Patients with asymmetric septal hypertrophy had a higher septal/posterior wall thickness ratio (1.85 ± 0.6, p = 0.0001) and a larger left atrial anteroposterior diameter (48 ± 9, p = 0.0001). LV outflow obstruction, systolic anterior motion, and severe mitral regurgitation were more prevalent in patients with asymmetric septal HCM (p = 0.0001). Patients with concentric HCM had the greatest E/e' ratio (16.3 ± 8, p = 0.01). Among genotyped patients, 44% had a sarcomeric gene mutation, most commonly MYBPC3 (24%) and MYH7 (7%), with no significant differences across morphological variants. Apical HCM was the most frequent morphological variant of HCM in the studied population. Consistent with global reports, MYBPC3 and MYH7 were the most commonly identified gene mutations. Show less

Brain aging is characterized by memory loss and cognitive impairment. With the growth of the population and advances in medical care, the size of the aging population is increasing. Therefore, the discovery of anti-aging drugs has become a popular topic in recent years. Fibroblast growth factor 21 (FGF21) has been reported to inhibit oxidative stress, reduce inflammation, and delay senescence. The present study was designed to investigate the effects of recombinant human FGF21 (rhFGF21) on senescence in the brain in a mouse model of D-galactose (D-gal)-induced aging. The behavioral tests revealed that rhFGF21 improved D-gal-induced learning and memory impairment in mice. RhFGF21 improved the morphology of cortical and hippocampal neurons and increased the expression of PSD95 in the model mice. RhFGF21 reduced the number of microglia and astrocytes in the cortex and hippocampus, increased the activities of the antioxidant enzymes (GSH-PX, CAT, and SOD), and inhibited the expression of p-NFκB and p53 proteins, as well as the mRNA expression of the inflammatory cytokines (IL-1β, IL-6, TNFα, and iNOS). SIRT1 regulates senescence and inflammation, and FGF21 participates in physiological and pathological processes by binding to the FGFR1. Therefore, we measured SIRT1 and activated FGFR1 (p-FGFR1) levels. RhFGF21 administration increased the expression of cortical and hippocampal SIRT1 and p-FGFR1 in D-gal-induced aging mice. These data suggested that rhFGF21 alleviated learning and memory impairment in a mouse model of D-gal-induced aging by increasing antioxidant enzyme activity, inhibiting inflammation, and senescence-related gene expression via modulating FGFR1 and SIRT1. Show less

Testicular adult granulosa cell tumors (AGCTs) are rare and show several clinical, pathological, and molecular differences with their ovarian counterparts. FOXL2 p.Cys134Trp, the ubiquitous molecular driver of ovarian AGCTs, is infrequent (~ 7%) in testicular AGCTs. Recently, FGFR1 hotspot mutations were reported as a potentially "alternative molecular driver" in FOXL2-wild type (WT) ovarian AGCTs. A systematic assessment of FGFR1 status has not been performed in testicular AGCTs. Recently, our group analyzed a series of twenty testicular AGCTs using two NGS panels that lacked coverage of FGFR1. Among twelve cases analyzed successfully, none harbored pathogenic FOXL2 variants. In this study, we reassessed the tumors from our prior series with an NGS panel that covers FGFR1. Among the 14 tumors (70%) that were sequenced successfully, none harbored pathogenic FGFR1 variants. Considering the AGCTs assessed in this study and those previously reported in the literature, none of the 24 tumors analyzed to date have shown pathogenic FGFR1 variants. The present study reinforces the concept that testicular sex cord-stromal tumors classified as AGCTs are different from ovarian counterparts. Show less

Endometriosis is a heterogeneous chronic inflammatory disorder associated with substantial diagnostic delay and limited therapeutic options, highlighting the need of robust non-invasive biomarkers and actionable molecular targets to complement existing low-sensitivity tests. To identify conserved pathogenic mechanisms with translational potential, here, we uniformly reprocessed three independent the Gene Expression Omnibus (GEO) microarray cohorts (GSE7305, GSE25628, and GSE11691) and applied a strict, directionally consistent intersection strategy to identify conserved transcriptional signals. We identified 262 consensus differentially expressed genes enriched for immunity/inflammation, cell adhesion and migration, and angiogenesis, consistent with key biological hallmarks of lesion establishment and persistence. Protein-protein interaction topology prioritized 11 highly connected hub genes ( Show less

Obesity is a well-established risk factor for asthma pathogenesis. However, the underlying mechanisms remain incompletely understood, and effective therapeutic interventions are currently lacking, making asthma management in obese individuals particularly challenging. Asthma is characterized by chronic airway inflammation, eosinophilic infiltration, and airway hyperresponsiveness (AHR). In this study, we investigated the novel role of fibroblast growth factor 21 (FGF21), a stress-inducible hepatokine with pleiotropic metabolic regulatory functions, in obesity-associated AHR using a diet-induced obesity mouse model (n = 10). Serum samples were collected from obese and lean asthma patients, along with relevant clinical indicators, including body mass index (BMI), forced expiratory volume in 1 second (FEV1%), and the FEV1/forced vital capacity (FVC) ratio, to facilitate the investigation. Moreover, diet-induced obese mice with innate AHR (male, n = 10) were employed to clarify the effects of FGF21 and FGF21-neutralizing antibody on obesity induced AHR. In vitro, LAD2 human mast cells and P815 murine mast cells activated by compound 48/80 were used to elucidate the underlying mechanisms. Our findings demonstrate that serum FGF21 levels exhibit reportedly elevated in participants with obesity and are associated with impaired pulmonary function. In diet-induced obese (DIO) mice, FGF21 levels were increased in both serum and bronchoalveolar lavage fluid (BALF). In vivo investigations demonstrate that administration of recombinant FGF21 exacerbated AHR in DIO mice, whereas FGF21-neutralizing antibody treatment ameliorated obesity-induced AHR and suppressed mast cell infiltration. Mechanistically, FGF21 was found to potentiate mast cell activation through cholesterol biosynthesis modulation. Crucially, pharmacological inhibition of FGFR1 abrogated FGF21-induced mast cell hyperactivity and cholesterol synthesis, indicating FGFR1-dependent signaling in this process. These findings may represent the FGF21/FGFR1 axis as a potential therapeutic target for obesity-related AHR and asthma. Show less

Accurately predicting the bioactivity of small molecules against cancer therapeutic targets remains a significant challenge at the intersection of cheminformatics and drug discovery. This study comprehensively evaluates chemical representations, including AtomPair Counts (APC),Avalon (AVN), Extended-Connectivity Fingerprint diameter 4 (ECFP4), Extended-Connectivity Fingerprint diameter 6 (ECFP6), Feature-based Morgan 2 (FM2), Feature-based Morgan 3 (FM3), Mol2Vec (M2V), Molecular ACCess System (MACCS), Mordred 2D Chi Kappa (MK2), RDKFingerprint (RDF), Rdkit PhysChem (RDC), Torsion (TSN) combined with machine learning algorithms (Bayesian Ridge (BRG), Elastic Net (ENT), Extra Trees (ETT), Hist Gradient Boosting (HGT), K-Nearest Neighbors (kNN), Lasso (LSS), Multi-layer Perceptron (MLP), Partial least squares (PLS), Random Forest (RFT), Ridge (RDG), Support Vector Regressor (SVR), and XGBoost (XGB)) for predicting cancer bioactivities. The results show that while AVN chemical representation, in conjunction with SVR algorithm, achieved the highest predictive accuracy, with R2 of 0.735 in FGFR1 dataset; The mTOR dataset demonstrated the highest average performance across all models and chemical representations, with an R2 of 0.592 across various cancer datasets. These findings demonstrate how cheminformatics tools like molecular fingerprints and quantitative structure-activity relationship (QSAR) modeling can significantly enhance bioactivity prediction, ultimately contributing to more efficient and targeted cancer drug discovery. Show less

ObjectiveThis review synthesizes current evidence on the efficacy of acupuncture in managing chemotherapy-induced peripheral neuropathy (CIPN) in cancer patients, focusing on its mechanisms, clinical applications, and future research directions.MethodsThis narrative review synthesizes and critically appraises findings from randomized controlled trials (RCTs), meta-analyses, and preclinical studies, evaluating acupuncture's impact on pain relief, neurological function, and quality of life. Key databases were searched for studies published up to 2024.ResultsNineteen RCTs ( Show less

Acute lymphoblastic leukemia (ALL) is the most common childhood malignancy and most often presents with an increase in the number of blasts in the peripheral blood and bone marrow. Although ALL typically presents with circulating blasts, atypical findings such as hypereosinophilia may obscure diagnosis and delay appropriate management. Severe eosinophilia in patients with ALL is a very rare phenomenon and is usually associated with specific genetic abnormalities or myeloid malignancies. The combination of severe eosinophilia, bicytopenia, and cardiac mass is unusual and challenging in diagnosis and treatment. A 4-year-old male patient, with no significant past or family history, presented to the emergency department with persistent fever. On initial examination, hepatosplenomegaly was evident. Blood tests showed WBC = 125,000cell per microliter, Hb = 8.7 g/dL, Plt = 77,000 per microliter, and severe eosinophilia (73.4%) absolute eosinophil count 91,250. A peripheral blood smear showed abundant mature eosinophils without blasts. Chest imaging showed bilateral pulmonary involvement, and ultrasonography showed bilateral pleural effusion. Echocardiography revealed a mass in the right ventricle suggestive of thrombus formation or infiltration, along with some degree of heart failure. Molecular tests for BCR-ABL, PDGFRα, PDGFRβ, FGFR1, and t (5:14) were negative, and bone marrow flow cytometry was also negative. Bone marrow biopsy with immunohistochemistry confirmed the diagnosis of Pre-B acute lymphoblastic leukemia with positive CD20 and TdT. The patient underwent protocol treatment and the MRD at the end of induction was reported to be 0.0011% and the biopsy was negative. The cardiac mass was also resolved during chemotherapy treatment. This case emphasizes the importance of noting unusual eosinophilia with bicytopenia, even in the absence of peripheral blasts, and the need for bone marrow biopsy and immunohistochemical examination for accurate diagnosis. Show less

Hypoparathyroidism is a rare endocrine condition characterized by insufficient secretion of parathyroid hormone (PTH), resulting in abnormally low calcium levels (hypocalcemia) and elevated phosphate levels (hyperphosphatemia) in the blood. This report describes a man in his late 30s with a chronic skin condition marked by dryness and desquamation. He occasionally experienced mild perioral numbness. Over the past year, he developed recurrent neuromuscular irritability, including worsening perioral numbness, tingling or numbness in the hands and feet, and muscle spasms consistent with tetany. He was diagnosed with hypoparathyroidism, and his symptoms improved markedly after calcium and calcitriol supplementation. Genetic testing revealed a novel heterozygous c.2298C>G (p. Tyr766Ter) mutation in exon 18 of the fibroblast growth factor receptor 1 gene. This case report aimed to describe this novel mutation and its potential role in the pathogenesis of primary hypoparathyroidism and to discuss relevant diagnostic and therapeutic management strategies. In addition, it broadens our understanding of genetic mutations associated with hypoparathyroidism and provides clinically relevant diagnostic information that may benefit future patients with the similar genetic alteration. Furthermore, it underscores the importance of genetic analysis in elucidating the heterogeneity and complexity of hypoparathyroidism, thereby supporting the development of more precise and tailored treatment approaches. Show less

Left ventricular noncompaction cardiomyopathy (LVNC; OMIM No. 604169) is anatomically characterized by excess trabeculation and deep intertrabecular recesses. It is the third most prevalent pediatric cardiomyopathy. Despite its clinical significance, the pathogenesis of LVNC remains uncertain. We examined Numb expression in epicardial cells (EpiCs) and epicardial-derived cells (EPDCs) using a mCherry::Numb knock-in mouse line; used Numb is enriched in EpiCs and EPDCs. In EDKO hearts, EPDCs displayed abnormal differentiation, and their migration was arrested at the outer compact zone, resulting in the absence of EPDCs in the inner compact zone and trabeculae. The EDKO hearts displayed LVNC, and inducible EpiC-specific Ablation of NFPs (Numb family proteins) in EpiCs disrupted the invasion and differentiation of EPDCs and the communication between cardiomyocytes and other cells, and caused LVNC. The epithelial-mesenchymal transition and compaction defects can be partially rescued by exogenous Fgf2 supplementation. Our findings highlight an essential role for the epicardial NFPs-Fgf/Fgfr axis in regulating ventricular compaction. Show less

Gynecologic carcinosarcoma is an uncommon but aggressive malignancy that frequently requires systemic therapy but therapeutic options are limited. Development of preclinical models is therefore important for therapeutic advancement. Carcinosarcoma tumor (6 uterine and 1 tubo-ovarian) from 7 surgical samples were implanted into immunocompromised mice for patient-derived xenograft (PDX) and/or cell line development. The histologic, immunophenotypic and genetic features were characterized. Based on the observed molecular profiles and targetable molecular alterations, in vivo studies were conducted to evaluate the efficacy of targeted therapy on tumor growth. We established 1 cell line and 6 PDX models which recapitulated the dominant phenotype of the respective parental tumors with preserved mesenchymal differentiation lineage in the sarcomatous component. Genomically, the PDX/cell line models preserved similar complex pattern of copy number alterations and similar mutation landscape when compared to the respective parental tumors. All 7 parental carcinosarcoma tumors and PDX/cell line models harbored pathogenic TP53 mutations. Moreover, we identified recurrent copy number gain/amplification involving several receptor tyrosine kinases (RTK), including amplification and protein over-expression of FGFR1. In vivo drug evaluation using a small molecule inhibitor (AZD4547) of FGFRs showed significant growth inhibition in the carcinosarcoma PDX tumor with the highest FGFR1 amplification and protein expression whereas AZD4547 showed no significant growth effects on carcinosarcoma lacking high level FGFR1 amplification, indicating oncogenic dependency on the amplified RTK pathway. These findings demonstrate the utility of patient-derived tumor models in the identification and the functional validation of potentially targetable molecular alterations in preclinical setting. Show less

Early detection of myocardial abnormalities or other ischemic heart diseases is critical for effective treatment. Here, we aimed to engineer a cell-based system to sense cardiac troponin I (cTnI), an early marker of acute myocardial infarction (AMI), and respond by releasing a thrombolytic agent. To detect cTnI, we engineered a chimeric troponin receptor (TropR) that contains extracellular single-chain variable fragments (scFvs) and signals via intracellular domains of interleukin 6 receptor subunit beta (IL6RB), epidermal growth factor receptor (EGFR), fibroblast growth factor receptor 1 (FGFR1), fibroblast growth factor receptor 2b (FGFR2b) or vascular endothelial growth factor receptor 2 (VEGFR2) that are associated with cardioprotective signaling. cTnI-dependent TropR functionality was confirmed in human embryonic kidney (HEK)-derived cell lines as well as iPSC-derived cardiomyocytes, and enabled rapid, reversible, tunable control of gene expression via synthetic-signaling-specific promoters. We then constructed monoclonal cell lines for cTnI-induced secretion of the thrombolytic protein tenecteplase (TNK), together with an off-switch triggered by FDA-approved doxycycline. We selected a clone, designated CardioProtect, whose sensitivity was optimized to detect human AMI-relevant cTnI levels. To validate thrombolytic efficacy, we established an ex vivo blood culture system and show that alginate-microencapsulated CardioProtect cells triggered complete lysis of fibrin clots in a strict cTnI-inducible, doxycycline-repressible manner. This closed-loop strategy serves as a proof-of-concept for using cell therapy in the early detection and treatment of AMI. Show less

Megalencephalic leukoencephalopathy with subcortical cyst (MLC) is a rare leukodystrophy primarily caused by mutations in two genes: MLC1, encoding a membrane protein of unknown function, and GlialCAM, a cell adhesion molecule. Although MLC1 has been implicated in downregulating signaling pathways, its molecular mechanisms remain elusive. Recently, the orphan G-protein-coupled receptor GPRC5B was identified as a novel interactor of both GlialCAM and MLC1, with dominant heterozygous mutations found in MLC patients, suggesting that GlialCAM and MLC1 may regulate cell signaling via GPRC5B. Here, we show that GPRC5B exhibits constitutive activity, which is inhibited by MLC1, likely through interference with GPRC5B oligomerization. Conversely, GlialCAM enhances β-arrestin 2 recruitment, leading to its own mislocalization from cell-cell junctions. MLC-associated GPRC5B mutants show enhanced maturation and increased stability at the plasma membrane, retain normal constitutive activity and responsiveness to MLC1 and GlialCAM but display increased affinity for GlialCAM and localize to cell-cell junctions in its presence. Notably, coexpression of GlialCAM with these mutants does not induce GlialCAM mislocalization. We propose a model in which finely tuned interactions among GPRC5B, GlialCAM, and MLC1 regulate receptor signaling. These findings provide the first biochemical evidence of GlialCAM and MLC1 modulating GPRC5B activity, suggesting a biochemical explanation for the gain-of-function phenotype observed in GPRC5B MLC mutants. Importantly, our work supports the potential of targeting GPRC5B as a therapeutic strategy in MLC. Show less

This study aimed to identify breast cancer-specific circulating tumor DNA (ctDNA) methylation markers that correspond to tissue DNA methylation. Using The Cancer Genome Atlas (TCGA) database, we selected breast cancer-specific DNA methylation markers. The methylation and expression patterns of candidate genes were analyzed in breast cancer cell lines and tissue samples. We also assessed the methylation status in ctDNA obtained from breast cancer patients and examined associations with the clinicopathological features. Among candidate genes with breast cancer-specific methylation patterns, USP44, ZNF454, and GPRC5B were selected. The methylation status and expression of selected genes varied by molecular subtype of cancer in the cell line. In tissue samples, expression of all three genes was generally lower in breast cancer than in controls. ctDNA methylation patterns showed no significant change before and after treatment for each candidate gene. Correlations between gene expression and DNA methylation status or clinicopathological characteristics in cancer tissues differed among genes. Further studies are needed for clinical application of liquid biopsy using methylation analysis for ctDNA according to individual characteristics for breast cancer. Show less

Alzheimer's Disease (AD) is the leading cause of dementia, accounting for 60-70 % of cases worldwide. Early diagnosis remains challenging due to the limitations of current diagnostic tools, which are costly, invasive, and suffer from low patient compliance. Blood-based biomarkers, particularly plasma brain-derived exosomes (BDEs), have emerged as a promising alternative since they carry AD-related molecules and can be isolated non-invasively. In this study, an immunoassay was developed to isolate BDEs using magnetic particles functionalized with an anti-neuroligin-3 (NLGN3) antibody, while the AD-related marker β-secretase (BACE-1) was detected on the captured exosomes. This is the first report combining NLGN3 for for the isolation of BDEs with BACE-1 as a detection target, establishing a novel biomarker panel for AD diagnostics. The assay was evaluated across three readout platforms-optical, chemiluminescent, and electrochemical-with detection limits in the range of 10 Show less

Thoracic aortic aneurysms frequently go undetected until serious complications like acute dissections or ruptures arise. Therefore, this study aims to identify potential blood circulating biomarkers enabling an easy and early diagnosis of thoracic aortic disease. Potential biomarker candidates were identified through two different techniques, untargeted and targeted proteomic as well as extracellular vesicle (EV) analyses. The biomarker levels were compared between two patient groups with thoracic aortic aneurysms and two control groups without thoracic aortic disease. In total, 80 patients (TAA group (n = 40) vs. control group (n = 40)) were matched for untargeted and targeted proteome analysis, and 85 for EV analysis (TAA group (n = 42) vs. control group (n = 43)), based on the availability of blood samples and excised aortic tissue. Levels of biomarker candidates were correlated with aortic diameter, patient age, and histological alterations in aortic tissue using linear and logistic regression models. The untargeted proteomic and EV analysis identified 1,037 and 1,077 proteins, respectively, of which 11 and 28 proteins showed significant differences in concentration between the study groups. Of these, 9 proteins correlated with the aortic diameter: ACTN1 (Regression coefficient B = 1.633, p < 0.001), CRP (B = 0.001, p = 0.004), TGM3 (B=-0.293, p = 0.010), KRT84 (B=-0.477, p = 0.010), IGHG3 (-0.267, p = 0.018), DPYSL2 (B = 0.644, p = 0.020), TSPAN8 (B-0.838, p = 0.042), IGKV3D-11 (B=-0.242, p = 0.046), and VDAC1 (B=-0.491, p = 0.047). Moreover, IGKV3D-11 (B=-3.257, p = 0.029), IGHG3 (B=-0.003, p = 0.034), and APOC3 (B=-2.104, p = 0.037) showed significant correlations with the grade of aortic medial layer degeneration. None of the proteins correlated with patient age. The study identified 9 biomarker candidates correlating with the aortic diameter. To enable the clinical use for diagnosis and prognostic assessment, these biomarkers need to be validated in larger external cohorts. Show less

To investigate cognitive status in patients with interstitial lung disease (ILD) and its association with lung tissue transcriptomic alterations, and to propose potential lung-brain interaction mechanisms and clinical implications. We enrolled 45 ILD patients and 45 age-matched controls and compared Mini-Mental State Examination (MMSE) total and subscale scores. Baseline laboratory and pulmonary function characteristics of ILD were summarized. Using lung tissue RNA-seq data from GSE213001 {29 ILD cases [20 idiopathic pulmonary fibrosis (IPF), 9 non-IPF], 14 non-diseased controls [NDC], totaling 139 samples}, we performed PCA, differential expression analysis using the limma-voom framework with the duplicate Correlation function to account for within-donor correlations (threshold |log ILD patients showed significantly lower MMSE total scores than healthy controls, with notable declines in attention/calculation and orientation. At the transcriptomic level, PCA clearly separated ILD from NDC, whereas IPF and non-IPF did not form distinct subgroups. Differential analysis identified 1,544 DEGs (1,142 upregulated; 402 downregulated). Enrichment analysis confirmed strong signals for inflammatory and fibrotic pathways. In an exploratory analysis, we also observed enrichment for terms related to nervous system function. The expression trends of several genes previously implicated in neurocognitive contexts, including PSEN1, PSEN2, BACE1, showed a directional concordance with patterns described in neurodegenerative contexts. This study provides preliminary evidence linking ILD to cognitive impairment on screening and identifies intriguing overlaps between lung tissue transcriptomic alterations and pathways relevant to brain function. These convergent observations lend biological plausibility to, and motivate further investigation of, a lung-brain axis hypothesis in ILD. The findings highlight the need to consider cognitive health in ILD management and warrant validation in longitudinal cohorts with detailed neuropsychological phenotyping. Show less

Alzheimer's disease (AD), a progressive neurodegenerative disorder, remains one of the greatest medical challenges because of its multifactorial nature. In recent years (2015-2025), benzothiazole-based compounds have gained increasing attention as promising scaffolds for the development of anti-Alzheimer agents. This comprehensive review focuses on the biological evaluation and structure-activity relationship (SAR) trends of benzothiazole derivatives targeting key enzymes and pathways implicated in AD. These include acetylcholinesterase (AChE), butyrylcholinesterase (BuChE), β-secretase (BACE1), monoamine oxidase A and B (MAO-A, MAO-B), receptor-interacting protein kinase 1 (RIPK1), human DYRK1A (hDYRK1A), and human CLK1 (hCLK1). Benzothiazole hybrids with diverse heterocyclic frameworks have been explored, and SAR analysis suggests that the presence of electron-withdrawing substituents in the molecules significantly enhances their potency against Alzheimer's targets. Many of these compounds demonstrate strong in vitro activity, multitarget inhibition potential, and favorable interaction profiles in docking studies, highlighting their relevance as multitarget-directed ligands. This review consolidates data from the last decade to provide insights into the structural features contributing to anti-Alzheimer's activity and offers directions for the rational design of more selective, efficacious, and brain-penetrant benzothiazole derivatives. Future research should focus on optimizing pharmacokinetic properties, improving blood-brain barrier permeability, and validating in vivo efficacy of the designed molecules. Overall, benzothiazole remains a valuable and versatile scaffold in the ongoing search for effective therapeutics for AD. Show less

Chronic low-grade inflammation underlies many microvascular complications of diabetes, including diabetic kidney disease (DKD). Lipoxins (LXs), an endogenously produced family of lipid mediators, resolve inflammation and protect against renal scarring as occurs in DKD. This study examined the mechanism by which LXs protect against DKD, focusing on the regulation of VCAM-1 and the recruitment of macrophages to the diabetic glomerulus. LXA4 and two fourth-generation mimetics were assessed in diabetic ApoE knockout mice, followed by in vitro studies in the main renal cell populations, including podocytes, proximal tubular, mesangial, and glomerular endothelial cells. LXs attenuated albuminuria, mesangial expansion, and collagen and fibronectin deposition as both a preventive and delayed intervention in experimental DKD. LXs also consistently attenuated the TNF-α-induced expression of VCAM-1 in all the human and mouse renal cell populations examined. Further analysis identified that the renoprotection was in part mediated by an epigenetic modification of the VCAM-1 gene through H3K4 monomethylation, which did not appear to be dependent on NF-κB activation in human glomerular endothelial cells. LXs protect against DKD by modulating glomerular endothelial cell inflammation and via a novel LX-mediated epigenetic mechanism regulating the VCAM-1 promoter in these cells. Lipoxins (LXs) protect against diabetic kidney disease (DKD) by resolving chronic low-grade inflammation, but the exact mechanism by which this occurs is not known. We investigated the effect of LXs on inflammatory markers and the recruitment of macrophages to the diabetic glomerulus by using LXs as both a preventive and delayed interventional treatment in streptozotocin-induced diabetic ApoE knockout mice. Protection against DKD was associated with reduced glomerular macrophage accumulation. LXs also attenuated the expression of VCAM1 in glomerular endothelial cells. LXs protect against DKD in part by a mechanism that reduces VCAM1 gene expression via H3K4 monomethylation on the VCAM1 gene. Show less