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With less than two years remaining from 2027-the year which the government has targeted to achieve zero Indigenous cases, we map the malaria indicators across the 700 + districts for five years between 2019 and 2023 using spatiotemporal maps and also assess the potential drivers of malaria transmission in different regions. We used the annual district-wise malaria data from the National Center for Vector Borne Disease Control Programme (NCVBDC) and the cross-sectional socio-economic data from the National Family Health Survey. We also collated the meteorological and land-use land-cover data from the MERRA-2 and Sentinel-LPA satellites, respectively. We then developed region-specific ensembles of spatiotemporal models that allowed us to identify the associated covariates while the regions were identified using the Getis-Ord Gi* statistics. With 0.33 million malaria cases in 2019, the COVID-19 pandemic led to a significant reduction in reported cases. The P. falciparum affected regions are widespread in North-eastern and Central India. However, after the pandemic, an emerging geographical expansion into the north-eastern parts is observed for the P. vivax, which is evident from the clusters and the spatiotemporal ensemble models. Population belonging to scheduled castes and scheduled tribes and those economically marginalised are among the most vulnerable, but lifestyle habits such as drinking water practices, maternal education, and healthcare accessibility are associated with malaria transmission. We also developed a digital dashboard that allows the general public and the stakeholders to track the malaria indicators for each district and the corresponding year. Show less

Cancer cells fulfil their energy requirements by acquiring fatty acids (FAs) through both de novo synthesis and exogenous uptake. Although studies have focused on de novo FAs synthesis in papillary thyroid cancer (PTC), research on exogenous FAs uptake is scarce. Lipoprotein lipase (LPL), which enhances cellular FAs uptake, serves as the focal point of this study, which explored the role of LPL-mediated exogenous FAs uptake and FAs synthase (FASN)-mediated endogenous FAs synthesis in PTC cell proliferation. The expression of LPL was analyzed using databases including GTEx, GEO, and TCGA. Furthermore, its expression in PTC tissue samples and cell lines was confirmed. To observe the impact of the lipoprotein-deficient medium on PTC cells, EdU and TUNEL staining assays were conducted. CCK-8, colony formation, and TUNEL assays were performed to assess the effect of down-regulating LPL and/or FASN expression in PTC cells. Bioinformatics analysis revealed the upregulation of LPL mRNA in thyroid cancer. LPL expression was significantly elevated in PTC tissues and cell lines. Lipoprotein-deficient medium inhibited PTC cell proliferation and induced apoptosis. Similarly, silencing either LPL or FASN led to comparable outcomes. The combined inhibition of both LPL and FASN had a synergistic effect, enhancing the inhibition of PTC cell proliferation and the increase in apoptosis. Both the de novo synthesis and exogenous uptake of FAs are important for PTC cell proliferation. The combined inhibition of LPL and FASN inhibitors shows promise for PTC treatment. Show less

Squamous cell carcinoma is the second most prevalent type of non-small cell lung cancer. Analyzing the molecular mechanisms underlying lung carcinoma requires useful tools, such as squamous lung cancer cell lines. A novel new lung squamous cell carcinoma cell line, OMUL-1, was developed from the primary lung cancer of a 74-year-old man. We assessed the characteristics and behavior of OMUL-1 cells were examined, including their growth kinetics, tumorigenicity in mice, histological properties, gene expression profiles using reverse transcription polymerase chain reaction (RT-PCR), and RNA sequencing and invasion assays. OMUL-1-an adherent cell line-resulted in 100% tumor formation when subcutaneously injected into mice. Histological analysis of the subcutaneous tumor using hematoxylin and eosin staining revealed squamous cell carcinoma with characteristics similar to those of the primary tumor (p40 and p63 were positive, and TTF-1 was negative). An invasion assay demonstrated that OMUL-1 had a lower invasion ability compared to that of other developed cell lines. RT-PCR analysis and RNA sequencing indicated that OMUL-1 cells expressed FGFR1, FGFR2, FGFR3, FGFR4, EGFR, HER2, ErbB3, ErbB4, VEGFR3, IGF1R, c-MET, PDGFRa, and PDGFRb. Additionally, picropodophyllin (an IGF1R inhibitor) significantly inhibited the growth of OMUL-1 cells. Immunohistochemistry revealed that IGF1R and PD-L1 were expressed in both the primary and subcutaneous tumors. We developed a novel new squamous cell lung carcinoma cell line, OMUL-1, that expresses IGF1R and PD-L1. Show less

Lipopolysaccharide (LPS) from gram-negative bacteria initially induces the pro-inflammatory cytokines storm and causes inflammatory cascade responses. However, the LPS with higher dosage induced duodenal, cecal, hepatic, and cardiac inflammation remains elusive. Specific pathogen-free chicken embryos (n = 72) were allocated to the control, LPS groups (10 μg, 24 μg, 50 μg, 100 μg, 170 μg/egg, respectively). Fifteen day old embryonated eggs were injected abovementioned solutions via the allantoic cavity by disposable syringes. On embryonic day 19, the tissues of the embryos were collected for histopathology, RNA extraction, real-time PCR, and immunohistochemistry investigation. The results demonstrated that there was inflammatory responses (heterophils infiltration or macrophages accumulation) presented in the duodena, ceca, livers, and hearts after LPS induction. The duodenal mRNA expressions of inflammatory-associated mediators (TLR4, IFNγ, IL-1β, IL-6, IL-8, MMP9, MMP3, p38, or NF-κB1) were significantly upregulated after LPS induction (10 μg, 24 μg, 50 μg, 100 μg, or 170 μg /egg) when compared with the control group, respectively. Duodenal immunopositivity of TLR4, MMP9, and MMP3 significantly increased following LPS induction (24 μg or 50 μg) compared to the control group. Meanwhile, the hepatic mRNA expressions of inflammatory-associated factors (IFNγ, MMP3, IL-1β, IL-10, TNFα, IL-8, or NF-κB1) significantly increased after LPS induction (10 μg, 24 μg, 50 μg, 100 μg, or 170 μg /egg) when compared with the control group, respectively. Additionally, cardiac mRNA expression of TLR4, IFNγ, IL-1β, IL-8, IL-10, MMP3, MMP9, and TNFα was significantly increased in all five LPS groups compared to the control group. Cardiac protein expressions of TLR4 or IFNγ significantly increased when compared 100 μg LPS group with the control group. Duodenal and cecal mRNA expressions of programmed cell death-related factors presented irregular. The mRNA expression of hepatic pyroptosis-associated gene AMPKα2, Beclin-1, Bcl-2, CASP1, or CASP12 after LPS induction (10 μg, 24 μg, or 50 μg/egg) increased when compared with the control group. Furthermore, the cardiac mRNA expressions of pyroptosis-related gene CASP1 and CASP12 in five LPS groups increased when compared with the control group. Cardiac autophagy-related gene Bcl-2, ATG5, or LC3B enhanced in LPS groups (10 μg, 50 μg, or 100 μg/egg) when compared with the control group, whereas LC3A, CASP1, or Drp1 mRNA expression in five LPS groups reduced when compared with the control group, respectively. The mRNA expressions of duodenal mucosal barrier function-associated mediators Claudin 1 and PEPT1 were upregulated after LPS induction (10 μg or 50 μg/egg) when compared five LPS groups with the control group, respectively; nevertheless, duodenal Mucin 2 and SGLT1 mRNA expression reduced in four groups (24 μg, 50 μg, 100 μg, or 170μg /egg) when compared with the control group, as well as cecal mRNA expressions of Mucin 2, occludin, SGLT1.The mRNA expressions of liver permeability-related gene (claudin 1 and occludin) increased in the five groups when compared with the control group, as well as cardiac permeability and energy metabolism-related gene (AMPKα2, APOA4, PPARα, SGLT, and claudin1). In conclusion, LPS can induce duodenal, hepatic and cardiac inflammation, initiate energy deficiency, autophagy, programmed cell death, enhanced intestinal mucous barrier function, tight junction, and permeability in chicken embryos. Show less

Hepatocellular carcinoma (HCC) arises from various etiologies, including viral hepatitis and non-viral liver diseases. Although comprehensive genomic profiling (CGP) is increasingly applied in oncology, the influence of disease etiology on the genomic landscape of HCC and biomarker applicability remains insufficiently characterized. CGP data from 551 patients with HCC, registered in the National Center for Cancer Genomics and Advanced Therapeutics (C-CAT) database, were analyzed after excluding cases with undefined etiology. We characterized the mutational landscape, compared mutation frequencies among HBV-, HCV-, and non-viral, non-cholestatic (nBnC)-related HCC, assessed the association between homologous recombination repair (HRR)-related gene alterations and tumor mutation burden (TMB), and evaluated the detection rates of actionable mutations in tissue- versus liquid-based CGP. Telomerase reverse transcriptase splice site mutations were the most common genomic alteration and were consistently observed across all etiologic groups. Although mutations in AXIN1 and DDR2 genes showed modest enrichment in HCV- and HBV-related HCC, respectively, the overall mutational profiles remained largely conserved across etiologies. TMB was significantly lower in nBnC-HCC compared to HCV-related HCC but showed no association with HRR-related mutations. The detection rates of targetable mutations were similar between tissue and liquid biopsies; however, only a small proportion of patients received matched therapies. Real-world data indicate a conserved genomic architecture in HCC regardless of etiology, supporting unified therapeutic approaches. The absence of a relationship between HRR alterations and TMB suggests distinct biological mechanisms. Liquid biopsy remains a reliable option when tissues are unavailable in managing patients with HCC. Show less

Familial hypercholesterolemia (FH) is characterized by lifelong elevated LDL-C levels and increased cardiovascular risk. PCSK9 inhibitors (PCSK9i) reduce LDL-C and Lp(a), however, the effect of dual lipid reduction on mechanical vascular function remains unclear. The aim of this study was to evaluate the efficacy of PCSK9i in reducing LDL-C and Lp(a) and to assess the relationship between the dual lipid reduction and the mechanical vascular profile improvement in FH subjects. This prospective observational study included 301 genetically confirmed FH subjects treated with PCSK9i added to high-intensity statins and ezetimibe. Biochemical and PWV measurements were performed at baseline and after six months. Subjects were stratified into four groups based on median values of ΔLDL-C and ΔLp(a). After six months of add-on PCSK9i, 44.9% of FH subjects achieved their LDL-C targets. Reductions were observed in LDL-C (− 49.8%, Dual lipid reduction with PCSK9i was associated with a pronounced mechanical vascular profile improvement in FH subjects; however, an intensive Lp(a) reduction may be needed to achieve a greater mechanical vascular benefit. Show less

Lipoprotein lipase (LPL) is the rate-limiting enzyme responsible for hydrolyzing triglycerides in circulating lipoproteins. Reduced LPL activity contributes to hypertriglyceridemia, a major cardiovascular risk factor. LPL activity is thought to depend on the conformation of the lid domain, the lipid pore, N- and C-terminal domains (NTD, CTD), and stabilization of these domains by endogenous activators such as apolipoprotein C-II (ApoC-II). Despite major clinical significance, the structure-function relationship of LPL's functional domains and cofactors remain incompletely understood. To address this, we performed the longest known (1-μs) molecular dynamics simulations of LPL independently and in complex with an ApoC-II mimetic peptide (ApoC-II-P). For the first time, we show that LPL's flexible lid can adopt multiple orientations, transitioning between open and closed states that regulate lipid pore access and catalytic activity. We also observed 'flipping' of ~180° by the CTD, a unique characteristic that dictates LPL activity when not in a closed lid state. Furthermore, ApoC-II-P stabilizes LPL by bridging its NTD and CTD, while maintaining an optimal lid orientation. Biochemical and cellular assays corroborate these findings, demonstrating that ApoC-II-P enhances LPL hydrolysis and supports noncanonical LPL functions. Together, these insights reveal previously unrecognized mechanisms governing LPL regulation and activity dynamics. Show less

Aging and alcohol misuse independently alter monocyte (MO) and macrophage (MØ) function, leading to impaired antimicrobial responses. However, how alcohol misuse contributes to impaired MO/MØ function during aging remains unclear. We compared the transcriptomes of MOs and MØs from alcohol-modulated niches (liver, brain, and bone marrow [BM]) in young (3-month-old) and old (20-24-month-old) female C57BL/6N mice (n = 4-6 per group). Statistical significance was determined using two-way ANOVA. MO/MØ transcriptomes showed unique organ-specific responses to aging and alcohol. Aging elicited a common deregulation of pathogen-responsive pathways, while alcohol misuse commonly inhibited IFN signaling in the aged populations. Our studies on intercellular communication using ligand-receptor interactions revealed that BM MOs were the least communicative and liver MØs were the most communicative. Alcohol misuse specifically increased MO/MØ communication in aging. We also identified and validated specific pathways driving inter-organ MO/MØ crosstalk in alcohol misuse during aging, including APOE-TREM2 signaling from the liver to microglia and the NRXN2 and SPP1 pathways. Our results provide a unique insight into the heterogeneity of the MO/MØ transcriptome and define the inter-organ crosstalk between BM, liver, and brain during aging and alcohol misuse. Aging and alcohol misuse are linked to immune dysfunction, systemic inflammation, and altered innate immune responses. Here, we examined monocyte/macrophage responses in the liver, brain, and bone marrow of young and aged mice under alcohol exposure at the transcriptomic level. We observed that aging and alcohol predominantly elicited organ-specific changes in gene expression, with minimal overlap between the monocyte/macrophage populations across different tissues. However, aging commonly upregulated pathogen response pathways while alcohol misuse inhibited interferon signaling. We also assessed cell-cell communication by analyzing ligand-receptor expression in the different monocyte/macrophage populations and identified candidate molecules (APOE, TREM2, NRXN2, SPP1) from the top pathways guiding inter-organ signaling specifically in aging and alcohol misuse. Our findings have generated a unique repository and provide novel insights on how aging and alcohol impact tissue-specific monocytes/macrophages and their crosstalk. Show less

The development of tendinous xanthomas in childhood with a low-density lipoprotein (LDL) cholesterol level >400 mg/dL is characteristic of homozygous familial hypercholesterolemia (FH). We present the case of a patient with a severely elevated LDL cholesterol level and childhood-onset xanthomas who fulfilled clinical criteria for homozygous FH. However, genetic and absorption testing clarified his phenotype to be a unique digenic overlap of both heterozygous FH and heterozygous sitosterolemia with marked elevations in cholesterol absorption indices. Treatment with ezetimibe 10 mg daily resulted in a dramatic reduction in LDL cholesterol. Sitosterolemia, a rare autosomal recessive disorder of plant sterol hyperabsorption, can also result in xanthomatosis and thus can mimic FH. Although it is usually a homozygous disease, heterozygotes may exhibit intermediary phenotypes. Patients with severe hypercholesterolemia should undergo genetic and biochemical profiling for diagnostic confirmation and for ensuring that they receive optimal, personalized therapy. Show less

Anxiety is significantly correlated with levels of physical activity in university students. This research assessed the effects of anxiety on engagement in physical activity and explored the potential mediating function of psychological resilience. Additionally, latent profile analysis (LPA) was employed to identify distinct subtypes based on anxiety and resilience levels, and to explore their associations with physical activity. Utilizing a non-probability convenience sampling approach, this cross-sectional study recruited a total of 1,436 collegiate participants from multiple universities. Data collection was carried out with the Generalized Anxiety Disorder Scale (GAD-7), the abbreviated Connor-Davidson Resilience Scale (CD-RISC-10), and the Physical Activity Rating Scale (PARS-3). Data analysis included mediation effect analysis via Bootstrap methods (Model 4) and latent profile analysis (LPA). Anxiety demonstrated a significant negative association with physical activity ( Results demonstrated that anxiety affects physical activity both directly and indirectly, with the latter effect occurring through the channel of psychological resilience. Latent profile analysis identified three distinct profiles among college students based on anxiety and psychological resilience: High Anxiety-Low Psychological Resilience, Moderate Anxiety-Moderate Psychological Resilience, and Low Anxiety-High Psychological Resilience. Marked variations in physical activity levels were observed among these subgroups. The results underscore the complex relationships among mental health indicators and health behaviors within the collegiate population. The delineation of distinct profiles offers practical implications for designing tailored intervention strategies. Show less

Fel d1, the major cat allergen responsible for over 90% of human IgE-mediated allergies, has an incompletely defined physiological role. To explore its function and assess the feasibility of producing hypoallergenic cats, we knocked out the CH2 domain of Fel d1 using CRISPR/Cas9 in feline skin cells. An optimized sgRNA introduced a frameshift mutation, with knockout efficiency validated by sequencing, qRT-PCR, and Western blot. Transcriptomic alterations were profiled by RNA-seq, and functional consequences were investigated via GO, KEGG, and GSEA analyses. Key findings were confirmed by qPCR, and phenotypes were assessed using CCK-8, EdU, and flow cytometry. The approach successfully generated a three-base insertion, resulting in near-complete loss of CH2 mRNA and Fel d1 protein. RNA-seq identified 3,469 differentially expressed genes (DEGs), with significant enrichment in pathways for hypertrophic cardiomyopathy (HCM) and rheumatoid arthritis (RA). Key genes in these pathways (e.g., Show less

This study aimed to collaboratively investigate the mechanism of variations in intramuscular fat (IMF) content in Wandong cattle using transcriptomics and metabolomics techniques. Longissimus dorsi (LD) muscle samples were collected from thirteen free-range Wandong cattle in Fengyang County, Anhui Province, China. From this initial cohort, eight animals closely matched in age and body weight were selected. Based on IMF content measured by Soxhlet extraction, these eight cattle were divided into two groups: the high-IMF (HF, n = 4) and low-IMF (LF, n = 4) groups. Subsequent analyses were performed on integrated datasets comprising the transcriptome, metabolome, and fatty acid profile. The results revealed a significant increase in IMF in the HF group compared to the LF group ( Show less

Metabolically Dysfunctional-Associated Steatotic Liver Disease (MASLD) affects both metabolically healthy obese (MHO) individuals and metabolically unhealthy lean (MUL) individuals. Key genes linked to liver dysfunction, such as Show less

Cardiomyopathies (DCM, HCM, and ACM) and primary arrhythmogenic disorders (BrS, LQTS, and CPVT) represent the most common causes of sudden cardiac death (SCD) in young individuals. Systematic genome-wide single-nucleotide polymorphism (SNP) analyses and genome-wide association studies (GWASs) have enabled the identification of numerous genetic variants associated with cardiovascular diseases. Body: Genetic testing for cardiomyopathies and inherited channelopathies primarily involves panel testing of genes with definitive and strong evidence of disease association; genes supported by moderate evidence may also be considered. Cardiomyocytes express a variety of proteins implicated in the pathogenesis of genetic cardiomyopathies, including sarcomeric, cytoskeletal, desmosomal, and nuclear envelope proteins. Inherited cardiac channelopathies result from mutations in genes encoding cellular components that influence calcium ion availability or affect membrane ion channels, including sodium, potassium, and calcium channels. Common variants associated with SCD are found in genes encoding cardiac ion channels (e.g., This review demonstrates that specific genetic variants are significantly associated with an increased risk of SCD. The evidence underscores the importance of genetic screening and early intervention in individuals with a family history of SCD or other risk factors for inherited cardiac disorders predisposing to SCD. Future research should focus on gene-specific management strategies for familial cardiomyopathies and inherited channelopathies, with the goal of improving targeted genetic therapies and reducing the burden of sudden cardiac death. Show less

Diabetes-related chronic kidney disease (DKD) is a leading cause of end-stage kidney disease (ESKD), requiring costly dialysis or kidney transplantation. Existing standard- of-care tests for DKD have several limitations, and an alternative is Promarker®D, a validated plasma biomarker test system that predicts DKD in adults with diabetes up to 4 years before symptoms develop. To enable high-throughput application of PromarkerD, a novel CaptSureTM immunoassay version of the test was developed targeting plasma biomarkers Apolipoprotein A4 (ApoA4) and CD5 antigen-like (CD5L). The analytical performance of the assay was assessed, and clinical samples from 2 independent clinical cohorts (>1700 adults with type 2 diabetes [T2D]) were used for the development and external validation of the DKD predictive test. The PromarkerD test system combined ApoA4 and CD5L concentrations with clinical factors age and estimated glomerular filtration rate (eGFR) to calculate risk scores (0% to 100%) and classify study participants as either at low, moderate, or high risk for future kidney decline. PromarkerD demonstrated reliable analytical performance and provided a high discriminative capability in adults with T2D (receiver operating characteristic area under the curve [ROC-AUC]: 0.78 to 0.88) to predict 4-year kidney decline, defined as incident DKD (eGFR <60 mL/min/1.73 m2) or eGFR decline ≥40%, with sensitivity of 75.8% to 85.1% at the moderate-risk cutoff and specificity of >92% at the high-risk cutoff across the two cohorts. The next-generation PromarkerD test system offers a convenient yet highly effective tool for DKD risk assessment. By introducing PromarkerD to standard diabetes care, preventative treatment strategies may be implemented early before permanent kidney function loss occurs. Show less

To determine whether lipoprotein(a) [Lp(a)] and cumulative Lp(a) (CumLp(a)) are associated with adverse outcomes in patients with acute myocardial infarction (AMI). This cohort study included 2,634 hospitalized patients diagnosed with AMI who underwent coronary angiography at Zhongda Hospital, Southeast University, from July 2013, to December 2021. The main outcome was major adverse cardiac and cerebrovascular events (MACCE), defined as cardiovascular (CV) death, non-fatal myocardial infarction, non-fatal stroke, or unplanned revascularization—occurring singly or in combination. We used Cox proportional hazards models, with subgroup and sensitivity analyses, restricted cubic spline (RCS) modeling, and threshold-effect assessment to evaluate the relationships between Lp(a), CumLp(a), and prognosis. Across a median 55.2-month follow-up, 907 participants (34.40%) experienced a MACCE, 342 (13.00%) patients had CV death, 177 (6.70%) patients had non-fatal MI, 202 (7.70%) patients had non-fatal stroke, 399 (15.10%) patients underwent unplanned revascularization, and all-cause death occurred in 547 (20.80%) patients. Multivariable Cox regression models demonstrated a significantly increased risk of MACCE, CV death, non-fatal MI, and non-fatal stroke in both the higher Lp(a) and higher CumLp(a) groups compared with the lower groups (HRs for Lp(a): 1.652, 2.157, 3.455, and 1.930; HRs for CumLp(a): 1.697, 1.675, 3.759, and 2.032), and every one-unit rise in CumLp(a), the risk of MACCE, CV death, non-fatal MI and non-fatal stroke increased by 1.3%, 1.4%, 1.9% and 1.2%, respectively. The majority of subgroup and sensitivity checks consistently supported a stable link between Lp(a)/CumLp(a) and the risks of MACCE, CV death, non-fatal MI, and stroke. Analyses using RCS and threshold models revealed that Log Higher levels of Lp(a) and CumLp(a) are linked to a greater risk of poor outcomes among patients with AMI as the index event, highlighting their potential value for risk stratification and guiding clinical decision-making. The online version contains supplementary material available at 10.1186/s12944-025-02800-6. Show less

Study participants with rheumatoid arthritis (RA) have an elevated risk for nontuberculous mycobacterial pulmonary disease (NTM-PD), which limits the treatments for RA. Biomarkers for NTM-PD in study participants with RA are required. Patients with NTM-PD have been studied for small-molecule metabolites, although few have been performed for NTM-PD associated with RA. Therefore, we performed lipidomic profiling of NTM-PD in the urine specimens of study participants with RA to discover useful biomarkers. Urine specimens provided by 90 study participants with RA, with or without NTM-PD were subjected to lipidomic analysis. Univariate analysis found that the urinary concentrations of lysophosphatidic acid (LPA) 22:5 and phosphatidic acid (PA) 36:1 were altered in study participants with RA and NTM-PD (respective areas under the curves of receiver operating characteristic (AUROCs) were 0.977 and 0.811; P = 3.83 × 10 Show less

Dairy cow longevity affects production economy, climate footprint, and cow welfare. Based on data from the Danish Cattle Database, this research paper evaluates the relationship between early-life risk factors associated with the period before first calving and cow longevity, including data from all Danish dairy cows culled in 2019-2023. Explanatory variables for linear mixed models included calf size, twinning, and age at first calving. Information about the length of productive life (LPL) (mean: 1,074 days) and lifetime milk yield (mean: 32,088 kg energy-corrected milk) was available for 767,305 and 716,120 cows, respectively. Milk yield per day of life increased from 7 kg in cows culled during the first lactation to more than 20 kg in cows culled in their fifth or later lactations. For cows born as singletons, LPL was one month longer for cows born as large calves than for medium-sized calves, and 2 months longer than for small calves. Cows born as twins had 2 to 3 months shorter productive lives compared to cows born as singletons. For singletons, lifetime milk yield was 1,200 kg higher for large calves than for medium-sized calves, and 2,100 kg higher than for small calves. Lifetime milk yield was 1,500 to 3,500 kg lower in cows born as twins. Cows being among the third quartile of age at first calving had an estimated productive life 2.5 months longer, and a lifetime milk yield more than 2,600 kg higher than cows calving among the first quartile of age. The results from this study clearly demonstrate the importance of 'a good start'. Show less

Lp(a) (lipoprotein [a]) and coronary artery calcium score (CACS) are independently associated with atherosclerotic cardiovascular disease (ASCVD) risk. This study aimed to investigate sex-specific prognostic differences between Lp(a) and CACS in ASCVD risk. We analyzed 4651 participants from the Multi-Ethnic Study of Atherosclerosis, grouped by sex. Multivariable Cox regression analysis was performed to evaluate the prognostic value of Lp(a) and CACS for ASCVD risk in both sexes. The predictive performance of these factors was compared in men and women. During a median follow-up of 13.84 years, 465 ASCVD events were recorded (272 in men and 193 in women). Multivariable Cox regression analysis revealed that both elevated Lp(a) and CACS were independent predictors of ASCVD risk in both sexes. The C-index analysis demonstrated that CACS provided incremental prognostic value over Lp(a) in men (C-index: 0.732 versus 0.714; Although both Lp(a) and CACS independently predict ASCVD risk in both sexes, the predictive value of Lp(a) varies significantly between men and women across different CACS categories. These findings may inform sex-specific strategies for primary prevention of ASCVD. Show less

Aberrant aggregation of amyloid-β (Aβ) peptides is a hallmark of Alzheimer's disease (AD), contributing to synaptic dysfunction and cognitive decline. Recently, pyroglutamate-modified Aβ (pE3-Aβ) has emerged as a key contributor to Aβ pathology, as it is a highly aggregation-prone variant that enhances amyloid seeding and accelerates plaque propagation. β-Secretase (BACE1) and glutaminyl cyclase (QC) are essential enzymes for generating Aβ and pE3-Aβ, respectively, and represent key therapeutic targets. This study evaluated fucoxanthin, a marine carotenoid found in brown algae for its potential to modulate Aβ pathology and cognitive function. In SweAPP N2a cells, fucoxanthin (0.1-5 μM) significantly decreased BACE1 and QC expression, accompanied by reduced levels of Aβ Show less

The global increase in muscle weakness poses a critical public health concern. Nutritional interventions that improve muscular function hold promise as a therapeutic potential. Vitamin A (VA) and its active metabolites have been implicated in muscle development and the transformation of muscle fiber types. However, conventional VA formulations are restricted by poor stability and low bioavailability. In this study, a stable Nano VA was utilized to systematically evaluate its effects on muscle development and exercise performance in mice, as well as to explore its underlying mechanisms. A total of 44 male C57BL/6J mice were randomly divided into four groups: (i) normal control (NC), (ii) 5 mg/kg Nano VA (5 NVA), (iii) 10 mg/kg Nano VA (10 NVA), and (iv) 10 mg/kg VA (10 VA). The 10 NVA group demonstrated significantly improved muscle strength and swimming endurance, compared with the NC group. Further examination suggested a significant increase in myofiber diameter, cross-sectional area, and the content of fast-twitch fibers. Additionally, Nano VA treatment improved glucose tolerance and insulin sensitivity. To elucidate the mechanism by which Nano VA enhances muscle locomotor ability, transcriptomics and metabolomics data identified 111 differentially expressed genes and 253 differential metabolites. Of these, Angptl4, Ppp1r3a, and Cyp26b1 were identified as candidate regulators of muscle development and myofiber type transformation. In conclusion, Nano VA regulates muscle development and promotes muscle fiber type conversion, thus improving muscle strength and endurance in mice. Moreover, Nano VA facilitates mitigating and improving myasthenia gravis-related conditions. Show less

Lipoprotein(a) [Lp(a)], one of the major residual cardiovascular risks, is a highly polymorphic low-density lipoprotein (LDL)-like particle. Epidemiological and Mendelian randomization studies have suggested that elevated Lp(a) is a causal risk factor for atherosclerotic cardiovascular disease (ASCVD) due to its pro-inflammatory, pro-atherogenic and pro-thrombotic properties. However, metabolic and pathological mechanisms of Lp(a) remain under-investigated. Recent genomic and population studies show that very low Lp(a) levels are associated with increased risk of type 2 diabetes mellitus (T2DM). Thus, whether potent Lp(a)-lowering therapies might increase the risk of T2DM incident has been raised as a potential issue from recent guidelines. This review details Lp(a)-induced inflammation and thrombosis evidences, the underlying mechanisms of Lp(a) in ASCVD, and the complicated associations and potential mechanistic effects of Lp(a) on the development of T2DM. Current evidences tend to favor that the anti-atherogenic benefits of lowering Lp(a) shall override the paradoxical negative impact on the new-onset T2DM. The risk-benefit assessments for potent Lp(a)-lowering therapies are warranted. Show less

The genetic basis of hypertriglyceridemia (HTG) is complex and includes variants in lipase maturation factor 1 (LMF1), an endoplasmic reticulum (ER)-chaperone involved in the post-translational activation of lipoprotein lipase (LPL). The objective of this study was to identify and functionally characterize biallelic LMF1 variants in patients with HTG. Genomic DNA sequencing was used to identify biallelic LMF1 variants in HTG patients without deleterious variants in LPL, apolipoprotein C-II (APOC2), glycosylphosphatidylinositol-anchored high-density lipoprotein binding protein 1 (GPIHBP1) or apolipoprotein A-V (APOA5). LMF1 variants were functionally evaluated by in silico analyses and assessing their impact on LPL activity, LMF1 protein expression, and specific activity in transiently transfected HEK293 cells. We identified four homozygous LMF1 variants in patients with severe HTG: two novel rare variants (p.Asn147Lys and p.Pro246Arg) and two low-frequency variants (p.Arg354Trp and p.Arg364Gln) previously reported at heterozygosity. We demonstrate that all four variants reduce the secretion of enzymatically active LPL by impairing the specific activity of LMF1, whereas p.Asn147Lys also diminishes LMF1 protein expression. This study extends the role of LMF1 as a genetic determinant in severe HTG and demonstrates that rare and low-frequency LMF1 variants can underlie this condition through distinct molecular mechanisms. The clinical phenotype of patients affected by partial loss of LMF1 function is consistent with multifactorial chylomicronemia syndrome (MCS) and suggests that secondary factors and additional genetic determinants contribute to HTG in these subjects. Show less

Lymphoplasmacytic lymphoma (LPL) represents a rare, indolent form of B-cell neoplasm, with non-immunoglobulin M subtypes, including the immunoglobulin G (IgG)-λ variant, being notably uncommon. In this report, we document a case of LPL distinguished by the presence of monoclonal IgG-λ immunoglobulin and free λ light chains, alongside its distinctive molecular characteristics and therapeutic outcomes. A 58-year-old male presented with fatigue, leukocytosis (75.45 × 109/L, 88.8% lymphocytes), lymphadenopathy, and splenomegaly. Serum studies detected an IgG-λ monoclonal protein (6.74 g/L) with concurrent elevation of free λ light chains. Bone marrow biopsy revealed marked hypercellularity, with lymphocytes comprising 80% of nucleated cells (predominantly plasmacytoid lymphocytes) and 5% plasma cell clusters. Genetic testing identified mutations in MYD88, CXCR4, and IGHV, along with trisomy 12 and del(13q14). He was diagnosed with LPL with IgG-λ monoclonal immunoglobulin and free λ light chains, classified as low risk per the Revised International Prognostic Scoring System. The patient received 3 cycles of bendamustine plus rituximab therapy. The blood cell count returned to normal and the spleen and lymph nodes were significantly reduced. Serum M protein levels decreased, and no obvious increase in B lymphocytes or plasma cells was found in the bone marrow. The patient achieved partial remission. This case highlights the diagnostic and therapeutic challenges associated with the IgG-λ subtype of LPL, an uncommon variant of this rare malignancy. This report provides valuable insights into the clinical presentation, pathological features, molecular alterations, and treatment outcomes of this rare disease. Show less

Metabolic dysfunction-associated fatty liver disease (MAFLD), driven by dyslipidemia and hepatic lipid deposition, has become a major public health concern. Angiopoietin-like protein 3 (ANGPTL3), a lipoprotein lipase (LPL) activity inhibitor, can inhibit triglycerides (TGs) decomposition, and fibroblast growth factor 21 (FGF21) enhances fatty acids' β-oxidation in liver. We constructed a novel fusion protein combining the anti-ANGPTL3 nanobody FD03 and FGF21 (FD03-FGF21), which exerted appropriate binding affinities to ANGPTL3 and β-Klotho respectively. Our results showed FD03-FGF21 restored bioactivity of LPL which inhibited by ANGPTL3 and activated downstream pathway of FGF21 in iLite FGF21 assay-ready cells. Next, FD03-FGF21 showed a significant therapeutic effect in MAFLD mice, including attenuation of metabolic dyslipidemia, hepatic lipid accumulation, and impaired glucose tolerance. Compared to other treatments, FD03-FGF21 achieved the most significant therapeutic effect with a 79.78 % attenuation of low-density lipoprotein cholesterol (LDL-C) and a 95.8 % reduction of hepatic lipid accumulation. Mechanistically, transcriptomic analysis revealed that differential expression genes (DEGs) were principally clustered into lipid metabolism and oxidative stress pathways after the fusion protein treatment, especially the key lipid metabolism genes of LDLR and CD36 were significantly upregulated and downregulated respectively, as confirmed by WB. Furthermore, lipidomic and metabolomic analysis indicated the fusion protein ameliorated disorders in lipid and protein metabolism mainly through the downregulation of DG and upregulation of PC. Hepatic oxidative stress and inflammation were significantly reduced after administration of the fusion protein in MAFLD mice. Collectively, FD03-FGF21 represents an effective therapeutic strategy for MAFLD therapy through ameliorating lipid metabolism and oxidative stress. Show less

Salivary gland cancers (SGCs) are rare and comprise multiple histologic entities. In the recurrent or metastatic (R/M) setting, there is limited evidence for effective systemic anticancer treatment for most subtypes, affecting prognosis and quality of life. Molecular analysis of SGCs holds promise to more accurately classify SGC subtypes and to determine novel therapeutic targets. Fifteen patients with R/M SGC underwent tumor biopsy and blood sampling to perform whole-genome sequencing (WGS) of tumor and germline as part of their standard-of-care management. Small somatic mutations, structural alterations, copy number variation, and mutational signatures were processed using WGS pipelines alongside germline testing. Alterations were correlated to clinical features and fed back to clinical team to inform treatment decisions. WGS quality control was acceptable in 14 of 15 patients (adenoid cystic carcinoma [AdCC, n = 10], salivary duct carcinoma ex pleomorphic adenoma [n = 1]; clear cell myoepithelial carcinoma [n = 1]; epithelial-myoepithelial carcinoma [n = 1]; and acinic cell carcinoma [n = 1]). Genomic rearrangements/fusions were present in 12 of 14. Rearrangements involving MYB and or NFIB were identified in 8 of 10 patients with AdCC. One patient harbored a clinically actionable WGS in SGC is achievable in clinically relevant timeframes, providing genomic information for deeper understanding of disease pathophysiology, to clarify histologic subtype and can identify actionable genomic targets which may not be found through routine sequencing technologies. Further use of WGS has the potential to improve care for patients with SGC. Show less

Multiple sclerosis (MS) is an autoimmune disorder of the central nervous system (CNS) that is characterized by demyelination, inflammation, and neurological damage. MS is the most common neurological disorder of young adults, negatively impacting their quality of life. Recent population-based estimates have determined that the prevalence of MS in the United States is growing and can be up to 3 times higher in females. While the etiology of MS is complex, involving genetics, immune dysregulation, and environmental triggers, the factors elevating MS risk in women are relatively unexplored. Hence, there is a major need for studies that further our understanding of the pathophysiology of MS in women and identify potential biomarkers and therapeutic targets. To this end, we used highly sensitive and untargeted liquid chromatography-mass spectrometry (LC-MS) to identify proteins in the cerebrospinal fluid (CSF) of age-matched females who were either diagnosed with MS or headache (HA). We found that the CSF of female individuals with MS was enriched in proteins involved in macrophage and microglia function yet depleted in proteins involved in neurogenesis and neuronal function. Overall, our findings support recently identified therapeutic targets (e.g., FABP5), as well as highlighting potential targets that may predict or promote MS neuropathogenesis in females (e.g., CD99, APOC3), which should be studied in larger cohorts going forward. Show less

The risk factors and clinical prediction of cardiovascular comorbidities in patients with breast cancer have not been fully clarified. This retrospective case-control study was designed to investigate the factors affecting myocardial ischemia occurrence in breast cancer patients. A total of 194 cases (144 breast cancer and 50 benign breast tumor patients) were included. Univariate and multivariable Cox regression found that ApoB, age, and HER2 were significant factors responsible for the myocardial ischemia occurrence in breast cancer patients. By comparing the significance of ApoB in breast cancer patients versus benign breast tumor patients, it was observed that ApoB and HER2 were crucial predictors of myocardial ischemia in breast cancer patients compared to those with benign breast tumors. These factors were utilized to construct the clinical prediction model, achieving a combined area under the curve (AUC) of 0.583. The decision curve analysis (DCA) indicated that the model-predicted population, within a threshold ranging from 0.35 to 0.70, would experience a therapeutically clinical net benefit. Kaplan-Meier plot indicated that ApoB We demonstrated that ApoB and HER2 were potential factors in predicting the myocardial ischemia occurrence in breast cancer patients. This study will help provide clinical evidence for the early prediction of cardiovascular comorbidities in breast cancer patients. Show less